JP2002095728A - Deodorizing bactericidal, sterilizing and fungicidal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a deodorizing, bactericidal, sterilizing and fungicidal device which can be partially decomposed, easily cleaned and maintained, and is more easier to be carried out to any place to be sprayed than any other conventional ones to be directly connected to city water. SOLUTION: This device is provided with an electrolytic tank 1 which generates a bactericidal solution by electrolysis for decomposing or eliminating the source of smell, bacteria and molds, a storage tank 2 for storing the bactericidal solution to be produced in the electrolytic tank 1 and a means of spraying the bactericidal solution 3 to be supplied from the storage of the bactericidal solution 2. The device body 4 has the storage of the bactericidal solution 2 and a spraying means 3. An electrolytic tank 1A equipped with the electrolytic tank 1 can freely be attached to or detached from the device body 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deodorizing / sterilizing method for removing odor components permeated into a room in a home, fungi floating in a room, and mold generated on joints of walls and tiles. The present invention relates to a bacteriostatic / antifungal device.

[0002]

2. Description of the Related Art Japanese Patent Laid-Open Publication No. Hei 10-3136517 has proposed a device for deodorizing, disinfecting, and preventing mold in a room. In this conventional example, a water supply pipe connected to a water pipe to an electrolytic cell is connected to a pipe for supplying a chloride aqueous solution from a chemical liquid tank by a pump, and water supplied from the water supply pipe is supplied from a chemical liquid tank by a pump. The resulting aqueous solution of chloride is added and electrolyzed in an electrolytic cell to generate hypochlorous acid water, and the hypochlorous acid water thus generated is pumped to an ultrasonic generator connected to the electrolytic cell by a tube. , And atomized by an ultrasonic generator to be emitted indoors.

However, the above-mentioned apparatus not only connects a water supply pipe for connecting a water pipe to an electrolytic cell, but also connects the electrolytic cell integrally with a chemical tank and a pipe, and also connects an atomizing apparatus and a pipe. The electrolytic cell, the chemical tank and the atomizing device cannot be separated from each other, and the electrolytic cell is connected to a water pipe. And can not be inspected,
In addition, it is not possible to supply only the liquid to be treated at another place, and it is not portable because it is a direct water supply type that atomizes electrolyzed water while continuously supplying tap water from the water supply pipe There is a problem that the fog emission location cannot be freely changed.

[0004] Further, in the prior art, aqueous hypochlorous acid having a pH of 3 to 7.5 is atomized and released, but when the aqueous hypochlorous acid is generated by electrolysis, it is necessary to adjust the pH to 3 to 7.5. pH adjustment is required.

[0005]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and a part of the apparatus can be removed to facilitate cleaning and maintenance. An object of the present invention is to provide a deodorizing, sterilizing, germ-free and anti-fungal device which is easier to carry and can freely select a spraying location.

[0006]

Means for Solving the Problems In order to solve the above problems, a deodorizing / sterilizing / sustaining bacteria / mold preventing apparatus according to the present invention comprises:
An electrolytic cell 1 for generating a sterilizing liquid for sterilizing or decomposing bacteria and mold components by electrolysis, a sterilizing liquid reservoir 2 for storing the sterilizing liquid generated in the electrolytic cell 1, and a sterilizing liquid storing section 2
Atomizing means 3 for atomizing the sterilizing liquid supplied from
The apparatus is characterized in that a sterilizing liquid reservoir 2 and atomizing means 3 are provided in an apparatus main body 4, and an electrolytic tank 1 A having an electrolytic tank 1 is detachably attached to the apparatus main body 4. With such a configuration, a sterilizing solution, which is an electrolysis product solution electrolyzed in the electrolytic cell 1, is stored in the sterilizing solution reservoir 2 of the apparatus main body 4, and the sterilizing solution stored in the sterilizing solution reservoir 2 is atomized by the atomizing means. By spraying the germicidal solution to a desired place in the room by spraying atomized by 3, the components of odor, fungus and mold can be effectively sterilized or decomposed, and the electrolytic tank The germicidal solution generated in the electrolytic cell 1 of 1A is stored in the germicidal liquid reservoir 2, so that the germicidal liquid reservoir can be stored even at the initial operation of the electrolytic cell 1 or when the operation of the electrolytic cell is stopped. The sterilizing liquid stored in the section 2 can be supplied to the nebulizing means 3 in a required amount and atomized in a required amount to be sprayed. Further, it is possible to remove the electrolytic tank 1A to supply the liquid to be treated to the electrolytic tank 1A, perform cleaning and inspection, and to remove the sterilizing liquid stored in the sterilizing liquid storage unit 2 even when the electrolytic tank 1A is removed. A necessary amount is supplied to the atomizing means 3 to atomize and spray the required amount. Further, since the liquid to be treated can be supplied by removing the electrolytic tank 1A from the apparatus main body 4, there is no need to directly connect a pipe for supplying tap water as in the related art. It is easy to carry, and can be sprayed with a germicidal solution at any place to effectively sterilize or decompose odor, fungus, and mold components.

Further, an electrolytic cell 1 for generating a sterilizing solution for sterilizing or decomposing components of odor, fungi and mold by electrolysis is provided in an apparatus main body 4, and an atomizing means 3 for atomizing the generated sterilizing solution. And a liquid storage tank 2A for supplying the liquid to be supplied to the electrolytic cell 1 may be detachably attached to the apparatus body 4. With such a configuration, the liquid to be treated supplied from the liquid to be treated storage tank 2A is electrolyzed in the electrolytic tank 1 provided in the apparatus main body 4 to generate a sterilizing liquid as an electrolytic product, and this sterilizing liquid is produced. Is atomized by the atomizing means 3 to atomize and spray a germicidal solution at a desired location in the room, thereby effectively disinfecting or decomposing odor, fungus and mold components. Since the liquid storage tank 2A is detachable, when the liquid to be processed is supplied to the liquid storage tank 2A, the liquid storage tank 2A is removed and the liquid to be processed is stored in another place in the liquid storage tank 2A. When the liquid to be treated is contained in the electrolytic cell 1 even when the liquid tank 2A to be treated is removed, the electrolytic operation in the electrolytic cell 1 is performed, and sterilization is performed by the atomization means 3. The device can be atomized It is not necessary to stop the processing, and since the liquid to be treated can be supplied by removing the liquid to be treated storage tank 2A, there is no need to directly connect a pipe for supplying tap water as in the prior art. Since the apparatus main body 4 can be made of a type that is not connected to a water supply, it is easy to carry, and a germicidal solution can be sprayed at an arbitrary place, and effective odor, bacteria, and mold components can be sterilized or decomposed.

[0008] The sterilizing solution generated in the electrolytic cell 1 has a pH
It is preferably 7.5 or more aqueous hypochlorous acid or sodium hypochlorite.

