JP4258255B2 - Bathroom ventilation drying equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bathroom ventilation drying apparatus that is inserted into an indoor ceiling or wall opening and has at least one function such as heating, ventilation, drying, and cool air.
[0002]
[Prior art]
In general, a bathroom ventilating and drying apparatus has a suction port, an air outlet, and an exhaust port formed in the main body, and is driven to rotate by a motor in the main body, and the bathroom air sucked from the air inlet is directed toward the air outlet and the exhaust port. A fan for discharging is provided. A damper is provided on the downstream side of the fan, and this damper sends out bathroom air discharged from the fan to the outlet or the outlet. And it is supplied in a bathroom as circulating air from a blower outlet, and is discharged | emitted as exhaust air in external air via an exhaust port. In addition, a heater is provided at the air outlet, and the heater generates heat when energized and heats the air passing through the air outlet.
[0003]
Such bathroom ventilation drying devices usually have heating operation mode, ventilation operation mode, drying operation mode, and cool air operation mode, and each operation mode can be set arbitrarily by controlling the angle of the damper (For example, refer to Patent Document 1).
[0004]
In the heating operation mode, as shown in FIG. 10, the blower outlet 2 is opened by the damper 1 and the exhaust outlet 3 is closed, and all the bathroom air discharged from the fan (not shown) is blown out as indicated by the broken line arrows in the figure. It is sent to the second side and circulated in the bathroom while being heated by the heater 4. In the ventilation operation mode, as shown in FIG. 11, the blower outlet 2 is closed by the damper 1 and the exhaust outlet 3 is opened, and all the bathroom air discharged from the fan (not shown) is exhausted as indicated by the broken arrow in the figure. Send to side 3 and discharge to outside air outside building.
[0005]
In the dry operation mode, as shown in FIG. 12, the damper 1 is disposed at an intermediate position between the heating operation mode and the ventilation operation mode, and the bathroom air discharged from the fan (not shown) is blown as indicated by the broken line arrow in the figure. By splitting the air flow into the outlet 2 side and the exhaust port 3 side, part of the bathroom air is heated by the heater 4 and then circulated in the bathroom 12, and the bathroom air containing moisture is discharged to the outside. In this drying operation mode, bathroom air is diverted to the outlet 2 side and the exhaust port 3 side, which is called a diversion-type drying operation mode.
[0006]
Further, the damper 1 is not disposed at an intermediate position between the heating operation mode and the ventilation operation mode, and the state shown in FIG. 10 (heating operation mode) and the state shown in FIG. 11 (ventilation operation mode) are alternately repeated. A so-called intermittent ventilation drying operation mode in which the position of the damper 1 is switched and the bathroom air discharged from the fan is intermittently sent to the air outlet 2 side and the air outlet 3 side is also considered.
[0007]
In the cool air operation mode, the operation of the damper 1 is the same as in the heating operation mode, but cool air is circulated in the bathroom without energizing the heater 4.
[0008]
By the way, in the bathroom ventilation drying apparatus, the temperature in the bathroom may rise too much if the heater is energized during the drying operation mode.
[0009]
Therefore, the conventional bathroom ventilation drying device detects the temperature in the bathroom or the temperature of the air blown from the air outlet, and when the detected temperature exceeds a predetermined temperature, the energization to the heater is stopped, and the detected temperature Is provided with a safety function to resume energization of the heater when the temperature falls below a predetermined temperature.
[0010]
[Patent Document 1]
JP 7-171299 A
[0011]
[Problems to be solved by the invention]
However, in the conventional bathroom ventilation drying apparatus, in the drying operation mode, between the temperature at which energization to the heater is stopped by the temperature detected by the bathroom temperature sensor and the temperature at which the heater is energized, both in the diversion method and the intermittent ventilation method. Has a certain temperature difference to prevent chattering. For this reason, even if energization of the heater is stopped, a certain amount of time is required until the temperature in the bathroom falls to a predetermined temperature. In the case of the shunting drying mode, when the heater is de-energized, the damper remains in the middle position between the heating mode and the ventilation mode, so the amount of air discharged from the exhaust port into the outside air That is, there is not much ventilation in the bathroom, and it takes time for the temperature in the bathroom to drop to a predetermined temperature. As a result, there is a problem in that the state of simply waiting until the energization of the heater is resumed continues for a long time, resulting in a loss time when drying clothes and the like.
[0012]
In addition, even in the intermittent ventilation mode, when the heater is de-energized, the damper opens the air outlet and closes the air outlet, so that the air in the bathroom is not exhausted into the outside air. It simply circulates, and it takes time for the temperature in the bathroom to drop to a predetermined temperature. As a result, loss time occurs when clothes and the like are similarly dried.
