JP3734313B2 - Bathroom Dryer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a circulation ventilation means for sucking air in a bathroom and circulating the suction air to the bathroom, an exhaust ventilation means for exhausting the bathroom air to the outside of the bathroom, and the circulation ventilation means. The heating means for heating the ventilation air to be ventilated by the bathroom, the temperature detection means for detecting the temperature of the bathroom, the ventilation operation of the circulation ventilation means and the exhaust ventilation means, and the temperature detection The present invention relates to a bathroom dryer provided with control means for performing a drying operation for controlling the heating operation of the heating means so that the temperature of the bathroom falls within a set range based on detection information of the means.
[0002]
[Prior art]
The bathroom dryer having the above configuration causes the air heated by the heating means to pass through the bathroom, for example, promotes evaporation of moisture from an object to be dried such as clothes hung in the bathroom, and removes humid air from the bathroom. The object to be dried can be efficiently dried by ventilating outside.
[0003]
By the way, in the above-mentioned bathroom dryer, conventionally, for example, as disclosed in Japanese Patent Application Laid-Open No. 7-24194, humidity detection means for detecting the humidity of the bathroom is provided, and the humidity detected by the humidity detection means is higher than the set humidity. When the amount of ventilation of the exhaust ventilation means is controlled to be large, and when the detected humidity is below the set humidity, the ventilation volume of the exhaust ventilation means is controlled to be small. Since it becomes lower, it is estimated that the drying process has reached the latter period based on the humidity of the bathroom, and when the drying process has not reached the latter period, the ventilation rate is increased and drying is efficiently promoted. However, by controlling the amount of ventilation to be small, there is one that can reduce the power consumption of the ventilation means for exhaust and reduce the running cost while avoiding an increase in the time required for the drying operation.
[0004]
[Problems to be solved by the invention]
In the above-mentioned conventional configuration, it is possible to estimate the drying process at a later stage by directly detecting the humidity of the bathroom, but it is necessary to provide a humidity detecting means separately, and the number of parts is increased. In addition to the increase in the number of connection wirings, the configuration is complicated and the cost is high. Moreover, the humidity detecting means that can detect the humidity of the bathroom with high accuracy has a disadvantage in that the configuration is complicated and the parts cost is high, and the cost of the entire bathroom dryer is increased.
[0005]
By the way, if the temperature of the bathroom rises excessively for a long time, it is inconvenient that each part in the bathroom, for example, a seal member or wall material, dries and cracks occur. Since it is not preferable, in the bathroom dryer configured as described above, the operation of the heating unit is controlled so that the detection value of the temperature detection unit is maintained in the set region, but immediately after the start of the drying operation, The temperature of the bathroom is in a low state, and as the drying operation is executed, the temperature of the bathroom gradually increases with the heating operation of the heating means.
[0006]
The object of the present invention is to focus on the fact that the temperature of the bathroom rises with the execution of the drying operation, while avoiding an increase in the time required for the drying time and reducing the running cost, It is in the point which provides the bathroom dryer which can reduce the cost of an apparatus by simplification of this.
[0007]
[Means for Solving the Problems]
According to the characteristic configuration of the first aspect, the control means controls the ventilation operation of the circulation ventilation means and the exhaust ventilation means in the drying operation, and based on the detection information of the temperature detection means. Then, the heating operation of the heating means is controlled so that the temperature of the bathroom falls within a set range. Then, the control means changes and adjusts the ventilation amount of the exhaust ventilation means based on the detection information of the temperature detection means when performing the drying operation.
[0008]
That is, immediately after the drying operation is started, the temperature of the bathroom is in a low state, and as the drying operation is executed, the temperature of the bathroom increases due to the heating operation by the heating means. As the drying operation is executed, the amount of water evaporated from the object to be dried also changes. Thus, the temperature increase associated with the execution of the drying operation is detected by the temperature detecting means. Based on the detected information, the ventilation rate of the exhaust ventilation means is changed and adjusted so that the ventilation rate is suitable for the drying condition such as the evaporation rate.