Further, the main body side storage tank section 6 for storing the liquid to be processed supplied from the liquid storage tank 2A to the apparatus main body 4, and the main body side storage tank section 6 and the atomizing means 3 are communicated with each other. It is preferable that a communication part 7 is provided, and the electrolytic cell 1 is provided in the communication part 7. With this configuration, the liquid to be treated supplied from the liquid to be treated storage tank 2A is further stored in the apparatus main body 4 in the main body side storage tank section 6 and electrolyzed in the electrolytic tank 1 provided in the communication section 7. Therefore, when a small amount of liquid to be treated once stored in the main body-side reservoir 6 is supplied to the atomizing means 3 via the communicating portion 7 in a small amount necessary for atomization, a small amount of liquid necessary for this atomization is supplied. The liquid to be treated can be effectively electrolyzed in the electrolytic cell 1 provided in the communication section 7 to generate a sterilizing liquid.

Preferably, the atomizing means 3 comprises an ultrasonic vibrator 8 and a horn 9. With this configuration, the sterilizing solution can be atomized into fine particles by ultrasonic vibration.

Preferably, the ultrasonic vibrator 8 is a piezoelectric vibrator, and the horn 9 is a flat horn.

Further, it is preferable to provide an air blowing means 10 for spraying the sterilizing liquid atomized by the atomizing means 3 on the apparatus main body 4. With such a configuration, the atomized sterilizing liquid can be sprayed over a wide space.

Further, it is preferable to provide a filter 12 at the intake port 11 of the blower 10. With such a configuration, fine dust and dirt in the space can be removed.

It is preferable to provide a timer 5 for adjusting the deodorizing, disinfecting, germ-reducing, and mold-proofing ability by turning on / off the apparatus or spraying a sterilizing solution into the liquid. By adopting such a configuration, it is possible to stop driving the apparatus or to weaken the ability during a time period when the frequency of use is low.

Further, a detecting means 13 for detecting a human body or an animal is provided. Depending on whether or not the detecting means 13 detects a human body or an animal, the apparatus is turned on / off or deodorized / sterilized / controlled by spraying a sterilizing solution by atomization. It is preferable to adjust the bacterium / mold prevention ability. With such a configuration, the drive of the device can be stopped or the ability can be reduced when no human or animal is detected.

Further, a sensor 1 for detecting odor, bacteria, and mold
It is preferable to provide a sensor 4 and adjust the deodorizing, sterilizing, germ-reducing, and mold-proofing ability by turning on / off the device or spraying a sterilizing solution by spraying the sensor 14 information. With such a configuration, the device can be driven or the capability can be increased only when the sensor 14 detects odor, fungus, and mold.

Further, the atomizing means 3 comprises an ultrasonic vibrator 8 and a horn 9, and a sensor 14 for detecting odor, bacteria and mold.
It is preferable that the power of the ultrasonic wave is changed based on the information of the sensor 14 to adjust the deodorizing, sterilizing, germicidal and antifungal abilities. With such a configuration, the power of the ultrasonic wave can be changed according to the strength of the odor, the bacterium, and the mold to adjust the deodorizing, sterilizing, germ-free, and mold-preventing ability.

The atomizing means 3 is composed of an ultrasonic vibrator 8 and a horn 9 and has a sensor 14 for detecting odor, bacteria and mold.
It is preferable to adjust the deodorizing / sterilizing / sterilizing / antibacterial / antifungal ability by changing the frequency of the ultrasonic wave based on the sensor 14 information to change the atomization particle size. With such a configuration, it is possible to adjust the deodorizing, sterilizing, bacteriostatic, and antifungal ability by changing the frequency of the ultrasonic wave depending on the strength of the odor, bacteria, and mold.

Further, a sensor 1 for detecting odor, bacteria, and mold
It is preferable that the concentration of the sterilizing solution in the electrolytic cell 1 be changed based on the information of the sensor 14 to adjust the deodorizing, sterilizing, bacteriostatic, and antifungal abilities. With such a configuration, the concentration of the germicidal solution can be changed depending on the strength of the odor, bacteria, and mold to adjust the deodorizing, sterilizing, germicidal, and antifungal abilities.

Further, a sensor 1 for detecting odor, bacteria, and mold
It is preferable to adjust the deodorizing / sterilizing / sterilizing / antifungal ability by changing the supply amount of the sterilizing solution to the atomizing means 3 based on the sensor 14 information. By adopting such a configuration, it is possible to adjust the deodorizing, sterilizing, bacteriostatic, and antifungal ability by changing the amount of sterilizing liquid sprayed and sprayed into the space by the strength of odor, fungi, and mold. It is.

The atomizing means 3 for atomizing by ultrasonic waves is detachable from the apparatus main body 4, and the means for transmitting electric power from the apparatus main body 4 to the atomizing means 3 is constituted by a non-contact power transmission means 15. Is preferred. With such a configuration, the atomizing means 3 can be removed from the apparatus main body 4 for cleaning and maintenance.

[0022]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below based on embodiments shown in the accompanying drawings.

FIGS. 1 and 2 show an embodiment of the present invention. A sterilizing liquid reservoir 2 and an atomizing means 3 are provided in a main body case forming an outer shell of the apparatus main body 4, and a communication section is provided between the sterilizing liquid reservoir 2 and an atomizing tank 16 in which the atomizing means 3 is located. It is communicated by 7. A control unit 17 for controlling the atomizing means 3 and the electrolytic cell 1 described below is provided in the apparatus main body 4.

The electrolytic tank 1A having the electrolytic tank 1 can be detachably attached to the apparatus main body 4. A valve cover 18 is provided on the lower surface of the electrolytic tank 1A. The valve cover 18 is set in the supply hole 19 provided on the upper surface of the sterilizing solution reservoir 2 of the device main body 4 in a state where the valve cover 18 is placed on the upper surface side of the device main body 4. A germicidal solution to be described later, which is an electrolysis product in the electrolytic cell 1 provided in the tank 1A, is supplied to the germicidal solution reservoir 2.

An insoluble electrode 20 serving as an anode and a cathode is provided inside the electrolytic cell 1 provided in the electrolytic tank 1A. The electrode 20 is connected to a power supply unit of a control unit 17 provided in the apparatus main body 4 by a wiring. Electric power is supplied via the power supply 21, and the current flowing between the electrodes 20 is controlled by the control unit 17. Further, a stirring means 22 for stirring the liquid in the electrolysis tank 1 to make the concentration uniform is provided in the electrolysis tank 1, and the stirring means 22 is connected to the power supply unit of the control unit 17 via a wiring 23. Power is supplied. The wires 21 and 23 can be connected and separated at connection portions 21a and 23a, respectively.
The electrolytic cell 1 is detached from the apparatus main body 4 so that a liquid to be treated can be put into the electrolytic cell 1, or the electrolytic cell 1 can be separated when cleaning or maintenance is performed.