[0013]
The subject of this invention is providing the bathroom ventilation drying apparatus which can suppress the loss time which arises at the time of drying operation to the minimum.
[0014]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 is characterized in that a suction port and a blow-out port are formed in a bathroom and an exhaust port is provided, and a suction port that is installed in the main unit. A fan for discharging bathroom air sucked in from the air outlet and the exhaust port, a driving means for rotationally driving the fan, provided on the downstream side of the fan, and the bathroom air discharged from the fan Damper that is sent out to the air outlet or sent out to the exhaust port, a heater that is provided in the air outlet, generates heat by energization, heats the air passing through the air outlet, and detects the temperature in the bathroom, Control means for stopping energization of the heater when the detected temperature is equal to or higher than a predetermined temperature, and the control means alternately transfers bathroom air discharged from a fan to the air outlet and the air outlet. Drying to send In the rotation mode, when the energization to the heater is stopped while the bathroom air is being sent to the air outlet side, the ventilation that sends the bathroom air discharged from the fan to the exhaust port by controlling the damper It is characterized by switching to the operation mode for a certain period of time.
[0015]
According to the above configuration, when the safety function is activated in the dry operation mode and the energization to the heater is stopped, the bathroom air discharged from the fan is sent to the exhaust port for a certain period of time, so the ventilation amount increases. Thus, the temperature in the bathroom can be quickly lowered, and the humidity in the bathroom can also be lowered. As a result, energization of the heater is resumed relatively quickly, and the loss time when drying clothes and the like can be minimized.
[0016]
According to the second aspect of the present invention, there is provided a main body in which a suction port and a blow-out port are formed toward a bathroom and an exhaust port is provided, and bathroom air that is installed in the main body and is sucked from the suction port. A fan that discharges toward the outlet and the exhaust port, driving means that rotationally drives the fan, provided on the downstream side of the fan, and sends bathroom air discharged from the fan to the outlet side; A damper that is delivered to the exhaust port, a heater that is provided at the air outlet, generates heat when energized, and heats the air passing through the air outlet, detects the temperature in the bathroom, and the detected temperature is equal to or higher than a predetermined temperature Control means for stopping energization to the heater, the control means in the drying operation mode for alternately sending bathroom air discharged from the fan to the outlet and the exhaust outlet, Blowing out When the energization of the heater is stopped while the bathroom air is being sent to the side, the bathroom air discharged from the fan is controlled by controlling the damper until the bathroom air becomes a temperature lower than the predetermined temperature. Is switched to a ventilation operation mode in which is sent to the exhaust port.
[0017]
According to the above configuration, when the safety function is activated and the energization to the heater is stopped in the dry operation mode, the bathroom air discharged from the fan is discharged to the exhaust port until the bathroom air becomes a temperature lower than a predetermined temperature. Since it is sent out, the amount of ventilation increases, the temperature in the bathroom can be lowered quickly, and the humidity in the bathroom can also be lowered. As a result, energization of the heater is resumed relatively quickly, and the loss time when drying clothes and the like can be reduced.
[0018]
Claims 1 and 2 are inventions concerning a so-called intermittent ventilation type drying operation mode in which bathroom air discharged from a fan is alternately sent to a blower outlet and an exhaust outlet. A fourth aspect of the present invention is an invention relating to a so-called diversion system drying operation mode in which bathroom air discharged from a fan is diverted and sent out to an outlet and an exhaust port.
[0019]
That is, the invention described in claim 3 is a main body in which a suction port and a blow-out port are formed toward a bathroom and an exhaust port is provided, and bathroom air that is installed in the main body and is sucked from the suction port. A fan that discharges toward the blowout port and the exhaust port, a drive unit that rotationally drives the fan, and a wake side of the fan are provided on the downstream side, and the bathroom air discharged from the fan is sent to the blowout port side. Or a damper that is delivered to the exhaust port, a heater that is provided at the air outlet, generates heat when energized, and heats the air that passes through the air outlet, detects the temperature in the bathroom, and the detected temperature is predetermined. Control means for stopping energization of the heater when the temperature is higher than the temperature, and the control means divides the bathroom air discharged from the fan and sends it to the air outlet and the exhaust outlet. In, when stopping the energization of the heater by controlling the damper is characterized by switching only a certain time ventilation operation mode for sending the bathroom air discharged from the fan to the exhaust port.
[0020]
According to the above configuration, when the safety function is activated in the drying operation mode and the energization to the heater is stopped, the bathroom air discharged from the fan is sent to the exhaust port for a certain period of time as in the first aspect. The amount of ventilation increases, the temperature in the bathroom can be lowered quickly, and the humidity in the bathroom can also be lowered. As a result, energization of the heater is resumed relatively quickly, and the loss time when drying clothes and the like can be reduced.
