JP2023033116A - Bathroom sterilization system - Google Patents

Abstract

[Problem] To provide a bathroom sterilization system that can sterilize a wide area by obtaining a sterilization effect even in areas where sterilizing water cannot directly adhere. [Solution] The bathroom sterilization system 20 of the present invention has a sterilized water generating section 48 that generates sterilized water, a water discharge device 22 equipped with a sterilized water discharge section that discharges sterilized water, a bathroom drying device 26 that vaporizes the active ingredient of the discharged sterilized water, the water discharge device 22 that causes water to accumulate in the bathroom to form accumulated water, and a control device 30 that discharges sterilized water from the sterilized water discharge section into the bathroom while water is accumulated in the bathroom, vaporizes the active ingredient of the sterilized water discharged into the bathroom by the bathroom drying device, and dissolves the active ingredient of the vaporized sterilized water in the accumulated water. [Selected Figure] Figure 1

Description

The present invention relates to a bathroom sterilization system for sterilizing a bathroom.

Users are very dissatisfied with mold stains in the bathroom. In order to suppress this, for example, as described in Patent Document 1, mist-like electrolyzed water (sterilized water) is sprinkled into the bathroom from an electrolyzed water spraying device attached to the ceiling of the bathroom. There is known a bathroom ventilation fan that sterilizes and then ventilates.

In addition, as described in Patent Document 2, electrolyzed water is sprayed from an electrolyzed water spray unit attached to the ceiling of the bathroom to generate stains such as sliminess caused by yeast and the like that proliferate on the floor surface of the bathroom. There is known a bathroom heating and ventilating fan that effectively suppresses the growth of yeast and the like in the bathroom by suppressing the drying operation and the blowing operation after that.

JP 2006-292183 A JP 2019-165831 A

In the devices described in Patent Documents 1 and 2, which are conventional technologies, electrolyzed water (disinfected water) is sprinkled from the ceiling of the bathroom, so the electrolyzed water falls and accumulates on the visible part, which is the target of sterilization. It cannot be applied to the back side of objects or gaps.
Therefore, in the device according to the prior art, after the electrolyzed water is sprinkled, it is conceivable to circulate the air in the bathroom with a ventilation fan to cause the electrolyzed water to act. The electrolyzed water evaporates inside, the concentration of the active ingredient in the electrolyzed water is attenuated, and the sterilization effect is lost by the time it reaches the back surface of the object to be sterilized or the gap. Furthermore, the mist of the electrolyzed water adheres to various parts in the bathroom, which causes water stains and spoils the appearance.

Therefore, the inventors of the present invention have made intensive research in order to solve the problems in the conventional technology described above, and have found that the spray distance, water concentration, water landing amount, etc. that have been conventionally performed have been improved. Taking into consideration the fact that the bathroom was sterilized, we further developed it by dissolving the active ingredient of the sterilized water that has been vaporized after spraying, which is not used for sterilization in the conventional technology, into the residual water remaining in the bathroom. , It has been found that it can spread throughout the bathroom and disinfect a wider area in the bathroom.

The present invention was made to solve the problems of the prior art, and is a bathroom sterilization system that can sterilize a wide range by obtaining a sterilization effect even in areas where sterilization water cannot directly adhere. is intended to provide

In order to solve the above problems, the present invention provides a bathroom sterilization system for sterilizing a bathroom, comprising a sterilized water generator for generating sterilized water containing active ingredients, and a sterilized water generator for discharging the sterilized water. a sterilized water apparatus having a sterilized water spouting part, a vaporizing means for vaporizing the effective ingredients of the sterilized water spouted from the sterilized water spouting part, a stagnant water forming means for causing water to stay in the bathroom, and a bathroom Disinfecting water is spouted into a bathroom from a sterilizing water spouting part in a state where water is stagnant, and the effective ingredients of the sterilizing water spouted into the bathroom are vaporized by vaporization means, and the vaporized sterilizing water is effective. and a control unit for dissolving the component in the stagnant water.
In general, water remaining in the bathroom after bathing (residual water) is not preferable because it causes stains with bacteria and mold. However, in the present invention, residual water is intentionally left in the bathroom, and in this state, sterilized water is spouted into the bathroom, and the effective ingredients of the spouted sterilized water are vaporized by vaporization means. As a result, the active ingredient of the vaporized sterilizing water is dissolved in the remaining water, so it can be used in areas where the sterilizing water cannot be attached directly (corners, joints, back of the counter, ceiling, upper part of the wall, storage shelves, etc.). A sterilizing effect can be obtained. As a result, according to the present invention, the inside of the bathroom can be sterilized in a wide range.

In the present invention, preferably, the evaporating means forms an air flow in the bathroom so as to reduce the amount of water remaining while leaving the remaining water in a non-ventilated state of the bathroom.
In the present invention configured as described above, the vaporization means forms an air flow in the bathroom so as to reduce the amount of water remaining while leaving water remaining, so that the specific surface area of the water remaining can be increased. This increases the amount of active ingredients dissolved in the sterilized water. Furthermore, since the concentration of the active ingredients of the sterilized water dissolved in the remaining water can be increased by reducing the amount of water that remains, the active ingredients of the sterilized water can be efficiently utilized.