In this embodiment, as shown in FIGS. 1 and 2, the electrolytic tank 1A has a partition plate 2 having a hole 27 therein.
The lower chamber 26 constitutes the electrolytic cell 1 and has the electrode 20 and the stirring means 22.
Is installed in the lower chamber 26 to perform electrolysis to produce a sterilizing solution, which is an electrolysis solution, in the upper chamber 25.
Contains the liquid to be treated before electrolysis. And lower room 26
When the germicidal solution is supplied to the germicidal solution reservoir 2 of the apparatus main body 4 via the valve cover 18 from the, the liquid to be treated in the upper chamber 25 is supplied to the lower chamber 26 through a hole 27 provided in the partition plate 24. It has become. Thus, the inside of the electrolytic tank 1A is partitioned by the partition plate 24.
It takes time to perform electrolysis in the entire case constituting the outer shell of the electrolysis tank 1A by partitioning, but it takes time to perform the electrolysis by partitioning with the partition plate 24 and forming the electrolyzer 1 in a part of it. This is because the electrolysis can be performed in a short time, and the sterilizing solution can be generated in a short time. Further, by stirring the liquid in the electrolytic cell 1 by the stirring means 22, the electrolysis can be performed uniformly and efficiently. Of course, the entire portion serving as an internal tank may be used as the electrolytic tank 1 without partitioning the inside of the electrolytic tank 1A.

In the present invention, the electrolytic tank 1A is detachably set on the apparatus main body 4 to constitute the apparatus. However, power is supplied to the apparatus main body 4 by providing a power storage means in the apparatus main body or by providing a power cord. To supply commercial power to the apparatus main body 4. The liquid to be treated can be supplied to the electrolytic tank 1A in a state where it is detached from the apparatus main body 4. The supply place is a place remote from the apparatus main body 4 (for example, the electrolytic tank 1A such as a washroom or a bathroom is supplied). When the processing liquid is supplied, the processing liquid can be spilled in a place where there is no problem. As described above, in the present embodiment, it is not necessary to connect the water supply pipe connected to the water pipe to the electrolytic tank 1A and the apparatus main body 4 as in the related art.
The apparatus can be carried and used in any room regardless of the presence or absence of a water pipe, and can be installed and used at any position in the room.

In a state where the electrolytic tank 1A is detachably set on the apparatus main body 4 as shown in FIG. 1, a sterilizing solution for sterilizing or decomposing odor, bacteria and mold components is supplied to the electrolytic tank 1 of the electrolytic tank 1A. The germicidal solution generated by the electrolysis and generated in the electrolytic cell 1 is supplied to and stored in the germicidal solution reservoir 2, and the germicidal solution stored in the germicidal solution reservoir 2 is supplied to the atomizing tank 1 through the communication unit 7.
6 and turning on the atomizing means 3, the atomizing tank 1
The germicidal liquid supplied into 6 is atomized and supplied to the room as mist. In the present embodiment, the electrolytic tank 1
Since the germicidal solution generated in the electrolytic cell 1 of A is stored in the germicidal liquid reservoir 2, even when the operation of the electrolytic cell 1 is initially started or when the operation of the electrolytic cell 1 is stopped, the germicidal liquid reservoir 2 is kept. The sterilizing liquid stored in the tank can be supplied to the nebulizing means 3 in a required amount to be atomized and sprayed in the required amount, and the liquid to be treated can be supplied to the electrolytic tank 1A or the electrolytic tank 1A can be cleaned. For this purpose, the sterilizing liquid stored in the sterilizing liquid storage section 2 can be supplied to the nebulizing means 3 only in a required amount and atomized by a required amount even when the device is removed from the apparatus main body 4.

In the present invention, the sterilizing solution produced in the electrolytic cell 1 is aqueous hypochlorous acid or sodium hypochlorite having a pH of 7.5 or more. For this reason, a saline solution is used as a liquid to be treated for generating the above-mentioned aqueous hypochlorous acid or sodium hypochlorite by electrolysis. Here, for example, 300
When a salt solution obtained by dissolving 0 ppm salt in 1 liter of tap water is subjected to non-diaphragm electrolysis in the electrolytic cell 1 under the conditions of 10 V and 2.6 A, sodium hypochlorite and hypochlorous acid having a total residual chlorine of 110 ppm are generated. Is what you do. In this case, the reaction formula for producing sodium hypochlorite and hypochlorous acid by electrolyzing the saline solution is as follows.

[0030] ^{NaCl⇔Na + + Cl - Cl - ⇔1} / 2Cl 2 + e - 1 / 2Cl 2 + H 2 O⇔HClO + H + + e - HClO⇔H + + ClO - HClO + NaOH⇔NaCl + H 2 O NaClO⇔Na + + ClO - The above In the formula, ⇔ indicates a reversible reaction.

Then, when the salt is electrolyzed, the pH becomes 7.5 or more. Therefore, it is not necessary to adjust the pH in this embodiment. Also, sodium hypochlorite, p of hypochlorous acid
Since H is 7.5 or more, continuous operation is possible in the indoor space of ordinary households without worrying about generation of chlorine gas.

Next, another embodiment of the present invention will be described with reference to FIG. An electrolytic cell 1 for generating, by electrolysis, a germicidal solution for sterilizing or decomposing components of odor, bacteria, and mold in a main body case constituting an outer shell of the apparatus main body 4, and atomizing the generated germicidal solution. Atomizing means 3 is provided. Here, in FIG. 3, a water tank 30 is provided in the main body case, and the water tank 30 is partitioned into the main body side storage tank 6 and the electrolytic tank 1 by a partition 31 having a hole 32. The communication unit 7 communicates with the atomizing tank 16 where the atomizing means 3 is located. A control unit 17 for controlling the atomizing means 3 and the electrolytic cell 1 is further provided in the apparatus main body 4.

The electrolytic cell 1 is provided therein with an insoluble electrode 20 serving as an anode and a cathode, and a controller 17 controls the current flowing between the electrodes 20. Further, a stirring means 22 for stirring the liquid in the electrolytic cell 1 is provided in the electrolytic cell 1, and is controlled by the control unit 17.

A liquid storage tank 2A for supplying a liquid to be supplied to the electrolytic cell 1 can be detachably attached to the apparatus main body 4. The liquid storage tank 2A is mounted on the lower surface of the liquid storage tank 2A. Is a supply hole provided in the upper surface portion of the main body side storage tank portion 6 of the device main body 4 in a state where the liquid storage tank 2A to be processed is placed on the upper surface side of the device main body 4. 19, the valve cover 18 is opened in this state, and the liquid to be treated such as the saline solution in the liquid to be treated storage tank 2A is supplied to the main body side reservoir tank 6.

In the present embodiment, the liquid storage tank 2A is detachably set in the apparatus main body 4 to constitute the apparatus. However, power is supplied to the apparatus main body 4 by using a power storage means in the apparatus main body 4. It is provided or a commercial power is supplied to the apparatus main body 4 by a power cord. The liquid to be processed is supplied to the liquid storage tank 2A in a state where the liquid is removed from the apparatus main body 4. The supply place is a place remote from the apparatus main body 4 (for example, an electrolytic cell such as a washroom, a bathroom, etc.). 1 can be performed in a place where there is no problem even if the processing liquid is spilled when supplying the liquid to be processed. As described above, in the present embodiment, the processing target liquid storage tank 2A
It is not necessary to connect a water supply pipe connected to a water pipe to the apparatus main body 4 as in the related art, so that the apparatus can be carried and used in any room regardless of the presence or absence of a water pipe, and at any position in the room. It can be installed and used in

With the liquid storage tank 2A being detachably mounted on the apparatus main body 4 as shown in FIG. 3, the sterilizing solution for sterilizing or decomposing odor, germ and mold components in the electrolytic cell 1 is electrically discharged. The sterilizing liquid generated by the decomposition is supplied to the atomizing tank 16 through the communication part 7 and the atomizing means 3 is turned on, so that the sterilizing liquid supplied into the atomizing tank 16 is atomized as mist. It is supplied indoors. When the liquid in the electrolytic cell 1 decreases, the liquid to be treated is supplied to the electrolytic cell 1 from the main body-side reservoir section 6 through the hole 32 provided in the partition 31. The treatment liquid is electrolyzed to generate a sterilizing liquid as an electrolysis product liquid, and the liquid to be treated is automatically supplied from the main body side storage tank section 6 when the liquid in the electrolytic tank 1 is reduced. An appropriate amount of sterilizing liquid can be generated quickly, and continuous generation can be performed so that the supply of the sterilizing liquid to the atomizing means 3 is not interrupted. The to-be-processed liquid is supplied to the main body-side storage tank portion 6 from a to-be-processed liquid storage tank 2A which is detachably attached to the apparatus main body 4.

