JP4837547B2 - Bathroom ventilation drying equipment - Google Patents

Description

  The present invention relates to a bathroom ventilation drying apparatus for ventilating or drying a bathroom after completion of bathing.

Leaving the bathroom with water droplets or moisture remaining may cause mold. Therefore, a bathroom ventilation drying apparatus is widely used in which the last bather ventilates or dries the bathroom after the bathing is completed.
The bathroom automatic ventilation drying apparatus disclosed in Japanese Patent Application Laid-Open No. 2002-168488 (Patent Document 1) has a human body sensor attached to the bathroom, and when bathing is completed, the human body sensor is activated to automatically It is set to perform ventilation, drying or heating operation. Thereby, even when the last bather forgets to press the switch of the ventilation drying operation, the occurrence of mold can be prevented by securing this and drying the bathroom.
Here, the dry operation indicates an operation in which the bathroom is ventilated while heating, and the running cost is higher than the ventilation operation in which only the outside air is taken in.

  Japanese Patent Application Laid-Open No. 2004-156889 (Patent Document 2) discloses a bathroom heating / drying apparatus equipped with a mist sauna device, and automatically performs a bathroom drying operation after the mist operation is completed. Is set to be. It should be noted that the operation time of the bathroom drying operation is changed according to the season determined based on the temperature in the bathroom before bathing. For example, if the temperature is determined to be high in summer, the drying operation time is set short. However, if it is determined that the temperature is low and it is difficult to dry, the drying time can be set longer.

In these inventions, even if the user forgets to perform the operation of drying the bathroom after bathing, the drying operation can be automatically activated, and the generation of mold in the bathroom can be reliably prevented.
JP 2002-168488 A JP 2004-156889 A JP-A-2005-37110

  However, in the thing of the said patent document 1, it is not specified which ventilation or drying or heating operation operates automatically, and in the bathroom ventilation drying apparatus like patent document 2, drying operation is performed automatically. Since it starts, there is a problem that the user cannot select arbitrarily, and a dry operation with a high running cost is automatically executed even when the ventilation operation is sufficient seasonally.

  Also, in the method of determining the operation time by determining the season based on the temperature in the bathroom before bathing, for example, in the winter, when bathing after drying clothes in the bathroom, the temperature in the bathroom before bathing is high. Therefore, the determination means misidentifies as “summer” and malfunctions.

As disclosed in Japanese Patent Application Laid-Open No. 2005-37110 (Patent Document 3), it is possible to reliably recognize an environment such as the season of operation and the temperature and humidity of the day and automatically operate with an optimum drying capacity. There are things. In this case, by providing a temperature sensor and a humidity sensor in a room different from the bathroom, for example, a bathroom, it is possible to detect appropriate temperature and humidity information regardless of whether or not the bathroom is used.
However, in this case, a construction for providing a temperature sensor and a humidity sensor in a separate room from the bathroom has to be performed, which is laborious and expensive.

The present invention has been made in view of the above points, and is a drying system that is installed in a bathroom and ventilates while heating the bathroom by performing ventilation operation or ventilation operation and heating operation in which outside air is taken into the bathroom at the same time. An object of the present invention is to make it possible to reliably and easily prevent the generation of mold in a bathroom while suppressing running costs in a bathroom ventilation drying apparatus that operates.

[Invention of Claim 1]
The invention according to claim 1 for solving the above problem is
A temperature sensor, a season determination means for determining a season from the temperature detected by the temperature sensor, a humidity sensor for detecting humidity in the bathroom, and the magnitude of temporal change in the humidity detected by the humidity sensor. Calculation means for calculating and switching means for switching between the ventilation operation and the drying operation are mounted,
When it is determined that summer is detected by the season determination means from the temperature detected by the temperature sensor, ventilation operation is performed,
When it is determined that it is other than summer by the season determination means from the temperature detected by the temperature sensor, a drying operation is performed,
The humidity detected by the humidity sensor at the time when the magnitude of the temporal change calculated by the calculating means becomes equal to or less than a reference value after the season determining means determines summer and starts the ventilation operation. When it is higher than a predetermined value, it is switched from the ventilation operation to the dry operation by the switching means, and when the detected humidity is lower than the predetermined value, the ventilation operation is terminated,
The magnitude of the temporal change calculated by the calculating means after the season determining means determines that it is other than summer and starts the dry operation, or after it is determined summer and after switching from the ventilation operation to the dry operation. The drying operation is terminated when the value becomes below the reference value.
According to the present invention , for example, when the temperature detected by the temperature sensor is equal to or higher than a predetermined set temperature, the season is determined to be “summer”, which is sufficient for ventilation to dry the interior of the bathroom, by the season determination means. It is, if less than a predetermined set temperature, the season determining means, season Ru is determined as "non-summer". When the season is determined to be “summer” , ventilation operation is automatically performed after bathing by the output from the season determination means, and the interior of the bathroom is dried by ventilation. However, in the ventilation operation, since the outside air is taken into the bathroom, for example, in the rainy season when the humidity of the outside air is about 90%, the bathroom cannot be dried only by the ventilation operation.