In the present invention, preferably, the vaporization means warms the inside of the bathroom so as to reduce the amount of stagnant water while leaving stagnant water in a state where the bathroom is not ventilated.
In the present invention configured as described above, the vaporizing means heats the bathroom so as to reduce the amount of water remaining while leaving the water remaining, so that the specific surface area of the water remaining can be increased. This increases the amount of active ingredients dissolved in the sterilized water. Furthermore, since the concentration of the active ingredients of the sterilized water dissolved in the remaining water can be increased by reducing the amount of water that remains, the active ingredients of the sterilized water can be efficiently utilized.

In the present invention, preferably, the control unit causes part of the sterilized water spouted from the sterilized water spouting part to directly adhere to a predetermined site to be sterilized as is the sterilized water.
In order to obtain a sterilizing effect by dissolving an active ingredient in residual water, it is necessary to leave water in all parts of the bathroom where the sterilizing effect is desired. On the other hand, if there is residual water (retained water), scales or mold will occur, so it is generally desirable that there is no residual water. Therefore, in the present invention, the control unit causes a part of the sterilized water discharged from the sterilized water discharge unit to adhere to the part to be sterilized as it is, and removes the other parts by dissolving. Since a bactericidal effect can be obtained, it is possible to obtain a sterilizing effect over a wide area of the bathroom while avoiding problems caused by residual water.

In the present invention, preferably, the control unit causes a portion of the sterilized water spouted from the sterilized water spouting unit to directly adhere to the floor of the washing place as the sterilized water.
The washroom floor in the bathroom is particularly dirty. Therefore, in the present invention, part of the sterilized water discharged from the sterilized water spouting part is directly adhered to the floor of the washing place as it is. In addition, since the sterilization effect can be obtained by dissolving in other parts, the sterilization effect can be obtained in a wide range of the bathroom while avoiding problems caused by residual water.

In the present invention, preferably, the floor of the washing area has a drainage gradient that slopes downward toward the drainage port to such an extent that a predetermined amount of stagnant water remains.
According to the present invention, since the floor of the washing space has a drainage gradient that is inclined downward toward the drain port to the extent that a predetermined amount of stagnant water remains, the water stagnated on the floor of the washing space while maintaining the retentivity. water can be reduced.

In the present invention, the corners of the floor of the washing area are preferably formed to have water repellency.
Dirt easily accumulates in the corners of the floor of the washing area, and it is easy for mold to grow. Therefore, in the present invention, since the corners of the floor of the washing area are formed to have water repellency, residual water tends to remain in the form of droplets. Therefore, since the surface area of the residual water is increased by the formation of water droplets, the effective ingredients of the vaporized sterilizing water are easily dissolved, so that according to the present invention, the sterilizing effect can be obtained more reliably.

According to the bathroom sterilization system of the present invention, it is possible to sterilize a wide range by obtaining the sterilization effect even in areas where the sterilization water cannot directly adhere.

1 is a perspective view showing a bathroom in which a bathroom disinfection system according to an embodiment of the invention is used; FIG. It is the perspective view which expanded the counter vicinity of FIG. FIG. 2 is a partial cross-sectional view of the water discharger viewed along line III-III in FIG. 1; FIG. 4(a) is a front view showing the nozzle portion of the water discharging device, and FIG. 4(b) is a sectional view taken along line AA. Fig. 2 is a perspective view showing a state in which disinfected water is sprayed from a disinfected water nozzle opening of a nozzle portion of a water discharger; Fig. 10 is a perspective view showing tap water being sprayed from a stagnant water nozzle opening of the nozzle portion of the water discharger. 7A and 7B are cross-sectional views showing the bathroom drying device of the bathroom disinfection system according to the embodiment of the present invention, FIG. state”. 4 is a time chart showing the operation of the bathroom disinfection system according to the embodiment of the present invention; 4 is a flow chart showing the operation of the bathroom disinfection system according to the embodiment of the present invention; FIG. 4 is a configuration diagram and a table for explaining the “pre-washing operation” performed by the bathroom disinfection system according to the embodiment of the present invention; FIG. 4 is a configuration diagram and a table for explaining the “sterilized water spouting operation” executed by the bathroom sterilization system according to the embodiment of the present invention; 1 is a diagram for explaining part of the principle of a bathroom disinfection system according to an embodiment of the present invention; FIG. FIG. 2 is a conceptual diagram showing an example of a method for measuring the amount of dissolved active ingredients in vaporized sterilized water.