In this embodiment, since the liquid storage tank 2A is detachable from the apparatus main body 4,
When the liquid to be treated is replenished to the liquid tank to be treated 2A, the liquid to be treated is removed from the apparatus main body 4 so that the liquid to be treated can be poured into the liquid to be treated tank 2A at another place. Yes, and the to-be-processed liquid storage tank 2A
Even in a state in which the liquid is removed, the liquid to be treated can be electrolyzed in the electrolytic cell 1 and the sterilizing solution can be atomized by the atomizing means 3, so that there is no need to stop the apparatus itself. Further, as shown in FIG. 3, since the main body side storage tank portion 6 for storing the liquid to be processed is provided in the apparatus main body 4, even if the liquid storage tank 2A is detached, a certain amount of electrolysis is performed from the liquid storage tank 2A. The liquid to be treated can be supplied to the tank 1 and can be operated continuously for a certain period of time.

In the embodiment shown in FIG. 3, the sterilizing solution produced in the electrolytic cell 1 has a pH of 7.5 as in the above embodiment.
The above-described aqueous hypochlorous acid or sodium hypochlorite is used.

Next, still another embodiment of the present invention will be described with reference to FIGS. In the present embodiment,
An electrolytic cell 1 for generating, by electrolysis, a germicidal solution for disinfecting or decomposing components of odor, bacteria, and mold in a main body case constituting an outer shell of the apparatus main body 4, and a mist for atomizing the generated germicidal solution. Means 3 are provided. Here, in this embodiment, as shown in FIG. 4, the main body side storage tank part 6 and the main body side storage tank part 6 and the atomization tank 16 where the atomization means 3 are located are communicated by the communication part 7 in the main body case. The communication part 7 has an electrolytic cell 1
Is provided. That is, an insoluble electrode 20 serving as an anode and a cathode is provided inside the communication part 7, and the electrolytic cell 1 is constituted by the communication part 7 in which the electrode 20 is provided. A stirring unit 22 is further provided in the communication unit 7, and the control of the current flowing between the electrodes 20 and the stirring unit 22 is controlled by the control unit 17 provided in the main body case. In order to provide the cathode 20 and the anode 20 in the communicating portion 7, for example, as shown in FIG. FIG. 5B shows an example in which the communication portion 7 is square and the electrode 20 is a flat plate. However, as shown in FIG. 5C, the communication portion 7 has a circular cross section and the electrode 20 has an arc cross section. Is also good.

A liquid storage tank 2A for supplying the liquid to be supplied to the electrolytic cell 1 can be detachably attached to the apparatus main body 4. A liquid storage tank 2A is provided on the lower surface of the liquid storage tank 2A. Is a supply hole provided in the upper surface portion of the main body side storage tank portion 6 of the device main body 4 in a state where the liquid storage tank 2A to be processed is placed on the upper surface side of the device main body 4. 19, the valve cover 18 is opened in this state, and the liquid to be treated such as the saline solution in the liquid to be treated storage tank 2A is supplied to the main body side reservoir tank 6.

In the present embodiment, the liquid storage tank 2A is detachably set in the apparatus main body 4 to constitute the apparatus. However, power is supplied to the apparatus main body 4 by providing a power storage means in the apparatus main body. Or, a commercial power supply is supplied to the apparatus main body 4 by a power cord. The liquid to be processed is supplied to the liquid storage tank 2A in a state where the liquid is removed from the apparatus main body 4. The supply place is a place remote from the apparatus main body 4 (for example, an electrolytic cell such as a washroom, a bathroom, etc.). 1 can be performed in a place where there is no problem even if the processing liquid is spilled when supplying the liquid to be processed. As described above, in the present embodiment, the processing target liquid storage tank 2A
It is not necessary to connect a water supply pipe connected to a water pipe to the apparatus main body 4 as in the related art, so that the apparatus can be carried and used in any room regardless of the presence or absence of a water pipe, and at any position in the room. It can be installed and used in

As shown in FIG. 4, in the state where the liquid storage tank 2A to be treated is set in the apparatus main body 4 in a detachable manner, the odor, bacteria and mold components are sterilized or removed in the electrolytic cell 1 formed in the communication section 7. A sterilizing liquid to be decomposed is generated by electrolysis, and the sterilizing liquid is directly supplied to the atomizing tank 16 and the atomizing means 3 is turned on, so that the sterilizing liquid supplied into the atomizing tank 16 is atomized. It is supplied indoors. The liquid to be treated is supplied to the electrolytic cell 1 formed in the communication section 7 from the reservoir tank section 6 on the main body side. Then, a sterilizing solution, which is an electrolysis solution, is generated, and the liquid to be treated is automatically supplied to the electrolytic cell 1 from the main body-side storage tank portion 6. It can be generated, and can be continuously generated so that the supply of the sterilizing liquid to the atomizing means 3 is not interrupted. The to-be-processed liquid is supplied to the main body-side storage tank portion 6 from a to-be-processed liquid storage tank 2A which is detachably attached to the apparatus main body 4.

In this embodiment, since the to-be-processed liquid storage tank 2A is detachable from the apparatus main body 4,
When the liquid to be treated is replenished to the liquid tank to be treated 2A, the liquid to be treated is removed from the apparatus main body 4 so that the liquid to be treated can be poured into the liquid to be treated tank 2A at another place. Yes, and the to-be-processed liquid storage tank 2A
Even in a state in which the liquid is removed, the liquid to be treated can be electrolyzed in the electrolytic cell 1 and the sterilizing solution can be atomized by the atomizing means 3, so that there is no need to stop the apparatus itself. Further, as shown in FIG. 4, since the main body side storage tank section 6 for storing the liquid to be processed is provided in the apparatus main body 4, even if the liquid storage tank 2A is detached, the communication section 7 from the liquid storage tank 2A is removed. The liquid to be treated can be supplied to the electrolytic cell 1 configured as described above, and can be operated continuously for a certain period of time.

In the embodiment shown in FIGS. 4 and 5, the sterilizing solution produced in the electrolytic cell 1 has the same pH as in the previous embodiment.
7.5 or more hypochlorous acid water or sodium hypochlorite.