[0009]
As a result, it is possible to suppress the power consumption of the exhaust ventilation means in a state where there is no disadvantage such as extending the drying time, and the detection information of the existing temperature detection means for adjusting the temperature of the bathroom. Therefore, it is not necessary to provide a special detecting means for detecting the drying condition such as a humidity detecting means, and the configuration can be simplified and the cost of the bathroom dryer can be reduced.
[0010]
further, Claim 1 According to the characteristic configuration described above, the control means increases the ventilation amount of the exhaust ventilation means when the detection value of the temperature detection means is lower than a set temperature, and the detection value of the temperature detection means is the set value. When the temperature is higher than the temperature, the ventilation amount of the exhaust ventilation means is controlled to be small.
[0011]
That is, immediately after the drying operation is started, the temperature of the bathroom is lower than the set temperature, and a large amount of moisture is contained in the object to be dried. For example, the ventilation of the exhaust ventilation means By increasing the amount, it is possible to efficiently promote drying by discharging a large amount of water vapor generated outside the bathroom, and to shorten the drying time as much as possible.
Also, as the drying operation is executed, the temperature of the bathroom will rise due to the heating operation by the heating means, but when the latter reaches the latter stage of the drying process where the temperature of the bathroom has risen above the set temperature, Since the evaporation of moisture from the material to be dried is reduced, there is not much effect to promote drying even if a large amount of bathroom air is exhausted outside. By reducing the value, wasteful power consumption can be suppressed.
[0012]
Claim 2 According to the characteristic configuration described above, the control unit is configured to change and adjust the ventilation amount of the circulation ventilation unit based on detection information of the temperature detection unit.
[0013]
That is, as described above, the temperature rise associated with the execution of the drying operation is detected by the temperature detection means, and based on the detection information, the circulation ventilation is performed so that the ventilation amount is suitable for the drying state of the object to be dried. The ventilation amount of the means is changed and adjusted.
For example, at the beginning of the drying process in which a large amount of moisture is contained in the object to be dried, the drying time is increased by increasing the ventilation rate of the circulation ventilation means and applying a large amount of hot air to accelerate the evaporation of moisture. In the middle of the drying process where the surface of the object to be dried is dry and the inside is not dry, there is little effect of promoting drying even when a large amount of warm air is applied. Therefore, the power consumption of the circulation ventilation means can be suppressed by reducing the ventilation rate.
[0014]
Claim 3 According to the characteristic configuration described in the above, the control unit is configured to reduce the amount of increase in the bathroom temperature during the set unit time with the execution of the drying operation based on the detection information of the temperature detection unit. If so, the set temperature is set to a high temperature, and if the amount of temperature increase is large, the set temperature is set to a low temperature.
[0015]
For example, if the processing amount (drying load) of an object to be dried is large, the time required for the drying process becomes long and the amount of increase in the temperature of the bathroom during the set unit time elapses, that is, heating. It is considered that the rate of temperature increase accompanying the heating operation by the means becomes small. Therefore, when the rate of temperature increase is small, by setting the set temperature to a high temperature, the drying operation in which the ventilation rate of the exhaust ventilation means is set to a large value is performed for a sufficiently long time. It becomes possible to effectively exhaust the evaporated water.
[0016]
Further, if the amount of the object to be dried is small, it is considered that the time required for the drying process can be shortened and the rate of temperature increase is increased. Therefore, when the temperature increase rate is large as described above, by setting the set temperature to a low temperature, the time during which the ventilation rate of the exhaust ventilation means is large can be shortened and wasteful power consumption can be minimized. .
[0017]
As described above, the operation state is automatically switched to an appropriate operation state according to the state of the drying load, and further, the drying efficiency can be improved and the power consumption can be suppressed, and the convenience in use can be improved. .