First, a bathroom in which a bathroom sterilization system according to an embodiment of the present invention is used will be described with reference to FIGS. 1 and 2. FIG. FIG. 1 is a perspective view showing a bathroom in which a bathroom disinfection system according to an embodiment of the present invention is used, and FIG. 2 is an enlarged perspective view of the vicinity of the counter in FIG.
As shown in Figure 1, the bathroom 1 comprises a first wall 2, a second wall 4, a third wall 6 and a fourth wall 8 forming four sides of a substantially rectangular parallelepiped. A bathtub 10 is provided on the side of the second wall 4, and a floor 12 for washing is provided below between the fourth wall 8 and the bathtub 10. - 特許庁A drain port 14 is provided in the vicinity of the bathtub 10 on the washing place floor 12, and hot water is discharged to the outside from the drain port 14.例文帳に追加

A counter 16 is provided on a part of the third wall 6 side. Above the counter 16 on the third wall 6, a mirror, water tap, shower hose, etc. are provided. A water discharge device 22 for discharging sterilized water and tap water (water), which constitutes a part of the bathroom sterilization system 20 according to the present embodiment, is provided on the lower surface side of the counter 16 .

A ceiling 24 is attached to the upper end of the first wall 2 to the fourth wall 8 described above. bathroom drying device 26 is provided. As will be described later, the bathroom drying device 26 is a device for vaporizing the sprayed sterilized water, and corresponds to a "vaporizing means".
Further, outside the bathroom 1, there are provided an operation panel 28 for operating the bathroom disinfection system 20 and a control device 30 for operating the water discharging device 22 and the bathroom drying device 26 described above.

As shown in FIG. 2, the counter 16 has a top plate 16a and a lower cover 16b, and is spaced upward from the floor 12 of the washing space.

Next, the water discharging device 22 will be described with reference to FIGS. 3 to 7. FIG. 3 is a partial cross-sectional view of the water discharging device as seen along line III-III in FIG. 1, FIG. 4(a) is a front view showing the nozzle portion of the water discharging device, and FIG. FIG. 5 is a cross-sectional view taken along line A, FIG. 5 is a perspective view showing a state in which sterilized water is sprayed from the sterilized water nozzle opening of the nozzle portion of the water discharger, and FIG. Fig. 10 is a perspective view showing tap water being sprayed from a stagnant water nozzle opening of the nozzle portion; 7A and 7B are cross-sectional views showing the bathroom drying device of the bathroom disinfection system according to the embodiment of the present invention, FIG. state”.

As shown in FIG. 3, a water discharger 22 is provided inside the counter 16 (between the top plate 16a and the lower cover 16b), and this water discharger 22 protrudes downward from the lower cover 16b of the counter 16. A nozzle portion 32 is provided.
As also shown in FIG. 2, the nozzle part 32 is arranged below the counter 16 at a position spaced apart from the floor 12 of the washing place. 12 is provided near the center in the horizontal direction.

Returning to FIG. 3, the water discharger 22 includes a first strainer 36, a first solenoid valve 38, a second solenoid valve 40, a pressure regulating valve 42, a vacuum breaker 44, a check valve 46, and a sterilized water generator. A portion 48 and a second strainer 50 are provided. The first strainer 36 is connected to an external water supply pipe (not shown), and downstream of the first strainer 36, the tap water flow path branches into two. Note that the vacuum breaker 44 may not be provided.

One flow path 51 on the downstream side of the first strainer 36 supplies tap water directly to the nozzle portion 32 via the first electromagnetic valve 38 . Tap water is supplied to the nozzle portion 32 by opening the first solenoid valve 38 . The first electromagnetic valve 38 and the nozzle part 32 provided in one of the flow paths 51 sprinkle tap water on the floor 12 of the washing place to form residual water on the floor 12 of the washing place, and thus correspond to "residual water forming means". do.

A second solenoid valve 40, a pressure regulating valve 42, a vacuum breaker 44, a check valve 46, a sterilized water generator 48, a second strainer are provided in the other flow path 52 on the downstream side of the first strainer 36 in this order from the upstream side. 50 is connected to supply sterilized water to the nozzle portion 32 . Note that the vacuum breaker 44 may not be provided.

The first electromagnetic valve 38 and the second electromagnetic valve 40 are adapted to perform the operation of opening the above-described tap water flow paths 51 and 52 and the operation of closing the tap water flow paths 51 and 52, respectively. .

The pressure regulating valve 42 controls the pressure of the supplied tap water. As a result, the flow rate of tap water supplied to the sterilized water generator 48, which will be detailed later, can be adjusted to a desired value. By adjusting the flow rate of tap water supplied to the sterilized water generator 48, the flow rate of sterilized water supplied to the nozzle section 32 is adjusted. The flow rate of the tap water may be adjusted by the second solenoid valve 40 instead of or in addition to the pressure regulating valve 42 .

The sterilized water generator 48 is an electrolytic chamber (electrolyzer) having an anode and a cathode. The sterilized water generator 48 applies a voltage between the anode and the cathode to electrolyze tap water flowing between the electrodes to generate sterilized water containing hypochlorous acid. It's becoming Since tap water contains chloride ions, hypochlorous acid is produced by electrolyzing the chloride ions. Here, the disinfected water generator 48 corresponds to the "sterilized water generator", and the nozzle section 32 corresponds to the "sterilized water discharger".

The first solenoid valve 38 , the second solenoid valve 40 , the pressure regulating valve 42 and the sterilized water generator 48 are appropriately controlled by the control device 30 . As a result, the spraying of tap water from the nozzle portion 32 and the spraying of sterilizing water from the nozzle portion 32 can be controlled independently of each other.