In the present invention, an ultrasonic vibration generating means is employed as the atomizing means 3 so as to atomize by ultrasonic waves. When atomized by ultrasonic waves, it is possible to atomize the disinfectant liquid into finer particles (that is, atomized), which is much finer than a conventional disinfectant sprayed by a spray method. It can deodorize, sterilize, sterilize, and mold-proof curtains, fine fibers with clothing, and tile joints. In addition, it is possible to clean the room evenly by always driving, and to clean places that are not usually visible. Further, since the atomization action by the ultrasonic wave can be driven with a small amount of electric power, the power consumption can be reduced.

The ultrasonic vibration transmitting means comprises an ultrasonic vibrator 8 and a horn 9. In the embodiment shown in FIG. 6, a piezoelectric vibrator is used for the ultrasonic vibrator 8, and a flat horn is used for the horn 9. Used.

By the way, when the sterilizing solution generated by the electrolysis is atomized by the atomizing means 3 and supplied to the room in the form of a mist, the sterilizing liquid atomized by the atomizing means 3 is supplied to the apparatus body 4 as shown in FIG. A blowing means 10 for spraying the liquid may be provided. The blower 10 is provided on the side of the blow-out tube 33 provided above the atomization tank 16, and includes the fan 34, the intake 11 communicating with the outside air, and the blow-out opening 29 communicating with the blow-out tube 33. Then, the mist of the sterilizing liquid atomized by the atomizing means 3 is sprayed over a wide range by the blowing means 10.

In FIG. 7 and FIGS. 8 to 13, which will be described later, the electrolytic tank 1A having the detachable electrolytic tank 1 shown in FIG. 1 or the detachable liquid storage tank shown in FIGS. The tank 2A is described as a detachable tank A, and its specific configuration is omitted in the drawing. 7 and FIGS. 8 to 13 described below, the electrode 20 and the stirring means 22 are omitted from the drawing. In the embodiments shown in FIGS. 14 to 17, which will be described later, an example of the electrolytic tank 1A is described as the detachable tank A. However, in FIGS. 14 to 17, the detachable tank A is the liquid storage tank 2A to be treated. In this case, FIG.
As shown in FIG. 4 and FIG. 4, an electrolytic cell 1 is provided on the apparatus main body 1 side.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, the blowing means 1
A filter 12 is provided in the intake port 11 of the “0”. By providing the filter 12 at the intake port 11 of the blowing means 10 as described above, the sterilizing liquid atomized by the atomizing means 3 can be blown by the blowing means 1.
The filter 12 can remove fine dust and debris in the space by the filter 12 at the same time as dispersing widely in the room to sterilize, deodorize, remove bacteria, and prevent mold. That is, indoor dust can be removed at the same time as indoor sterilization, deodorization, bacteria elimination, and mold prevention.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, an example in which a timer 5 for adjusting the deodorizing, disinfecting, disinfecting, and fungicidal ability by turning on / off the device (turning on / off the power of the device) or spraying the sterilizing solution by atomization is provided. It is. That is, the control unit 17
Is provided with a timer 5, for example, during the time period set by the timer 5, control is performed so as to stop the operation of the apparatus or to reduce the deodorizing, sterilizing, germicidal, and antifungal ability by atomizing spray of the sterilizing liquid. It is controlled by the unit 17. Here, the setting of the time by the timer 5 is set so that the user can arbitrarily set the time, so that the usage mode according to the user can be selected. In order to reduce the deodorizing, disinfecting, sterilizing, and mold-proofing ability by spraying the sterilizing solution, the spraying amount of the spray by the atomizing means 3 is reduced, or the amount of current flowing between the electrodes 20 is adjusted. This can be realized by lowering the concentration of the sterilizing solution generated by the electrolysis.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, a detection unit 13 for detecting a human body or an animal is provided in the apparatus main body 4. The control unit 17 adjusts the deodorizing, sterilizing, germ-free, and mold-proofing ability by turning on / off the device or spraying / disinfecting a sterilizing solution depending on whether or not the detecting means 13 detects a human body or an animal. I have. For example, when the detection means 13 does not detect a person or an animal, the control unit 17 stops the driving of the apparatus or reduces the deodorizing, sterilizing, germicidal and antifungal ability by atomizing spraying of a sterilizing liquid. To control.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, the device main body 4 is provided with a sensor 14 for detecting odor, bacteria, and mold. An example of the sensor 14 is an odor sensor. In other words, the odor in the room is detected by the odor sensor. However, when bacteria and mold propagate, the odor is also generated. Therefore, the odor can be detected by the odor sensor and the proliferation of bacteria and mold can be detected. Of course, it may be detected by a sensor other than the odor sensor. When the odor, bacteria and mold components are detected by the sensor 14, the control of the deodorization, sterilization, bacteriostatic and antifungal ability by turning on / off the device or spraying the sterilizing solution is controlled based on the sensor 14 information. This is performed by the unit 17. For example, smell, fungus, mold
If the detection is more intense, the control unit 17 controls the apparatus to drive the apparatus or to increase the deodorizing, sterilizing, bacteriostatic, and antifungal ability by atomizing spraying of the sterilizing liquid.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, the sensor 14 for detecting odor, bacteria, and mold is provided as described above, and the atomizing means 3 is constituted by the ultrasonic vibrator 8 and the horn 9. The section 17 is provided with an input power variable device 35 for changing the input power to the ultrasonic transducer 8 for changing the power of the ultrasonic wave. The power of the ultrasonic wave is changed by controlling the input power variable device 35 based on the detection information of the odor, bacteria, and mold strength detected by the sensor 14, and the amount of the sterilizing liquid atomized by the atomizing means 3 is automatically or manually adjusted. It is designed to control the deodorizing, sterilizing, germicidal and antifungal abilities. This makes it possible to automatically or arbitrarily control the amount of the sterilizing liquid to be atomized by the atomizing means 3, and to change the deodorizing, sterilizing, disinfecting, and antifungal ability depending on the intensity of the odor, bacteria, and mold. It is.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, the sensor 14 for detecting odor, bacteria, and mold is provided as described above, and the atomizing means 3 is constituted by the ultrasonic vibrator 8 and the horn 9. The section 17 is provided with a frequency variable device 36 for varying the frequency of the ultrasonic wave. Then, the frequency of the ultrasonic wave is changed by controlling the frequency variable device 36 based on the detection information of the odor, bacteria and mold strength detected by the sensor 14, and the particle size of water for atomizing the sterilizing solution is automatically or manually controlled to deodorize.・ Sterilization, germ reduction, and antifungal ability are adjusted. As a result, the amount of the sterilizing liquid atomized by the atomizing means 3 can be automatically or manually controlled arbitrarily.
The ability of deodorization, sterilization, disinfection and fungicide can be changed depending on the strength of fungi and mold.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, the sensor 14 for detecting odor, bacteria, and mold is provided as described above, and an electrode input power variable device for varying the power supplied between the electrodes 20 provided in the electrolytic cell 1. 37 are provided. Then, the electrode input power variable device 37 is controlled based on the detection information of the odor, bacterium, and mold strength by the sensor 14 to automatically or manually change the input power to the electrode 20, change the concentration of the sterilizing solution, and atomize. The concentration of the sterilizing solution to be sprayed in the space can be automatically or arbitrarily controlled, and the ability of deodorization, sterilization, sterilization, and fungicide can be changed depending on the intensity of odor, bacteria, and mold.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, as described above, the sensor 14 for detecting odor, bacteria, and mold is provided, and the liquid flow controller 38 for changing the supply amount of the sterilizing solution to the atomizing means 3 based on the sensor 14 information. Is provided. In the embodiment shown in FIG. 15, the communication section 7 is provided with a liquid flow rate regulator 38. The supply of the sterilizing liquid to the atomizing means 3 is changed by automatically or manually adjusting the liquid flow rate regulator 38 based on the detection information of the odor, bacteria, and mold strength detected by the sensor 14, thereby atomizing the space. The amount of germicidal solution to be sprayed can be controlled automatically or arbitrarily, and the ability of deodorization, sterilization, sterilization, and fungicide can be changed depending on the strength of odor, fungus, and mold.