[0018]
Claim 4 According to the characteristic configuration described in the above, the control unit automatically stops the drying operation when the set time set by the operation time setting unit elapses according to the drying condition after starting the drying operation. When the set time is long, the set temperature is set to a high temperature, and when the set time is short, the set temperature is set to a low temperature.
[0019]
Accordingly, when performing the drying operation, an appropriate setting time for performing the drying operation should be set in advance by the operation time setting means according to the drying condition, for example, the drying load such as the processing amount of the object to be dried. Therefore, it is possible to appropriately perform drying in a state where there is no disadvantage that consumes useless power.
As a result, when the set time is long, it can be estimated that the drying load is large. Therefore, in this case, by setting the set temperature to a high temperature, the drying operation in which the ventilation rate of the exhaust ventilation means is set to a large value is performed for a sufficiently long time, so that a large amount of moisture is effectively exhausted. It will be possible.
Further, when the set time is short, it can be estimated that the drying load is small. In this case, by setting the set temperature to a low temperature, the time during which the ventilation rate of the exhaust ventilation means is large can be obtained. It can be shortened to minimize wasteful power consumption.
[0020]
In this way, it automatically switches to an appropriate operating state according to the drying conditions such as the drying load, and further, it is possible to improve drying efficiency and power consumption, and to improve convenience in use. It will be a thing.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a bathroom dryer according to the present invention will be described with reference to the drawings.
As shown in FIG. 3, the bathroom dryer YK is installed on a ceiling part of the bathroom A and is suspended and fixed in a fixed part (slab surface) of a building (not shown). _O It is installed in a state of facing the bathroom A through an opening formed on the ceiling surface of the bathroom.
As shown in FIG. 1, a circulation ventilation path L <b> 1 through which the air in the bathroom A is circulated is formed inside the casing 1 whose lower side is opened, and the casing 1 is opened downward. An intake portion 3 and a blowing portion 4 are formed on the grill plate 2 that covers the portion. The circulation ventilation for sucking the air in the bathroom A from the intake section 3 into the ventilation path into the circulation ventilation path L1 and circulating the suction air through the circulation ventilation path L1 to ventilate the bathroom A from the blowing section 4 A circulation fan 5 as a means, a hot water circulation type heat exchanger 6 as a heating means for heating the air circulated by the circulation fan 5, the temperature of the circulation air before being heated by the heat exchanger 6, that is, Each of the thermistors 7 as temperature detecting means for detecting the temperature of the bathroom A is provided. Also, an exhaust fan 10 is provided as exhaust ventilation means for sucking a part of the air circulated by the circulation fan 5 through the exhaust opening 8 and exhausting the air through the exhaust duct 9 to the outside.
[0022]
The heat exchanger 6 is configured so that hot water having a predetermined temperature (80 ° C.) as a heat medium is circulated and supplied from the external heat source unit NT through the hot water supply path 11, and hot water is supplied to the hot water supply path 11. An intermittently operated thermal valve 12 is provided. The thermal valve 12 is configured to prevent noise and vibration from occurring due to a rapid flow rate change by gradually changing the hot water flow rate during intermittent operation of hot water. .
[0023]
The ventilation operation of the circulation fan 5 and the exhaust fan 10 is controlled, and the heating operation by the heat exchanger 6, specifically the thermal valve, based on the detection information of the thermistor 7 so that the temperature of the bathroom A falls within the set range. The control part H as a control means which performs the drying operation which controls 12 intermittent states, and the remote control operation part R which instruct | indicates driving information to this control part H are provided. The control unit H is configured using a microcomputer and is installed inside the casing 1.