Specifically, the first electromagnetic valve 38 and the second electromagnetic valve 40 open and close the tap water flow paths 51 and 52 based on signals from the control device 30 . This controls the flow rate of the tap water supplied to the downstream side. Also, the sterilized water generator 48 switches ON/OFF of the electrolytic chamber based on a signal from the control device 30 . In this way, the control device 30 can determine the concentration of various constituents in the sterilized water, the instantaneous flow rate (flow rate per unit time) of tap water and sterilized water to be discharged, and the total amount of sterilized water to be discharged. can be controlled.

The sterilized water described above is functional water having a function of reducing bacteria, mold, and yeast, and is, for example, water containing hypochlorous acid. Since tap water contains chloride ions, hypochlorous acid is produced by electrolyzing the chloride ions. As a result, the electrolyzed water changes into a liquid containing hypochlorous acid (HOCl). This hypochlorous acid evaporates into sterilized water gas (Cl ₂ O). This dichlorine monoxide is the active ingredient of the sterilized water gas.
The sterilized water may be water containing metal ions (for example, water containing metal ions such as silver ions, copper ions or zinc ions) or water containing ozone. For example, when tap water is electrolyzed, acid (H ⁺ ) is consumed at the cathode and pH increases near the cathode. That is, alkaline water is produced in the vicinity of the cathode. On the other hand, alkali (OH ⁻ ) is consumed at the anode, and the pH drops near the anode. That is, acid water is produced in the vicinity of the anode. By changing the flow rate in the sterilized water generator 48, the concentration of the components contained in the sterilized water can be controlled. In this case, metal ions such as silver ions, copper ions or zinc ions, or ozone (O ₃ ) are the vaporized active ingredients.
In addition, although the sterilized water generation unit 48 described above generates sterilized water by electrolysis, the present invention is not limited to this. For example, the sterilized water is generated by dissolving a sterilizing agent in tap water. You may make it

In the present embodiment, "effective" in the active ingredient of the vaporized sterilized water refers to, for example, a sterilization rate of 10% or more against bacteria, molds, and yeasts adhering to the object. In detail, the ratio of the amount of bacteria, mold, and yeast adhering to the object due to the vaporized sterilized water to the amount of bacteria, mold, and yeast adhering to the object is 90%. If it becomes the following, it is defined that the vaporized sterilized water was effective.

In the present embodiment, the nozzle portion 32 is rotationally driven by an electric motor 53, details of which will be described later. The electric motor 53 is, for example, a stepping motor.
The electric motor 53 is controlled by the controller 30 . As a result, the rotation angle and rotation speed of the nozzle portion 32 are changed by controlling the electric motor 53 based on the signal from the control device 30 (see FIGS. 10 and 11). In addition, an operation panel 28 having a switch for starting sterilization work is connected to the control device 30, so that the user of the bathroom can perform appropriate operations other than the sterilization work. ing.

As shown in FIGS. 4A and 4B, the nozzle portion 32 includes a first water passage portion (retained water passage portion) 54 and a second water passage portion (disinfected water passage portion) 56. , a retained water nozzle opening 58 formed in the retained water passage portion 54 , and a sterilized water nozzle opening 60 formed in the sterilized water passage portion 56 .

The tap water that has passed through the first electromagnetic valve 38 is supplied into the first water reservoir 54 and discharged from the first nozzle opening 58 . The sterilized water generated by the sterilized water generator 48 is supplied into the second water reservoir 56 and discharged from the second nozzle openings 60 .

As shown in FIGS. 5 and 6, tap water is sprayed from the stagnant water nozzle opening 58 so as to spread in the vertical direction, and sterilized water is sprayed from the sterilized water nozzle opening 60 so as to spread in the vertical direction. . Furthermore, by rotating the nozzle part 32 about its axis by the electric motor 53, tap water and sterilized water can be sprayed over a wide range in the horizontal direction.

Next, the bathroom drying device 26 provided on the ceiling 24 of the bathroom 1 will be described with reference to FIG. FIG. 7(a) shows a state in which the inside of the bathroom 1 is ventilated by the bathroom drying device 26, and FIG. 7(b) shows heating before bathing, heating during bathing, and the bathroom sterilization system 20 according to this embodiment. shows the state when "disinfecting water spouting" is executed by . The arrows in the drawing indicate the flow of air.

As shown in FIG. 7, the bathroom dryer 26 has a housing 70, and the lower part of the housing 70 communicates with the interior of the bathroom 1 through an opening 72. As shown in FIG. A fan 74 is provided in the housing 70 and is rotated by an electric motor. Furthermore, an exhaust damper 76 and a heater 78 are provided downstream of the fan 74 in the housing 70 . Furthermore, an exhaust port 80 is provided on the downstream side of the exhaust damper 76 .