Next, still another embodiment of the present invention will be described with reference to FIG. In the present embodiment, the atomizing means 3 for atomizing by ultrasonic waves is detachable from the apparatus main body 4, and means for transmitting electric power to the atomizing means 3 which is detachable from the apparatus main body 4 as described above is not provided. It is constituted by contact power transmission means 15. That is, the device body 4
The detachable mounting part 42 is provided in the, the detachable housing 39 is detachable in the detachable mounting part 42, and the ultrasonic vibrator 8 and the horn 9 and a secondary core 41 around which a secondary coil 40 is wound. The atomization tank 16 is provided above the atomizing means housing section 46 below the detachable housing 39.
The upper part is a blowing cylinder 33. On the other hand, a primary core 44 wound with a primary coil 43 is provided on the bottom lower surface of the attaching / detaching portion 42. The primary core 44 and the secondary core 41 are magnetically coupled to each other in a state where the detachable housing 39 provided with the atomizing means 3 is fitted and attached to the attaching / detaching mounting part 42 to transmit electric power to the atomizing means 3. The contactless power transmission means 15 is configured.

Thus, in this embodiment, the detachable housing 39 provided with the atomizing means 3 is detached from the apparatus main body 1 to facilitate maintenance such as cleaning and inspection of the detachable housing 39 provided with the atomizing means 3. You can do it.

Here, as in the embodiment shown in FIG.
In addition to the atomizing means 3 composed of the ultrasonic vibrator 8 and the horn 9 and the secondary side core 41 wound with the secondary side coil 40, the atomizing means accommodating portion 46 below the detachable housing 39 is provided, Ultrasonic drive circuit 45 for driving and controlling the ultrasonic vibrator 8
May be provided. In this embodiment, the atomizing means 3
By detaching the detachable housing 39 provided with the above from the apparatus main body 1, maintenance such as cleaning and inspection of the detachable housing 39 provided with the atomizing means 3 and the ultrasonic drive circuit 45 can be easily performed.

[0060]

As described above, according to the first aspect of the present invention, there is provided an electrolytic cell for generating a sterilizing solution for sterilizing or decomposing components of odor, fungi and mold by electrolysis,
A germicidal solution reservoir for storing the germicidal solution generated in the electrolytic cell, and atomizing means for atomizing the germicidal solution supplied from the germicidal solution reservoir, the germicidal solution reservoir and the atomizing means are provided in the apparatus body. Prepared,
Since the electrolytic tank provided with the electrolytic tank is detachable from the main body of the apparatus, a sterilizing liquid, which is an electrolysis product solution electrolyzed in the electrolytic tank provided in the electrolytic tank, is stored in a sterilizing liquid storage section of the main body of the apparatus. The germicidal solution stored in the reservoir can be atomized and sprayed by means of atomizing means, and the germicidal solution can be atomized and sprayed at a desired location in the room, effectively disinfecting odors, bacteria, and mold components. It can be disassembled, and since the sterilizing solution generated in the electrolytic tank provided in the electrolytic tank is stored in the sterilizing solution reservoir, the initial operation of the electrolytic tank or when the operation of the electrolytic tank is stopped However, the required amount of the sterilizing solution stored in the sterilizing solution reservoir can be supplied to the nebulizing means to atomize and spray the required amount. Supply, cleaning and inspection In addition, even when the electrolytic tank is removed, the sterilizing solution stored in the sterilizing solution reservoir can be supplied to the nebulizing means in a required amount and atomized by a required amount to be sprayed. Since the liquid to be treated can be supplied by removing it from the device main body, there is no need to directly connect a pipe for supplying tap water as in the conventional case. The germicidal solution can be sprayed at the location (3) to effectively disinfect or decompose odor, fungus, and mold components.

According to the second aspect of the present invention, there is provided an electrolytic cell for electrolyzing a sterilizing solution for sterilizing or decomposing components of odors, bacteria and molds in the apparatus main body; Atomizing means for atomizing the liquid; and a liquid storage tank for supplying the liquid to be supplied to the electrolytic tank is detachable from the apparatus main body. The treatment liquid is electrolyzed in an electrolytic tank provided in the apparatus main body to generate a sterilization liquid as an electrolysis product liquid, and the sterilization liquid is atomized and sprayed by atomizing means to spray the sterilization liquid at a target location in the room. By atomizing and spraying, it is possible to effectively sterilize or decompose odor, bacteria and mold components.Moreover, since the liquid storage tank is removable, When replenishing the liquid to be treated, The tank to be treated can be removed and the liquid to be treated can be put in the tank to be treated at another place, and the liquid to be treated is still in the electrolytic cell even when the tank to be treated is removed. In this case, the sterilization liquid can be atomized by the atomizing means by performing the electrolytic operation in the electrolytic cell, and there is no need to stop the apparatus itself. Also, since the liquid to be treated can be supplied by removing the liquid tank to be treated, It is not necessary to directly connect a pipe for supplying tap water as in the conventional case, and therefore, the apparatus main body can be made non-water supply type, so that it is easy to carry, and the germicidal solution can be sprayed at any place and effective. It can sterilize or decompose odor, fungus and mold components.

According to the third aspect of the present invention, in addition to the effects of the first or second aspect of the present invention, the sterilizing solution produced in the electrolytic cell has a hypochlorite having a pH of 7.5 or more. Since it is acid water or sodium hypochlorite, the indoor odor, bacteria, and mold components can be effectively sterilized or sterilized by the hypochlorite water or sodium hypochlorite having a pH of 7.5 or more generated in the electrolytic cell. It can be broken down.

According to the fourth aspect of the present invention, in addition to the effects of the second aspect, the main body for storing the liquid to be processed supplied from the liquid storage tank in the apparatus main body. A side reservoir tank portion, a communication portion for communicating the main body side reservoir tank portion and the atomizing means are provided, and an electrolytic tank is provided in the communication portion, so that the liquid to be processed supplied from the liquid tank to be processed is supplied. On the device main body side, it is further stored in the main body side storage tank part, and electrolysis is performed in the electrolytic tank provided in the communication part, so that only a small amount of the liquid to be treated once stored in the main body side storage tank part is necessary for atomization. When supplied to the atomization means side through, a small amount of the liquid to be treated necessary for this atomization can be effectively electrolyzed in an electrolytic tank provided in the communication portion to generate a sterilizing solution, As a result, compared to the case of electrolysis in a large capacity electrolytic cell, Can solutions, those fast rising operation.