Therefore, simultaneously with the ventilation operation, the humidity in the bathroom is detected by the humidity sensor, and the magnitude of the temporal change in humidity (for example, the amount of decrease in humidity per unit time) is calculated by the calculation means. When the value becomes equal to or lower than the reference value, it is determined that the humidity does not decrease any more. At this time, the humidity in the bathroom is detected again by the humidity sensor. If the humidity at this time is higher than a predetermined value (for example, 70% relative humidity said that mold does not propagate), it is determined as “rainy season” by the season determination means, and ventilation operation is performed by the switching means. From the above, the operation is automatically switched to the dry operation in which ventilation and heating are performed, and the ventilation operation is terminated when the detected humidity is equal to or lower than a predetermined value .
In addition, when the season is determined to be “other than summer”, the drying operation is started, and when the magnitude of the temporal change calculated by the calculation means is below a reference value, the drying operation is ended. The In addition, after it is determined as “rainy season” and the operation is switched to the drying operation, the drying operation is also ended when the magnitude of the temporal change calculated by the calculation means becomes equal to or less than a reference value.

[Invention of Claim 2]
The bathroom ventilation drying apparatus according to claim 1, wherein the bathroom is mounted together with a mist sauna device that sprays hot and cold water in a mist form, and the temperature sensor is provided in a water supply pipe connected to the mist sauna device. In general, the mist sauna device is supplied with hot water from a heat source device installed outdoors through a circulation heating circuit, and at the same time, separately from the circulation heating circuit, the mist sauna device is used for mist. A water supply pipe is provided, and the downstream end of the water supply pipe communicates with the mist spraying section of the mist sauna device. The temperature sensor is provided in the water supply pipe and detects the water temperature. That is, the temperature of the tap water in the water supply pipe becomes a criterion for judging the season by the season judging means. If the temperature of the tap water is higher than the predetermined value, it is judged as summer by the season judging means, and the ventilation operation is performed. Is done. The hot water circulating in the circulation heating circuit is supplied to the heat exchanger as a heat medium, and the water in the water supply pipe is heated via the heat exchanger at a downstream side of the location where the temperature sensor is installed. Therefore, warm water can be sprayed from the mist spraying part to the bathroom.

The present invention has the following specific effects.
In the invention according to claim 1, when the summer determination is made by the season determination means from the temperature detected by the temperature sensor, the ventilation operation is automatically activated, so the ventilation operation and the heating operation are executed simultaneously. In addition to the energy saving effect compared to the dry operation, the running cost is reduced. In fact, in the summer when moisture tends to evaporate at high temperatures, it is possible to dry the bathroom sufficiently only by ventilation operation, but during the rainy season, the humidity in the bathroom does not decrease even if the detection temperature is high. Can not dry the bathroom. Therefore, the condition of “rainy season” can be determined by the seasonal determination means from the humidity detected by the humidity sensor during the ventilation operation, and when it is determined as “rainy season”, the operation can be switched from the ventilation operation to the drying operation. I made it. Thereby, even in the rainy season, the bathroom can be surely dried, and it can be set in an environment in which mold fungi do not propagate all year round.

  In the invention according to claim 2, the temperature sensor is provided in a water supply pipe that is not affected by the indoor environment without being provided in a bathroom in which room temperature is likely to vary due to bathroom heating, clothes drying, etc. Since the season is determined by the temperature of the season, the season determination by the season determination means can be performed reliably, and misidentification of the season determination can be prevented.

The best mode for carrying out the present invention will be described below with reference to the accompanying drawings.
FIG. 1 is a schematic diagram showing a configuration of a wall-mounted bathroom heating dryer (20) provided with a bathroom ventilation drying apparatus according to an embodiment of the present invention, and FIG. FIG. 3 is a flowchart showing the processing contents of the ventilation / drying operation of the bathroom ventilation drying apparatus according to the first embodiment of the present invention.