As shown in FIG. 7A, when the bathroom dryer 26 is used to ventilate the bathroom 1, the exhaust damper 76 is opened, and the air in the bathroom 1 sucked by the fan 74 is discharged from the outlet 80 to the outside. It is designed to be discharged to

Next, as shown in FIG. 7B, first, when heating the bathroom 1 before and during bathing, the exhaust damper 76 is closed and the air in the bathroom 1 sucked by the fan 74 is heated. is warmed by a heater heater 78, and the warmed air is returned into the bathroom 1 through the opening 72. - 特許庁Thus, the air in the bathroom 1 is circulated between the bathroom dryer 26 and the air in the bathroom 1 is maintained at a desired temperature (for example, 20°C).

When the bathroom sterilization system 20 according to the present embodiment performs "sterilized water spouting", as shown in FIG. is warmed by a heater 78, the warmed air is returned into the bathroom 1 through the opening 72, and the air in the bathroom 1 is circulated between the bathroom dryer 26. - 特許庁At this time, since the inside of the bathroom 1 is not ventilated, the air inside the bathroom 1 is trapped inside the bathroom 1. - 特許庁

Next, "pre-washing" and "disinfecting water spouting" performed by the bathroom disinfecting system 20 according to the present embodiment will be described with reference to FIGS. 8 and 9. FIG. FIG. 8 is a time chart showing the operation of the bathroom disinfection system according to the embodiment of the present invention, and FIG. 9 is a flow chart showing the operation of the bathroom disinfection system according to the embodiment of the present invention.

First, as shown in FIG. 8, the bathroom drying device 26 ventilates the air in the bathroom 1 for 12 minutes from the start of operation (see FIG. 7(a)). "Pre-washing" is executed by sprinkling water toward the floor 12 of the washing place 1. - 特許庁

Next, after 12 minutes have passed since the start, the bathroom drying device 26 closes the exhaust damper 76 and stops ventilation for 34 minutes (see FIG. 7(b)). It warms the air inside and circulates the warm air.
When 12 minutes have passed since the start, the water discharging device 22 stops the water discharging by the water discharging device 22 and waits for 4 minutes. After that, the water discharging device 22 intermittently performs "disinfecting water spouting" for 30 minutes, and then ends "disinfecting water spouting".

When the water discharger 22 is performing "disinfecting water discharge", the bathroom drying device 26 closes the exhaust damper 76 to stop ventilation, warms the air in the bathroom 1 with the heater 78, and circulates the warmed air. This circulating air volatilizes and evaporates the spouted sterilized water. Circulation of warm air is effective for vaporizing the sterilized water, but turning off the heater 78 and simply blowing air can vaporize the sterilized water.

After that, the bathroom dryer 26 closes the exhaust damper 76 for 26 minutes, continues the ventilation stop state, and turns off the heater 78 to circulate the air in the bathroom 1 . Thereafter, for 24 hours, the bathtub drying device 26 opens the exhaust damper 76 to ventilate the air in the bathroom 1 (see FIG. 7(a)), and then terminates the ventilation.

Next, the control flow executed by the bathroom disinfection system according to this embodiment will be described with reference to FIG. The control flow shown in FIG. 9 and the description based on FIG. 8 are the same in basic operation. In addition, in FIG. 9, "S" indicates each step.

As shown in FIG. 9, in S1, a switch for starting the operation of the bathroom sterilization system provided on the operation panel 26 is turned on. Proceeding to S2, the ventilation operation by the bathtub drying device (drying device) 26 is started, and at the same time, the "pre-washing" operation by the water discharging device 22 is also started. This "pre-wash" operation will be described in detail later with reference to FIG.
Next, in S3, it is determined whether or not 12 minutes have passed. The operation of S2 is continued until 12 minutes have passed.

A necessary amount of residual water can be formed on the washing place floor 12 by the "pre-washing" operation of the water discharging device 22, and the effective ingredient of the vaporized sterilized water, which will be described later, dissolves in this residual water, and further A sterilizing effect can be obtained.

If it is determined in S3 that 12 minutes have elapsed, the process proceeds to S4, in which the ventilation operation by the drying device 26 is stopped (the exhaust damper is closed), and the "pre-washing" operation by the water discharging device 22 is also stopped.

Next, in S5, it is determined whether or not the water discharging device 22 has stopped the "pre-washing" operation and waited for 4 minutes. Until the standby time of 4 minutes, proceed to S6 to determine whether or not the temperature in the bathroom is 20°C or higher. Circulation operation is performed to warm and circulate the air. If the temperature in the bathroom is not 20° C. or higher, the operation in S7 is performed immediately after the exhaust of the drying device is stopped in S4. Further, when it is determined in S6 that the temperature in the bathroom is 20° C. or more, the process proceeds to S8, and the drying apparatus performs a circulation operation for circulating air with the exhaust damper closed.

If it is determined in S5 that the water discharging device 22 has waited for 4 minutes, the process proceeds to S9, in which the water discharging device 22 starts "disinfecting water discharging". This "sterilized water spout" will be described in detail later with reference to FIG.