[0024]
The remote control operation unit R is installed on the wall surface of the entrance of the bathroom A so that the user can operate it conveniently, and is connected to the control unit H via the communication line 13. As shown in FIG. 2, the remote control operation unit R commands a drying switch 14 for instructing a drying mode to the control unit H, a cool air switch 15 for instructing a cool air mode, a heating switch 16 for instructing a heating mode, and a ventilation mode. The ventilation switch 17 for performing the operation, the stop switch 18 for instructing the operation stop in each mode, and setting the timer time (an example of the set time) until the operation is automatically stopped after the operation is started in any mode. A time setting switch 19 as an operation time setting means, a timer display unit 20 for displaying a timer time, and the like are provided.
[0025]
Each of the circulation fan 5 and the exhaust fan 10 is configured to be able to switch the amount of air flow between two levels, large and small. Specifically, each fan is configured to be driven by an electric motor (not shown), and the controller H switches the applied voltage to each electric motor so that the fan rotation speed (air flow rate) is increased and decreased in two stages. It can be switched.
[0026]
Next, the control operation of the control unit H will be described.
When the cool air switch 15 is operated, the control unit H is set to the cool air mode and operates to ventilate the circulation fan 5 and the exhaust fan 10 with the air flow amount switched. In the cool breeze mode, for example, a feeling of cool breeze can be obtained by blowing air during bathing in summer. When the cool breeze switch 15 is operated, the timer time is set by the time setting switch 19, and when this timer time elapses after the operation is started, the circulation fan 5 is turned on. Stop the cool wind operation automatically. If the stop switch 18 is operated before the timer time elapses, the cool wind operation is terminated regardless of the timer time.
[0027]
When the ventilation switch 17 is operated, the control unit H is set to the ventilation mode and is operated in a state in which the ventilation amount of the exhaust fan 10 is switched to a large amount, and the air in the bathroom A is discharged to the outside. At that time, when the ventilation switch 17 is operated again, the ventilation rate of the exhaust fan 10 is switched to a small value. That is, the ventilation air flow rate can be selected in one of two levels.
Similarly, in this ventilation mode, the timer time is set by the time setting switch 19, and when this timer time has elapsed since the start of operation, the ventilation operation of the exhaust fan 10 is automatically stopped. End ventilation operation. If the stop switch 18 is operated before the timer time elapses, the ventilation operation is terminated regardless of the timer time.
[0028]
When the heating switch 16 is operated, the control unit H is set to the heating mode, opens the thermal valve 12 and circulates and supplies hot water to the heat exchanger 6, and the air flow rate is switched to a large amount. The circulation fan 5 is operated. Accordingly, the air in the bathroom A is heated by the heat exchanger 6 to increase the temperature, and the interior of the bathroom A is heated.
The controller H is configured to control the opening and closing of the thermal valve 12 so that the temperature of the bathroom A is maintained within the set region when the heating operation is being performed. That is, after the heating operation is started, the temperature of the bathroom A detected by the thermistor 7 is equal to the drying upper limit temperature t. _max (50 ° C) or higher, the thermal valve 12 is closed, and then the temperature of the bathroom A detected by the thermistor 7 is the lower limit drying temperature t. _min When the temperature drops below (40 ° C.), the operation of opening the thermal valve 12 is repeated to control the temperature of the bathroom A to be maintained within the set region.
[0029]
Next, the drying operation will be described. This drying operation is used when drying an object to be dried such as a laundry suspended in the bathroom A.
When the drying switch 14 is operated, the control unit H starts a drying operation. That is, the circulation fan 5 is operated, the exhaust fan 10 is operated, and the thermal valve 12 is opened. Then, the temperature in the bathroom A rises, the moisture contained in the laundry evaporates, and the air containing a large amount of moisture is discharged to the outside by the exhaust fan 10, thereby promoting the drying of the laundry. .
In this drying operation, the timer time t is set by the time setting switch 19 as in the above modes. _TM Is set, and this timer time t _TM After the elapse of time, the drying operation is automatically terminated. Timer time t _TM If the stop switch 18 is operated before the time elapses, the timer time t _TM Regardless of the dry operation.
Timer time t in this drying operation _TM Is set at an appropriate time according to the drying load such as the processing amount of the laundry.