  The bathroom ventilation drying apparatus according to the embodiment of the present invention has functions of ventilation, drying, and heating, and is incorporated in the bathroom heating dryer (20) equipped with the mist sauna apparatus (2). The bathroom heater / dryer (20) is used by being attached to the wall surface of the bathroom (40) as shown in FIG.

Each function installed in the bathroom heater / dryer (20) is controlled by a control command from the control unit (10) provided in the heat source unit (1) installed outdoors.
In addition to the control unit (10), the heat source unit (1) includes a heat exchanger (11), a gas burner (12), a water supply pipe (13), a hot water pipe (14), etc. In (11), the tap water passing through the water supply pipe (13) is heated by the combustion of the gas burner (12), and hot water is sent out to the hot water supply pipe (14). The hot water supply pipe (14) includes a hot water supply pipe (16) communicating with the kitchen faucet (15) and a mist pipe connected to the mist nozzle (22) provided in the mist sauna device (2). (21) and hot water can be discharged from the faucet (15) and / or the mist nozzle (22) as needed.

The water supply pipe (13) supplies tap water to the heat exchanger (11), and a water amount sensor (30) and a temperature sensor (3) are provided in the water supply pipe (13).
The water volume sensor (30) detects the presence or amount of water passing through the water supply pipe (13), and the temperature sensor (3), as will be described later, from the start of operation of the mist sauna device (2). It detects the temperature of tap water in the water supply pipe (13) when a certain time has elapsed.

  In addition, a mixing valve (17) is provided upstream of the branch point from the hot water supply pipe (14) in the mist pipe (21) and the hot water supply pipe (16) through the heat exchanger (11). The temperature of the hot water supplied to the mist pipe (21) and the hot water supply pipe (16) is adjusted by mixing hot water in the heated hot water supply pipe (14) and tap water supplied from the water supply pipe (13). Allows adjustment. The hot water supply pipe (16) and the mist pipe (21) are respectively provided with hot water temperature sensors (T1) and (T2) for detecting the temperature of hot water, and the mist pipe (21) is provided with a mist An on-off valve (18) that opens and closes the sauna device (2) is connected to a bypass circuit (16a) leading to the hot water supply pipe (16) by a flow rate adjustment valve (16) that adjusts the amount of tap water from the water supply pipe (13). 19) is provided.

  The temperature detected by the temperature sensor (3) for detecting the temperature of the tap water and the hot water temperature sensor (T1) (T2) is sent to the control unit (10), and the bathroom heating and drying is performed according to a control command from the control unit (10). The machine (20), the mixing valve (17), the on-off valve (18), the flow rate adjusting valve (19) and the like are controlled.

In addition, the control unit (10) includes a season determination means (31) for determining the season from the temperature of tap water in the water supply pipe (13) detected by the temperature sensor (3), and a bathroom heating dryer (20). Calculating means (32) for calculating the magnitude of the temporal change in relative humidity in the bathroom detected by the humidity sensor (23) provided in the unit, specifically, the amount of decrease in relative humidity per unit time, Further, switching means (33) for switching between the ventilation operation and the drying operation after the mist sauna operation is provided.
In the embodiment of the present invention, the relative humidity in the bathroom (40) is detected by the humidity sensor (23), but a humidity sensor for detecting the absolute humidity in the bathroom is provided, and the absolute humidity per unit time is provided. You may make it switch ventilation operation and dry operation by the reduction | decrease amount of.

  In the bathroom heater / dryer (20) of this embodiment, when a ventilation operation is executed, a fan (not shown) is activated to take outside air into the bathroom (40). When the drying operation or the heating operation is executed, the air heated by the circulation heating circuit (not shown) provided separately from the mist pipe (21) is transferred from the bathroom heating dryer (20) into the bathroom (40). The temperature in the bathroom (40) rises by ejecting. Further, when the mist sauna device (2) is activated, hot water in the mist pipe (21) set to a predetermined temperature is sprayed as mist from the mist nozzle (22) into the bathroom (40).

  In particular, in the bathroom heating dryer (20) of this embodiment, after a predetermined time has elapsed after the operation of the mist sauna device (2), it is determined that the bathing has ended, and the ventilation or drying operation is automatically activated. Is set. Whether the ventilation operation or the drying operation is started is automatically selected depending on the season and the degree of air drying.