Next, proceeding to S10, it is determined whether or not 30 minutes have passed since the water discharging device 22 started "sterilizing water discharging". Until 30 minutes have passed, the process proceeds to S11 to determine whether or not the temperature in the bathroom is 20° C. or higher. , the heater 78 is turned on to warm and circulate the air in the bathroom. If the temperature in the bathroom is not 20° C. or higher, the operation in S12 is executed immediately after the water discharging device 22 discharges sterile water in S9. Furthermore, when it is determined in S11 that the temperature in the bathroom is 20° C. or higher, the process proceeds to S13, in which the drying device 26 performs a circulation operation for circulating air with the exhaust damper 76 closed.

In this way, the sterilized water "sterilized water spouted" from the water discharge device 22 is acted on by the circulating air warmed by the drying device 26, thereby vaporizing the sterilized water, and the vaporized sterilized water. The active ingredients of the water are dissolved in the residual water remaining on the floor of the washing place 12 to improve the sterilization effect. When the temperature in the bathroom is 20° C. or higher, even if the heater 78 is turned off, the sterilized water can be easily vaporized.

If it is determined in S10 that 30 minutes have elapsed since the water discharger 22 started to spray the sterilized water, the process proceeds to S14, in which the heater 78 of the drying device 26 is turned off and the exhaust damper 76 is closed. Circulation operation is performed with At this time, the “disinfected water spouting” by the water spouting device 22 is stopped.

Next, in S15, it is determined whether or not 26 minutes have elapsed after the heater 78 of the drying device 26 was turned off in S14. If 26 minutes have passed, the process proceeds to S16, and the circulation operation with the exhaust damper 76 of the drying device 26 closed is stopped. Next, in S17, the drying device 26 continues the ventilation operation for 24 hours with the exhaust damper 76 opened. As a result, the bathroom sterilization operation by the bathroom sterilization system according to the present embodiment ends.

Next, the "pre-washing" operation performed by the water discharging device 22 will be described with reference to FIG. FIG. 10 is a configuration diagram and table for explaining the "pre-washing operation" performed by the bathroom disinfection system according to the embodiment of the present invention.
As shown in FIG. 10 , tap water is spouted (sprinkled) from the stagnant water nozzle opening 58 of the nozzle portion 32 of the water spouting device 22 toward the floor 12 of the bathroom 1 . At this time, since the nozzle part 32 can rotate, the operation 1→the operation 2→the operation 3→the operation 4→the operation 5→the operation 6→the operation 7→the operation 8→the operation 9 are executed in order. At this time, tap water is not spouted in actions 6 and 9 (spraying OFF). Also, the tap water spout range is from 25 degrees to 335 degrees. Further, the angular velocity at which the nozzle part 32 rotates is slow in the central region (operations 3, 4, 5) of the washing space floor 12 when tap water is being discharged, and is This is so fast that as much tap water as possible is sprinkled on the central area of the floor 12 of the washing space. Further, the operations 1 to 9 are performed for about 4 minutes, and the water discharging operation of the water discharging device 22 is performed for 3 times, so tap water is discharged for about 12 minutes in total.

Here, the washing space floor 12 of the bathroom 1 has a drainage gradient (for example, 0.1 to 11 degrees) inclined downward toward the drain port 14 to the extent that a predetermined amount of stagnant tap water remains. As a result, the amount of tap water remaining on the floor 12 of the washing place can be set to a desired amount for dissolving the vaporized effective ingredients of the sterilized water.

Next, the "disinfected water spouting" operation executed by the water spouting device 22 will be described with reference to FIG. FIG. 11 is a configuration diagram and a table for explaining the "sterilized water spouting operation" executed by the bathroom sterilization system according to the embodiment of the present invention.
As shown in FIG. 11 , sterilized water is spouted (sprinkled) from the sterilized water nozzle opening 60 of the nozzle portion 32 of the water discharger 22 toward the floor 12 of the bathroom 1 . At this time, since the nozzle part 32 can rotate, the operation 1→operation 2→operation 3→operation 4→operation 5→operation 6→operation 7 are executed in order. Also, the spraying range of the sterilized water is from 25 degrees to 335 degrees. In addition, the angular velocity at which the nozzle part 32 rotates is slow in the central region of the floor 12 (operations 2 and 5) and is fast in both regions (operations 1, 3, 4 and 6). As much sterilized water as possible is sprinkled. Furthermore, the operations 1 to 7 are performed for about 2.5 minutes, and the water discharging operation of the water discharging device 22 is performed for 12 cycles, so the total time is about 30.5 minutes. Disinfectant water is sprayed for a minute.

Next, with reference to FIG. 12, the basic principle of the bathroom disinfection system according to this embodiment will be described. FIG. 12 is a diagram for explaining part of the principle of the bathroom sterilization system according to the embodiment of the present invention.
As shown in FIG. 12, conventionally, sterilized water with a chlorine concentration of A is sprayed from a nozzle, and when the sterilized water reaches the target point of sterilization, it is "effective concentration B". In addition, the "water landing amount" and "action time" at the arrival point of the sterilized water were also important.

In this prior art, there is a problem that the sterilized water sprayed from the nozzle volatilizes (evaporates) before reaching the destination point, thereby lowering the concentration of the sterilized water. Therefore, it was necessary to spray sterilizing water in consideration of "concentration x amount of water landing x action time" at the arrival point, and it was difficult to sterilize the bathroom over a wide area.