According to a fifth aspect of the present invention, in addition to the effects of the first to fourth aspects, the atomizing means comprises an ultrasonic vibrator and a horn. It is capable of effectively sterilizing, deodorizing, disinfecting, and preventing mold from cracks in walls, curtains, fine fibers of clothes, joints of tiles, etc. by atomizing the sterilizing liquid into fine particles by ultrasonic vibration. .

According to the sixth aspect of the present invention, in addition to the effect of the fifth aspect of the present invention, since the ultrasonic vibrator is a piezoelectric vibrator, an ultrasonic wave is generated with a simple configuration. Is what you can do.

According to the seventh aspect of the present invention, in addition to the effect of the fifth aspect, since the horn is a flat horn, ultrasonic waves can be generated with a simple configuration. Things.

According to an eighth aspect of the present invention, in addition to the effects of any one of the first to seventh aspects, a sterilizing solution atomized by the atomizing means in the apparatus body. A blow means for dispersing water is provided, so that the atomized sterilizing liquid can be sprayed over a wide space by the blow means to effectively sterilize, deodorize, remove bacteria, and prevent mold. It is.

According to the ninth aspect of the present invention, in addition to the effects of the eighth aspect, a filter is provided at the air inlet of the blowing means, so that the atomized sterilizing liquid is sprayed in the room. It can remove fine dust and dirt in the space at the same time as sterilization, deodorization, sterilization, and mold prevention.

In the invention according to claim 10,
In addition to the effects of the invention according to any one of claims 1 to 9, in order to adjust the deodorizing, disinfecting, disinfecting, and fungicidal ability by turning on and off the device or spraying the disinfecting solution by atomization. Since a timer is provided, driving of the apparatus can be stopped or its ability can be weakened during a time period of low use, so that power consumption can be reduced.

In the invention according to claim 11,
In addition to the effects of the invention according to any one of claims 1 to 10, a detection unit for detecting a human body or an animal is provided, and the detection of the human body or the animal by the detection unit may cause the device to enter or exit. Deodorization by cutting or disinfecting spray of sterilizing liquid
Since the sterilization, bacteriostatic and antifungal abilities are adjusted, the operation of the device can be stopped or the capability can be reduced when no human or animal is detected. Effective deodorization, sterilization,
It can control bacteria and mold.

According to the twelfth aspect of the present invention,
In addition to the effects of the invention according to any one of claims 1 to 10, a sensor for detecting odor, fungus, and mold is provided, and the sensor information is used for turning on / off the device or spraying a sterilizing solution by atomization. Adjusts deodorizing / sterilizing / bacteriostatic / mildew-proof capabilities, so the device can be driven or its capability increased only when it is detected by sensors that detect odor, bacteria, and mold, reducing power consumption. It can effectively deodorize, sterilize, control bacteria, and prevent mold in the room.

Further, in the invention according to claim 13,
In addition to the effects of the invention according to any one of claims 1 to 12, the atomizing means is constituted by an ultrasonic vibrator and a horn, and a sensor for detecting odor, bacteria, and mold is provided, and this sensor is provided. Deodorization / sterilization by changing ultrasonic power based on information
Since the bacteriostatic and antifungal abilities are adjusted, the power of the ultrasonic wave can be changed according to the strength of the odor, germs and fungi to adjust the deodorizing, disinfecting, antibacterial and antifungal abilities, thereby reducing power consumption. It can effectively deodorize, sterilize, control bacteria, and prevent mold in the room.

Further, in the invention according to claim 14,
In addition to the effects of the invention according to any one of claims 1 to 12, the atomizing means is constituted by an ultrasonic vibrator and a horn, and a sensor for detecting odor, bacteria, and mold is provided, and this sensor is provided. By changing the frequency of the ultrasonic wave according to the information and changing the particle size of the atomization to adjust the deodorizing, sterilizing, bacteriostatic and fungicide ability, change the ultrasonic frequency according to the strength of the odor, bacteria and mold It can adjust deodorizing, sterilizing, germicidal, and antifungal abilities, reduce power consumption and effectively deodorize, sterilize,
It can control bacteria and mold.

Further, in the invention according to claim 15,
In addition to the effects of the invention according to any one of claims 1 to 14, a sensor for detecting odor, bacteria, and mold is provided, and the concentration of the sterilizing solution in the electrolytic cell is changed based on the sensor information to remove the odor. Since the sterilizing, bacteriostatic and antifungal abilities are adjusted, the deodorizing, germicidal, germicidal and antifungal abilities can be adjusted by changing the concentration of the germicidal solution depending on the strength of the odor, germs and fungi. It can effectively deodorize, sterilize, control bacteria, and prevent mold in the room by reducing the amount of odor.

In the invention according to claim 16,
In addition to the effects of the invention according to any one of claims 1 to 15, a sensor for detecting odor, bacteria, and mold is provided, and the supply amount of the sterilizing solution to the atomizing means is changed based on the sensor information. Adjust the deodorizing, sterilizing, germ-free, and anti-fungal ability by changing the amount of germicidal solution sprayed and sprayed into the space according to the strength of the odor, germ, and fungus to deodorize, sterilize, germ-free and anti-fungal ability The power consumption can be reduced, and the interior can be effectively deodorized, sterilized, germ-free, and mold-proof.

In the invention according to claim 17,
In addition to the effects of the invention according to any one of claims 5 to 7, the atomizing means for atomizing by ultrasonic waves is detachable from the apparatus main body, and the means for transmitting electric power from the apparatus main body to the atomizing means is provided. Since it is composed of non-contact power transmission means,
The atomization means can be removed from the device body for cleaning and maintenance, and even though the atomization means can be detached, the contactless power transmission means ensures that the atomization means will not leak when installed on the device body. Can be supplied with power.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view of an embodiment of the apparatus of the present invention.

FIG. 2 is a schematic sectional view of the electrolytic tank according to the first embodiment.

FIG. 3 is a schematic sectional view of another embodiment of the above device.

FIG. 4 is a schematic sectional view of still another embodiment of the above device.

FIG. 5 (a) is a schematic front sectional view of an electrolytic cell provided in the communication part of the above, and FIG. 5 (b) is an example in which the communication part of the above has a rectangular cross section and a flat electrode is provided. (C) is a schematic side sectional view showing an example in which the communicating portion has a circular section and an electrode having an arc section is provided.

FIG. 6 is a schematic sectional view showing an example of the atomizing means according to the first embodiment.

FIG. 7 is a schematic sectional view of still another embodiment of the above device.

FIG. 8 is a schematic sectional view of still another embodiment of the above device.

FIG. 9 is a schematic sectional view of still another embodiment of the above device.

FIG. 10 is a schematic sectional view of still another embodiment of the above device.

FIG. 11 is a schematic sectional view of still another embodiment of the above device.

FIG. 12 is a schematic sectional view of still another embodiment of the above device.

FIG. 13 is a schematic cross-sectional view of still another embodiment of the above device.

FIG. 14 is a schematic sectional view of still another embodiment of the above device.