  As a criterion for judging the end of bathing, in addition to measuring the passage of time from the end of operation of the mist sauna device (2) as described above, the inside of the bathroom is detected by a bathroom temperature sensor separately provided in the bathroom. If there are multiple conditions such as a decrease in temperature, a rate of decrease in room temperature over a certain period of time, and whether or not a human body is detected in the bathroom by a human body sensor (not shown), the end of bathing can be determined. Become more certain.

  In addition, when the operation of the mist sauna device (2) is executed, the temperature sensor (3) causes the water supply pipe (13) to pass through a certain time after the mist spraying is started from the mist nozzle (22). The tap water temperature (T) is detected and stored.

  Then, when the operation of the mist sauna device (2) is finished, and it is determined that the bathing is finished, for example, a predetermined set time has passed, it is detected and stored by the temperature sensor (3). When the temperature of the tap water is sent to the control unit (10) and the detected temperature is a set value (for example, 25 ° C. or more), the season is determined to be “summer” by the season determination means (31). The

  In this embodiment, since the temperature of tap water is adopted as one of the seasonal determination criteria, it is not affected by bathroom heating or bathroom clothing drying like the temperature in the bathroom. Therefore, it is possible to perform the season determination more reliably without causing a season misperception than in the case where the temperature in the bathroom is used as a season determination criterion.

  In the summer, since the saturated water vapor pressure is high and moisture easily evaporates, the inside of the bathroom (40) can be sufficiently dried only by the ventilation operation. Therefore, when the season is determined by the season determination means (31) as “summer”, the ventilation operation in the bathroom heater / dryer (20) is activated.

During the ventilation operation, the humidity sensor (23) detects the relative humidity in the bathroom (40), and the calculation means (32) calculates the amount of decrease in relative humidity per unit time. As shown in the graph of FIG. 2, the amount of decrease in relative humidity per unit time indicates the amount of decrease in relative humidity (ΔRH) during a unit time (for example, 1 minute). When it is detected that the amount (ΔRH) is below a certain reference value (X: for example, 0.1%), the humidity sensor (23) detects the relative humidity in the bathroom.
Note that the decrease in relative humidity per unit time is below the reference value (X), so it can be understood that there is almost no further decrease in relative humidity, and outdoor relative humidity is detected. It will be equivalent to the state.

If the relative humidity detected by the humidity sensor (23) at that time is 70% or less, it is determined that there is no rainy season, and at this time, mold does not propagate in the bathroom (40). It is determined that the air has been dried to the extent that the ventilation operation is completed.
As described above, in the summer, the bathroom can be sufficiently dried only by the ventilation operation, so that there is an energy saving effect and the running cost is reduced.

  However, the relative humidity at the time when the decrease amount of the relative humidity per unit time becomes equal to or less than the reference value (X) even when the season determination means (31) determines “summer” and the ventilation operation is executed. If it is higher than 70%, it is recognized that the environment is still prone to mold, and further drying is required. In this case, the season determination means (31) corrects the season from “summer” to “rainy season”, and accordingly, the switching means (33) performs drying while heating the bathroom from the ventilation operation. Switch to driving.

Then, during the drying operation, again, the calculating means (32) calculates the amount of decrease in relative humidity per unit time, and when it is detected that the value is equal to or less than the reference value (X), more than that is calculated. The drying operation is terminated assuming that the humidity cannot be lowered.
In addition, only dry operation is performed in seasons other than summer.
As described above, since the ventilation operation or the drying operation is automatically selected and executed depending on the season, mold fungi propagate in the bathroom (4) after the mist sauna operation at a lower running cost. It can be surely dried until it becomes difficult environment.

The operation control of the ventilation drying apparatus according to the embodiment of the present invention will be described based on the flowchart of FIG.
First, when the mist sauna device (2) is activated in step S1 and mist is sprayed, it is determined in step S2 whether a predetermined set time (for example, 3 minutes) has elapsed since the start of mist spraying. Be counted. At the time when the set time has passed, in the next step 3, the water temperature (T) in the water supply pipe (13) by the temperature sensor (3) is detected and stored.