Here, since the volatilized (vaporized) active ingredient of the sterilizing water is not used for sterilization work until the sterilizing water reaches the destination from the nozzle, the present inventors We discovered that the effective ingredients of the (vaporized) sterilized water can be used for sterilization work. That is, the volatilized (vaporized) sterilized water is dissolved in the residual water remaining on the floor of the washing area, the bathtub apron, the back of the counter, the wall, etc. by the above-described "pre-washing" operation, thereby making the vaporized sterilized water effective. By utilizing the ingredients, it was possible to disinfect a wide range of bacteria.

Next, referring to FIG. 13, a method for measuring the dissolved amount of the effective ingredient in the vaporized sterilized water will be described. FIG. 13 is a conceptual diagram showing an example of a method for measuring the amount of dissolved active ingredients in vaporized sterilized water.
The amount of active ingredients dissolved in the vaporized sterilized water according to the embodiment of the present invention can be measured by a fluorescence intensity measurement method using a so-called APF solution such as a fluorescent reagent for detecting active oxygen (Aminophenyl Fluorescein). Specifically, in a petri dish 90 with a diameter of 22 mm, a solution obtained by diluting "APF reagent manufactured by Goryo Chemical" to "0.1 mol/L phosphate buffer (pH 7.4) manufactured by Fuji Film Wako Pure Chemical" to 5000 times (hereinafter referred to as "APF liquid") is added dropwise in an amount of 1.5 ml.

After the water, which is the retained water, is retained by the water discharging device 22, the petri dish 90 containing the APF liquid is placed on the floor 12 of the bathroom 1, and the nozzle portion 32 side of the petri dish 90 is removed so that the sterilizing water does not directly enter. An enclosure 92 is provided on the side surface and the top surface. After that, the water discharging device (disinfected water discharging means) 22 and the bathroom drying device (vaporizing means) 26 are operated, and the water is collected in the petri dish 90 after one hour, for example.
The fluorescence emission intensity in the recovered Petri dish 90 is measured by a spectrofluorophotometer, and the dissolved amount of the vaporized active ingredient in the hypochlorous acid water is calculated from the measurement result. Here, RF-5300PC manufactured by Shimadzu Corporation is used as a spectrofluorophotometer, and measurement is performed at an excitation wavelength of 490 nm and a fluorescence wavelength of 515 nm. Further, the calibration curve is obtained by adding hypochlorous acid water having a known concentration directly to the APF solution and measuring the luminescence intensity thereof.

As a result, the dissolved amount of the effective ingredient of the sterilized water vaporized in the space of the bathroom 1 can be measured. The dissolved amount of the vaporized active ingredient in the space of the bathroom 1 is preferably 0.5 μg/L or more. Note that the measurement method is not limited to this, and other methods may be used for measurement.

Furthermore, the dissolution of the active ingredient in the vaporized sterilized water is defined as follows. In the fluorescence intensity measurement method, the total weight of the petri dish 90 to which the APF liquid has been dropped is measured before installation in the bathroom 1 . After that, after operating the water discharging device (disinfecting water discharging means) 22 and the bathroom drying device (vaporizing means) 26, the total weight of the petri dish 90 was similarly measured. and the weight remains the same or decreases, and if the dissolved amount of the active ingredient in the sterilized water can be measured to be 0.5 μg/L or more, the vaporized active ingredient is not directly affected by the sterilized water. Defined as working in solution.

The effects of the bathroom sterilization system according to this embodiment will be described below.
In general, if there is water (residual water) remaining in the bathroom 1, it is not preferable because it causes bacteria and mold stains. However, in this embodiment, residual water is intentionally left in the bathroom 1, and in this state, sterilized water is spouted into the bathroom 1, and the effective ingredients of the spouted sterilized water are vaporized by the bathroom drying device 26. there is As a result, the active ingredients of the vaporized sterilizing water are dissolved in the remaining water, so it can be used in areas where sterilizing water cannot be attached directly (corners, joints, back of counters, ceilings, upper walls, storage shelves, etc.). A sterilizing effect can be obtained. As a result, according to this embodiment, the inside of the bathroom can be sterilized in a wide range.

In the bathroom sterilization system 20 according to the present embodiment, the bathroom drying device 26 forms an air flow in the bathroom so as to reduce the amount of water remaining while leaving the water remaining, so that the specific surface area of the water remaining is increased. This increases the amount of active ingredients dissolved in the sterilized water. Furthermore, since the concentration of the active ingredients of the sterilized water dissolved in the remaining water can be increased by reducing the amount of water that remains, the active ingredients of the sterilized water can be efficiently utilized.

In the bathroom sterilization system 20 according to this embodiment, the bathroom drying device 26 heats the inside of the bathroom 1 by the heater 78 so as to reduce the amount of water remaining while leaving the water remaining. The specific surface area can be increased by increasing the concentration of the active ingredients in the sterilized water inside. Therefore, the effective ingredient of the vaporized sterilized water can be dissolved in the residual water to obtain the sterilization effect, so that the effective ingredient of the sterilized water can be efficiently utilized.