[0030]
The control unit H is configured to change and adjust the air flow rate of the exhaust fan 10 and the air flow rate of the circulation fan 5 based on the detection information of the thermistor 7 during the drying operation. More specifically, the control unit H determines that the detected value of the thermistor 7 is the later-stage determination temperature T as the set temperature. _KO When the temperature is lower, the air flow rate of the exhaust fan 10 is increased, and the detected value of the thermistor 7 is the late discrimination temperature T _KO At this time, the air flow rate of the exhaust fan 10 is controlled to be small. Further, based on the detection information of the thermistor 7, if the amount of increase in the temperature of the bathroom A is small while the set unit time elapses, the late determination temperature T _KO Is set to a high temperature, and if the temperature rise is large, the late discrimination temperature T _KO Is set to a low temperature.
[0031]
In the initial stage of the drying process, since the laundry contains a large amount of moisture, the ventilation fan 5 increases the ventilation rate to apply a large amount of warm air to the laundry, and the exhaust fan 10 increases the ventilation rate. It is considered that drying can be effectively promoted by discharging the evaporated water to the outside.
Also, in the middle of the drying process, it is considered that the surface of the laundry is dry and the inside is not so dry, and the warm air passes through the surface of the laundry but does not pass through the interior. Even if the ventilation amount of the circulation fan 5 is increased, it is considered that there is not much effect of promoting drying. In the latter stage of the drying process, the amount of water evaporated from the laundry is small, and even if the ventilation rate of the exhaust fan 10 is increased, it is considered that there is not much effect of promoting drying.
[0032]
Then, in the initial stage of the drying process after the drying operation is started, the temperature of the bathroom A is the late determination temperature T. _KO The temperature of the bathroom A is in the later stage of the drying process as the drying operation is performed. _KO Will rise.
Therefore, the progress of the drying operation is determined based on the detection information of the thermistor 7, and in the initial stage of the drying process, the ventilation rate of the circulation fan 5 and the ventilation rate of the exhaust fan 10 are increased to effect drying. In the latter part of the drying process, the amount of air flow is switched to a small value to suppress wasteful power consumption.
[0033]
Further, when the amount of laundry processed is large and the drying load is large, the heat load is also large, and the temperature rise in the bathroom A due to the warm air heated by the heat exchanger 6 and circulated is considered to have a gentle gradient. When the amount of the object to be dried is small and the drying load is small, the heat load is small, and the temperature rise in the bathroom A due to warm air is considered to be steep. Therefore, the late determination temperature T is determined based on the detection information of the thermistor 7 after the start of the drying operation so as to determine the magnitude of the drying load as described above. _KO Is changed to an appropriate state and switched to an operation state according to the drying process status, so that drying can be performed efficiently and power consumption can be suppressed.
[0034]
FIG. 4 shows a timing chart of the drying operation when the drying load is large, and FIG. 5 shows a timing chart of the drying operation when the drying load is small. The control operation will be specifically described based on FIG. 4 and FIG.
When the drying switch 14 is operated and the controller H is instructed to start the drying operation, the thermal valve 12 is opened, and the circulation fan 5 and the exhaust fan 10 are ventilated with a large amount of ventilation. Thus, the temperature in the bathroom A rises due to the warm air heated by the heat exchanger 6. Therefore, the control unit H determines that the temperature rise is moderate if the temperature rise amount during the unit setting time of the detection value of the thermistor 7 after the start of the drying operation is smaller than the set amount, If the temperature rise amount is larger than the set amount, it is determined that the temperature rise is sudden. And if it discriminate | determines that a temperature rise is moderate, the said late stage discrimination temperature T _KO Is set to a high temperature (for example, 40 ° C.), and it is determined that the temperature rises suddenly, the late determination temperature T _KO Is set to a low temperature (eg 35 ° C.).