When it is detected in step S4 that the operation of the mist sauna device (2) has been completed, it is counted in step S5 whether or not a predetermined set time (for example, 3 minutes) has elapsed since the completion of the mist sauna operation. The When it is detected that the set time has elapsed, it is determined in the next step S6 that bathing has ended.
In step S5, in addition to determining whether or not the set time has elapsed since the mist sauna operation has ended, other factors such as the rate of decrease in the temperature in the bathroom and the presence / absence of human body detection by the human body detection sensor are also described. From the condition, it is preferable to set to advance to step S6.

  If it is determined in step S6 that bathing is completed, it is determined in step S7 whether or not the water temperature (T) stored in step S3 is 25 ° C or higher. If the water temperature (T) is 25 ° C or higher, The season determination means (31) determines that the season is “summer” and proceeds to step S8 to start the ventilation operation.

  After the start of the ventilation operation, the amount of decrease per unit time (for example, 1 minute) of the relative humidity detected by the humidity sensor (23) provided in the bathroom heater / dryer (20) in the next step of S9 ( Whether or not (ΔRH) is equal to or less than a reference value (X: 0.1%, for example) is calculated by the calculation means (32), and it is determined that the reduction amount (ΔRH) is equal to or less than the reference value (X). In the next step S10, the humidity sensor (23) detects the relative humidity (RH) in the bathroom. When it is detected that the value is 70% or less, it is determined that the bathroom (40) is in an environment in which mold does not occur, and the process proceeds to step S11 and the ventilation operation is terminated.

The above is a flow of control of the ventilating and drying apparatus when the season determination means (31) determines that the season is “summer” and is actually a midsummer when the relative humidity is low and moisture easily evaporates. It is.
In the step of S7, when the water temperature (T) in the water supply pipe (13) is lower than 25 ° C., it is determined as “other than summer” by the season determination means (31). In this case, the process proceeds from step S7 to step S12, and the drying operation is started.

  Even if the water temperature (T) is 25 ° C. or higher in the step S7 and the season is determined to be “summer” by the season determination means (31), the relative humidity (RH) in the bathroom is determined in the step S10. Is determined to be higher than 70%, the season is corrected from “summer” to “rainy season”, the process proceeds from step S10 to step S12, and is switched from the ventilation operation by the switching means (33). Switch to driving.

In step S12, the drying operation is started. Thereafter, in step S13, the amount of decrease in relative humidity (ΔRH) per unit time (for example, 1 minute) is the reference value (X: , 0.1%) or less is calculated by the calculation means (32), and the decrease (ΔRH) is less than the reference value (X), that is, it is determined that the humidity will not drop any more In step S14, the drying operation ends.
Thus, in the case of the embodiment of the present invention, in the summer when the temperature is high and it is easy to dry, ventilation operation is automatically performed instead of the drying operation. Will also be cheaper. In the rainy season when the temperature is high and the relative humidity is high, the ventilation operation can be switched to the drying operation, and the bathroom can be reliably dried. Therefore, it is possible to set the bathroom in an environment where mold does not easily propagate throughout the year.

FIG. 4: is a flowchart figure which shows the processing content of the ventilation / drying operation of the bathroom ventilation drying apparatus bathroom of the 2nd embodiment of this invention.
In this embodiment, the process from the start to the season determination in step S7 is the same as the flowchart in FIG. 2. In step S7, the water temperature (T) is lower than 25 ° C. and the season is “other than summer”. If it is determined, or in the season determination in step S7, the water temperature (T) is 25 ° C. or more and the season is determined to be “summer”, but the relative humidity (RH) in the bathroom is determined in step S10. If it is determined that the rainy season is higher than 70%, the process proceeds to step S12 and the drying operation is started.

  Then, in the next step of S12a, the elapsed time from the start of the drying operation is counted, and when a certain time has elapsed from the start of the drying operation, the process proceeds to the step of S13, and similarly to the step of S9, per unit time The calculation means (32) calculates whether or not the decrease amount (ΔRH) of the relative humidity is equal to or less than the reference value (X) .If the decrease amount (ΔRH) is higher than the reference value (X), that is, If it is determined that the humidity may still decrease, the process proceeds to step S15, and the operation is switched from the drying operation to the ventilation operation by the control of the switching means (33).

  Then, the elapsed time from the start of the ventilation operation is counted in the step of S16, and when a certain time has elapsed from the start of the ventilation operation, the process returns to the step of S12 and switches from the ventilation operation to the dry operation again.