In order to obtain the sterilization effect by dissolving the active ingredient in the remaining water for all the parts of the bathroom 1 where the sterilization effect is desired, it is necessary to leave the water in all the parts of the bathroom 1 . On the other hand, if there is residual water (retained water), scales or mold will occur, so it is generally desirable that there is no residual water. Therefore, in the present embodiment, the control device 30 causes part of the sterilized water discharged from the sterilized water nozzle opening 60 to adhere to the site to be sterilized as it is, and to the other sites. Since the sterilization effect can be obtained by dissolving, it is possible to obtain the sterilization effect over a wide area of the bathroom while avoiding problems caused by residual water.

In the bathroom sterilization system 20 according to the present embodiment, the control device 30 may cause a part of the sterilized water discharged from the sterilized water nozzle opening 60 to directly adhere to the floor 12 of the washing place as it is. good.
The washroom floor in the bathroom is particularly dirty. Therefore, in the present embodiment, part of the sterilized water discharged from the sterilized water nozzle opening 60 is directly adhered to the washing place floor 12 as it is, so that the washing place floor 12 with a lot of dirt can be removed. The bactericidal effect can be obtained more reliably, and the sterilizing effect can be obtained by dissolving in other parts, so it is possible to obtain the sterilizing effect over a wide area of the bathroom while avoiding problems caused by residual water. can.

According to the bathroom sterilization system 20 according to the present embodiment, since the washing space floor 12 has a drainage slope that slopes downward toward the drain port 14 to such an extent that a predetermined amount of stagnant water remains, water remains on the washing space floor 12. It is possible to reduce the stagnant water while maintaining the stagnant water.

In the bathroom sterilization system 20 according to this embodiment, the corners of the floor 12 of the washing area may be formed to have water repellency.
The corners of the floor 12 of the washing space tend to collect dirt and grow mold. Therefore, in the present embodiment, the corners of the floor 12 for washing are formed so as to have water repellency, so that water is easily retained, that is, water is easily retained. Therefore, according to this embodiment, the sterilization effect can be obtained more reliably.

In the present embodiment described above, the sterilized water discharged into the bathroom 1 is vaporized by the flow of air from the bathroom drying device 26 or the flow of heated air, and the effective ingredients of this vaporized sterilized water are removed. It is made to dissolve in residual water remaining in the bathroom 1. - 特許庁However, in the present embodiment, it is not necessary to evaporate all of the sterilized water, and a mixture of atomized sterilized water and vaporized sterilized water may be used.

As described above, the bathroom drying device 26 is a device for vaporizing the sprayed sterilized water, and corresponds to the "vaporization means". is applied to the sterilized water to vaporize it, means to vaporize it by reducing the pressure, and means to vaporize the sterilized water by applying ultrasonic waves.

1 Bathroom 10 Bathtub 12 Washing floor 14 Drain port 16 Counter 20 Bathroom sterilization system 22 Water discharge device 26 Bathroom drying device 30 Control device 32 Nozzle part 48 Sterilized water generator 51, 52 Flow path 53 Electric motor 58 Nozzle opening for accumulated water 60 Sterilized water nozzle opening 74 Fan 76 Exhaust damper 78 Heater 80 Discharge port

Claims (7)

A bathroom sterilization system for sterilizing a bathroom,
a sterilized water device comprising a sterilized water generator for generating sterilized water containing an active ingredient and a sterilized water discharger for discharging the sterilized water;
a vaporization means for vaporizing the active ingredient of the sterilized water discharged from the sterilized water discharge unit;
a retained water forming means for retaining water in the bathroom;
Disinfected water is spouted into the bathroom from the sterilized water spouting part in a state in which water remains in the bathroom, and the vaporization means vaporizes the effective ingredients of the sterilized water spouted into the bathroom. a control unit for dissolving the active ingredient of the vaporized sterilizing water in the stagnant water;
A bathroom sterilization system comprising: 2. The bathroom sterilization according to claim 1, wherein the vaporization means forms an air flow in the bathroom so as to reduce the amount of water remaining while leaving the remaining water in a state where the bathroom is not ventilated. system. 3. The bathroom sterilization system according to claim 1 or 2, wherein said vaporizing means heats the inside of the bathroom so as to reduce the amount of remaining water while leaving the remaining water in a state in which the bathroom is not ventilated. 4. The method according to any one of claims 1 to 3, wherein the control unit causes part of the sterilized water discharged from the sterilized water discharge unit to directly adhere to a predetermined site to be sterilized as the sterilized water. Bathroom disinfection system as described. 5. The bathroom sterilization system according to claim 4, wherein the control unit causes part of the sterilized water spouted from the sterilized water spouting unit to directly adhere to the floor of the washing area as the sterilized water. 6. The bathroom sterilization system according to any one of claims 1 to 5, wherein the floor of the washing area has a drain gradient that slopes downward toward the drain port to the extent that a predetermined amount of stagnant water remains. 7. The bathroom sterilization system according to claim 6, wherein corners of the floor of the washing space are formed to have water repellency.

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