FIG. 15 is a schematic sectional view of still another embodiment of the above device.

FIG. 16A is a schematic sectional view of still another embodiment of the above device, and FIG. 16B is a schematic sectional view of a state in which a detachable housing is removed.

FIG. 17 (a) is a schematic sectional view of still another embodiment of the above device, and FIG. 17 (b) is a schematic sectional view of a state where a detachable housing is removed.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1A electrolytic tank 2A liquid storage tank to be treated 1 electrolytic tank 2 sterilizing liquid storage section 3 atomizing means 4 apparatus main body 5 timer 6 main body side storage tank section 7 communication section 8 ultrasonic vibrator 9 horn 10 blowing means 11 suction port 12 filter 13 detecting means 15 non-contact power transmission means

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C02F 1/46 C02F 1/46 Z // A61L 2/02 A61L 2/02 Z (72) Inventor Toshihara Yasuhiro 1048 Kadoma, Kazuma, Kazuma, Osaka Pref. (72) Inventor Kozo Kawai 1048 Kadoma, Kazuma, Kadoma, Osaka Pref. Inside Matsushita Electric Works Co., Ltd. (72) Inventor Hideaki Abe 1048 Kadoma Kadoma, Kadoma City, Osaka Prefecture Inside (72) Inventor Teruyuki Omochi 1048 Okadoma Kadoma, Kadoma City, Osaka Pref. Matsushita Electric Works Co., Ltd. (72) Inventor Yoshihiko Ujiie 1048 Kadoma, Kazuma, Osaka Prefecture F-term in Matsushita Electric Works, Ltd. (reference) 4C058 AA02 AA23 BB07 CC08 DD01 DD03 DD07 DD12 EE26 JJ07 JJ24 4C080 AA03 BB02 BB05 BB08 CC01 HH02 JJ01 KK03 KK06 LL09 MM09 NN01 QQ16 4D061 DA03 DB10 EA02 EB01 EB19 EB39 ED13 ED20 GC12 4D074 AA10 BB03 DD03 DD17 DD22 DD48 DD61

Claims (17)

[Claims] An electrolytic cell for producing a sterilizing solution for sterilizing or decomposing components of odor, fungi, and mold by electrolysis,
A germicidal solution reservoir for storing the germicidal solution generated in the electrolytic cell, and atomizing means for atomizing the germicidal solution supplied from the germicidal solution reservoir, the germicidal solution reservoir and the atomizing means are provided in the apparatus body. Prepared,
An apparatus for deodorizing, disinfecting, sterilizing, controlling bacteria, and preventing fungi, wherein an electrolytic tank having an electrolytic tank is detachably attached to an apparatus body. 2. An apparatus body comprising: an electrolytic cell for generating a sterilizing solution for sterilizing or decomposing components of odor, bacteria and mold by electrolysis; and atomizing means for atomizing the generated sterilizing solution. A deodorizing / sterilizing / sterilizing / antifungal device, characterized in that a to-be-treated liquid storage tank for supplying the to-be-treated liquid to the electrolytic cell is detachable from the apparatus main body. 3. The sterilizing solution produced in the electrolytic cell has a pH of 7.5.
3. The deodorizing / sterilizing / sterilizing / antifungal device according to claim 1 or 2, wherein the device is the above-described aqueous hypochlorous acid or sodium hypochlorite. 4. An apparatus main body is provided with a main body-side reservoir for storing the liquid to be treated supplied from the liquid-reservoir tank, and a communication portion for communicating the main body-side reservoir with the atomizing means. ,
The deodorizing / sterilizing / sterilizing / antifungal device according to claim 2, wherein an electrolytic cell is provided in the communicating portion. 5. The deodorizing / sterilizing / sterilizing / antibacterial / antifungal device according to claim 1, wherein the atomizing means comprises an ultrasonic vibrator and a horn. 6. The deodorizing / sterilizing / sterilizing / antifungal device according to claim 5, wherein the ultrasonic vibrator is a piezoelectric vibrator. 7. The apparatus according to claim 5, wherein the horn is a flat horn. 8. The deodorizing / deodorizing apparatus according to claim 1, further comprising a blower for spraying the sterilizing liquid atomized by the atomizer on the apparatus main body.
Sterilizer, germicidal and antifungal equipment. 9. The deodorizing / sterilizing / sterilizing / mildew-proofing apparatus according to claim 8, wherein a filter is provided at an intake port of the blowing means. 10. The apparatus according to claim 1, further comprising a timer for adjusting the deodorizing, disinfecting, disinfecting, and fungicidal ability by turning on and off the apparatus or spraying a sterilizing solution into the liquid. 10. The deodorizing / sterilizing / sustaining bacteria / mold preventing apparatus according to any of 9. 11. A detecting means for detecting a human body or an animal is provided, and deodorization, sterilization, bacteriostatic, or the like is performed by turning on / off the device or spraying and spraying a sterilizing liquid according to the presence or absence of the detection of the human body or the animal by the detecting means. The deodorizing / sterilizing / sterilizing / antifungal device according to any one of claims 1 to 10, wherein the antifungal ability is adjusted. 12. A sensor for detecting odor, bacteria, and mold is provided, and the deodorization, sterilization, bacteriostatic, and mold-prevention ability is adjusted by turning on / off the device or spraying a sterilizing liquid by using the sensor information. The deodorizing / sterilizing / sterilizing / antifungal device according to any one of claims 1 to 10. 13. An atomizing means is constituted by an ultrasonic vibrator and a horn, and a sensor for detecting odor, bacteria and mold is provided, and the power of the ultrasonic wave is changed based on the sensor information to remove the deodorant / sterilize / sustain bacteria. The deodorizing / sterilizing / bacteriostatic / fungus-preventing apparatus according to any one of claims 1 to 12, wherein the antifungal ability is adjusted. 14. An atomizing means is constituted by an ultrasonic vibrator and a horn, and a sensor for detecting odor, bacteria and mold is provided, and the frequency of the ultrasonic wave is changed according to the sensor information to change the particle size of the atomization. The deodorizing, sterilizing, germ-free and fungicide device according to any one of claims 1 to 12, wherein the deodorizing, sterilizing, germicidal and fungus-proofing ability is adjusted. 15. A sensor for detecting odor, bacteria, and mold is provided, and the concentration of the sterilizing solution in the electrolytic cell is changed based on the sensor information to adjust the deodorizing, sterilizing, bacteriostatic, and antifungal capabilities. The deodorizing / sterilizing / sterilizing / antifungal device according to any one of claims 1 to 14. 16. A sensor for detecting odor, bacteria, and mold is provided, and the deodorizing / sterilizing / bacteriostatic / fungus-adjusting ability is adjusted by changing the supply amount of the sterilizing solution to the atomizing means based on the sensor information. The deodorizing / sterilizing / sterilizing / antifungal device according to any one of claims 1 to 15, characterized in that: 17. An atomizing means for atomizing by ultrasonic waves is detachable from the apparatus main body, and means for transmitting electric power from the apparatus main body to the atomizing means is constituted by non-contact power transmission means. The deodorizing / sterilizing / sterilizing / antifungal device according to any one of claims 5 to 7.