[0035]
When the drying load is large, as shown in FIG. 4, the temperature detected by the thermistor 7 after the start of the drying operation is the latter-stage determination temperature T. _KO Medium-term discrimination temperature T set to a lower temperature _TU If it becomes above, the ventilation volume of the circulation fan 5 will be switched from large to small.
The detected temperature is the medium-term discrimination temperature T _TU Even if this is the case, the operation time t _X Is the minimum ventilation time t ₁ If the time is shorter than the minimum ventilation time t ₁ After the elapse of time, the circulation fan 5 is switched to a small air flow rate. The operation time t _X Is the maximum ventilation time t ₂ Even if the temperature exceeds, the detected temperature remains at the medium-term discrimination temperature T _TU If not, the operation time t _X Is the maximum ventilation time t ₂ At this point, the circulation fan 5 is switched to a small air flow rate. Thus, even if the temperature of the bathroom A has already risen before the start of operation, the required operation time for the circulation fan 5 to be large regardless of the temperature condition is ensured. In the state where the window is opened by mistake, the disadvantage that the operation state with a large ventilation amount lasts unnecessarily long is avoided.
[0036]
Thereafter, the detected temperature of the thermistor 7 rises further, and the late discrimination temperature T _KO If it becomes (40 degreeC) or more, the ventilation volume of the exhaust fan 10 will be switched from large to small, and an exhaust ventilation volume will be made small. Operation time t _X Is the timer time t _TM Is reached, the thermal valve 12 is closed and the operations of the circulation fan 5 and the exhaust fan 10 are stopped, and the drying operation is terminated.
[0037]
When the drying load is small, as shown in FIG. 5, the temperature of the bathroom A suddenly rises, so that the temperature detected by the thermistor 7 becomes the medium-term determination temperature T after the drying operation is started. _TU Before the above, the operation time t _X Is the minimum ventilation time t ₁ After elapses, the air flow rate of the circulation fan 5 is switched from large to small.
Operation time t _X Is the minimum ventilation time t ₁ When the temperature of the thermistor 7 exceeds the intermediate temperature T _TU If the temperature is less than the detected temperature T, the air flow rate of the circulation fan 5 is not switched. _X Is the medium-term discrimination temperature T _TU At this point, control is performed so that the air flow rate of the circulation fan 5 is switched from large to small. The detected temperature T of the thermistor 7 _X Is the medium-term discrimination temperature T _TU Even if it is less than, operation time t _X Is the maximum ventilation time t ₂ When the temperature exceeds T, the detected temperature T _X Regardless, the air flow rate of the circulation fan 5 is switched from large to small.
[0038]
Thereafter, the detected temperature T of the thermistor 7 _X Is the late discrimination temperature T _KO If it becomes (35 degreeC) or more, the ventilation volume of the exhaust fan 10 will be switched from large to small, and an exhaust ventilation volume will be made small. Thus, when the drying load is small, the detected temperature T of the thermistor 7 _X Is the maximum drying temperature t _max At the above, the thermal valve 12 is closed and then the detected temperature T _X Is the minimum drying temperature t _min When the temperature drops to the lower limit, control is performed to open the thermal valve 12 and maintain the temperature of the bathroom A in the setting area for drying.
And operation time t _X Is the timer time t _TM Is reached, the thermal valve 12 is closed and the operations of the circulation fan 5 and the exhaust fan 10 are stopped, and the drying operation is terminated.
[0039]
[Another embodiment]
(1) In the above-described embodiment, the late-stage determination temperature depends on whether the temperature rise amount during the unit set time elapses in the bathroom temperature detected by the detected temperature of the thermistor exceeds or does not exceed the set amount. T _KO Is switched to a state where the temperature is set to a high temperature (40 ° C.) and a state where the temperature is set to a low temperature (35 ° C.). The lower discrimination temperature T is steplessly set so that the lower the temperature, the lower the temperature. _KO It is good also as a structure which changes and sets.