Thereafter, the process proceeds to step S13 through step S12a. When the amount of decrease in relative humidity (ΔRH) per unit time becomes equal to or less than the reference value (X), the drying operation is performed in the next step S14. Ends.
In this case, when it is determined as “rainy season” in step S10, the switching means (33) switches the ventilation operation to the drying operation, and the drying operation is operated for a certain period of time. Also, when the season is determined to be “other than summer” in step S7, the drying operation operates for a certain period of time.

And after a certain time has elapsed from the start of the drying operation, the relative humidity in the bathroom is calculated again, and if the amount of decrease in relative humidity per unit time is still higher than the predetermined value, the humidity may still decrease, Without ending the drying operation in step S14, the process temporarily shifts to step S15 to switch from the drying operation to the ventilation operation to ventilate the bathroom for a certain period of time.
The ventilation operation alone is easily affected by the humidity of the outside air, and in particular during the rainy season when the outside air humidity is high, the humidity in the bathroom is unlikely to decrease.

As described above, in step S13, it is determined that the amount of decrease in relative humidity per unit time (ΔRH) is equal to or less than the reference value (X), that is, no increase in relative humidity is observed after a certain period of time. Until it is done, the switching between the drying operation and the ventilation operation is repeated.
As described above, in the bathroom ventilation drying apparatus according to the second embodiment, only the drying operation is continuously executed until the decrease amount (ΔRH) of the relative humidity per unit time becomes equal to or less than the reference value (X). Instead, since it is set to switch between the ventilation operation and the drying operation every unit time, the humidity in the bathroom can be kept lower at a lower running cost.
In the above embodiments, the season determination means (31) uses the temperature of the tap water instead of the temperature in the bathroom as a standard for determining the season. The season can be determined almost accurately without being affected.

  Moreover, although the bathroom ventilation drying apparatus of said each embodiment was comprised in the bathroom heating dryer installed in the wall surface of the bathroom, it may be equipped in the bathroom heating dryer of the form installed in a ceiling. Needless to say, an electric bathroom heater / dryer may be provided.

The schematic diagram which shows the structure of the wall surface installation type bathroom heating dryer which comprised the bathroom ventilation drying apparatus of embodiment of this invention. The graph which shows the time-dependent change of the relative humidity in a bathroom. The flowchart figure which shows the processing content of the ventilation / drying operation of the bathroom of the bathroom ventilation drying apparatus of 1st Embodiment of this invention. The flowchart figure which shows the processing content of the ventilation / drying operation of the bathroom of the bathroom ventilation drying apparatus of 2nd Embodiment of this invention.

Explanation of symbols

(23) ・ ・ ・ ・ ・ Humidity sensor
(3) ... Temperature sensor
(40) ・ ・ ・ ・ ・ Bathroom

Claims (2)

In a bathroom ventilation drying apparatus that is installed in a bathroom and performs a drying operation in which the outside air is taken into the bathroom or the ventilation operation and the heating operation are performed simultaneously to perform ventilation operation while heating the bathroom ,
A temperature sensor, a season determination means for determining a season from the temperature detected by the temperature sensor, a humidity sensor for detecting humidity in the bathroom, and the magnitude of temporal change in the humidity detected by the humidity sensor. Calculation means for calculating and switching means for switching between the ventilation operation and the drying operation are mounted,
When it is determined that summer is detected by the season determination means from the temperature detected by the temperature sensor, ventilation operation is performed,
When it is determined that it is other than summer by the season determination means from the temperature detected by the temperature sensor, a drying operation is performed,
The humidity detected by the humidity sensor at the time when the magnitude of the temporal change calculated by the calculating means becomes equal to or less than a reference value after the season determining means determines summer and starts the ventilation operation. When it is higher than a predetermined value, it is switched from the ventilation operation to the dry operation by the switching means, and when the detected humidity is equal to or lower than the predetermined value, the ventilation operation is terminated.
The magnitude of the temporal change calculated by the calculating means after the season determining means determines that it is other than summer and starts the dry operation, or after it is determined summer and after switching from the ventilation operation to the dry operation. The bathroom ventilation drying device is characterized in that the drying operation is terminated when the temperature becomes below the reference value.   The bathroom ventilation drying apparatus according to claim 1, wherein the bathroom is mounted together with a mist sauna device that sprays hot water in a mist form in the bathroom, and the temperature sensor is provided in a water supply pipe connected to the mist sauna device. A bathroom ventilation drying device characterized by that.

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