[0040]
(2) In the above embodiment, the late discrimination temperature T based on the amount of temperature rise in the bathroom _KO However, instead of such a configuration, the following configuration may be used.
That is, the timer time t in the drying operation _TM Is set to an appropriate time according to the drying load such as the processing amount of the laundry. _TM Is long, the drying load is considered to be large, and when it is short, the drying load is considered to be small. _TM Is long (see, for example, FIG. 4), the late discrimination temperature T _KO Is set to a high temperature and the timer time t _TM Is short (see, for example, FIG. 6), the late discrimination temperature T _KO May be set to a low temperature, and the late determination temperature may be changed and set based on the length of the timer time.
[0041]
Further, based on the detection information of the detecting means for detecting the outside air temperature, or the detection information of the temperature sensor immediately after the start of the drying operation (corresponding to the outside air temperature), when the outside air temperature is high, the temperature becomes high. Further, when the outside air temperature is low, the late discrimination temperature T is set so as to be low. _KO May be changed and adjusted.
[0042]
(3) In the above embodiment, the time when the circulation fan has a large ventilation amount is changed based on the detection information of the thermistor. However, such a change adjustment of the circulation fan may not be performed.
[0043]
(4) In the above embodiment, a hot water circulation type heat exchanger is used as the heating means. However, an electric heater or a combustion type heating means for burning and heating fuel such as gas or petroleum may be used.
[0044]
(5) In the above embodiment, the thermistor as the temperature detecting means is arranged inside the casing. However, the thermistor may be arranged inside the bathroom.
[0045]
(6) In the said embodiment, although it was set as the structure which can change and set drying operation time with a time setting switch, the structure which presets drying operation time to a fixed time may be sufficient.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram.
FIG. 2 is a front view of a remote control operation unit.
FIG. 3 is a perspective view showing an installation state.
FIG. 4 is a timing chart of the control operation in the drying operation.
FIG. 5 is a timing chart of the control operation in the drying operation.
FIG. 6 is a timing chart of a control operation in a drying operation in another embodiment.
[Explanation of symbols]
5 Ventilation means for circulation
6 Heating means
7 Temperature detection means
10 Ventilation means for exhaust
19 Operating time setting means
H Control means
T _KO Preset temperature
t _TM set time

Claims (4)

A ventilation means for circulating the air in the bathroom and circulating the sucked air through the bathroom;
An exhaust ventilation means for exhausting the air in the bathroom out of the bathroom;
Heating means for heating the ventilation air ventilated into the bathroom by the circulation ventilation means;
Temperature detecting means for detecting the temperature of the bathroom;
The ventilation operation of the circulation ventilation unit and the exhaust ventilation unit is controlled, and the heating operation of the heating unit is controlled based on the detection information of the temperature detection unit so that the temperature of the bathroom falls within a set range. A bathroom dryer provided with a control means for performing a drying operation,
The control means, when executing the drying operation, if the detected value of the temperature detection means is lower than a set temperature set below the lower limit temperature of the setting range, the ventilation amount of the exhaust ventilation means In general, when the detected value of the temperature detecting means is equal to or higher than the set temperature, the bathroom dryer is configured to control the ventilation rate of the exhaust ventilation means to be small . The bathroom dryer according to claim 1, wherein the control means is configured to change and adjust the ventilation amount of the circulation ventilation means based on detection information of the temperature detection means. The control means increases the set temperature based on the detection information of the temperature detection means if the amount of increase in the bathroom temperature is small while the set unit time elapses with the execution of the drying operation. The bathroom dryer according to claim 1 or 2 , wherein the temperature is set and the set temperature is set to a low temperature if the temperature rise is large . The control means is configured to automatically stop the drying operation when a set time set by the operation time setting means elapses according to the drying condition after starting the drying operation,
The bathroom drying according to claim 1 or 2 , wherein when the set time is long, the set temperature is set to a high temperature, and when the set time is short, the set temperature is set to a low temperature. Machine.

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