[0021]
The invention described in claim 4 is characterized in that a suction port and a blow-out port are formed in the bathroom and an exhaust port is provided, and bathroom air that is installed in the main body and is sucked in from the suction port. A fan that discharges toward an outlet and an exhaust port, a driving means that rotationally drives the fan, and a wake side of the fan that is provided on the downstream side of the fan, and sends out bathroom air discharged from the fan to the outlet side, A damper that is delivered to the exhaust port, a heater that is provided at the air outlet, generates heat when energized, heats the air passing through the air outlet, detects the temperature in the bathroom, and the detected temperature exceeds a predetermined temperature. Control means for stopping energization of the heater, the control means, in the drying operation mode for diverting the bathroom air discharged from the fan and sending it to the outlet and the exhaust outlet, When energizing the heater is stopped, the damper is controlled to switch to a ventilation operation mode in which the bathroom air discharged from the fan is sent to the exhaust port until the bathroom air becomes a temperature lower than the predetermined temperature. It is characterized by that.
[0022]
According to the above configuration, when the safety function is activated and the energization to the heater is stopped in the dry operation mode, the fan is discharged from the fan until the temperature in the bathroom becomes lower than a predetermined temperature, similarly to the second aspect. Since the bathroom air is sent to the exhaust port, the amount of ventilation increases, the temperature in the bathroom can be lowered quickly, and the humidity in the bathroom can also be lowered. As a result, energization of the heater is resumed relatively quickly, and the loss time when drying clothes and the like can be reduced.
[0023]
In addition, the invention according to claim 5 is the control device according to claim 1 or 3, wherein the control means has a setting unit in which size data such as a bathroom floor area, height, volume and the like or a predetermined condition corresponding thereto is set. It is characterized by that. In this way, size data such as bathroom floor area, height, volume, etc. or predetermined conditions corresponding thereto are preset in the setting unit, so that the bathroom air sent from the fan is discharged to the exhaust port side. The predetermined time for the operation can be automatically set to a value suitable for the size of the bathroom.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Embodiment 1)
FIG. 1 shows a bathroom ventilation drying apparatus 10 according to the present invention. This bathroom ventilation drying apparatus 10 has a main body case 11 made of a metal box on the outside, and the main body case 11 is inserted into an opening 14 provided in a ceiling portion 13 of a bathroom 12. Anchor stays 15 whose upper portions are bent in an inverted L shape are attached to both side surfaces of the main body case 11. An anchor bolt 17 provided on the partition wall 16 with the upper floor is inserted into the upper inverted L-shaped portion of the anchor stay 15, and the main body case 11 is fixed to the partition wall 16 by the anchor bolt 17. .
[0025]
A centrifugal suction fan 18 having a cylindrical shape is disposed inside the main body case 11. The suction fan 18 is accommodated in the fan case 19, and the air in the bathroom 12 sucked by the suction fan 18 is guided to the air blowing path 20 by the fan case 19. The air passage 20 is connected to an exhaust air passage 22 and a circulation air passage 23 that sends air to the bathroom 12 through an exhaust port 21 formed in the main body case 11.
[0026]
The fan case 19 is formed with a bell mouth 24 corresponding to the rotation center axis of the suction fan 18, and air in the bathroom 12 is introduced into the suction fan 18 through the bell mouth 24. The suction fan 18 is connected to an output shaft of a fan motor 25 provided on the upper wall 11 </ b> A of the main body case 11 and is driven to rotate by the fan motor 25.
[0027]
The air passage 20 is provided with a damper 27 that is rotatable in the direction of arrow A about the support shaft 26. The damper 27 is driven by a motor (not shown). When the damper 27 rises toward the exhaust air passage 22 as indicated by a solid line in the figure, the exhaust air passage 22 is blocked and the air passage 20 and the circulation air passage 23 communicate with each other. Further, when the damper 27 falls to the opening edge on the circulating air passage 23 side as shown by a two-dot chain line in the figure, the circulating air passage 23 is blocked and the air blowing passage 20 and the exhaust air passage 22 communicate with each other. A heater 28 is provided in the circulation air passage 23. The heater 28 has a large number of fins on its surface and can warm the air passing through the circulation air passage 23.
[0028]
A duct joint 29 is disposed at the outer edge of the exhaust port 21 of the main body case 11, and a duct 30 leading to the outside of the building is connected to the duct joint 29. The main body case 11 is provided with a front panel 31 exposed in the bathroom 12, and the inner edge of the main body case 11 and the opening 14 of the ceiling portion 13 is hidden by the front panel 31 and is visible from the bathroom 12 side. There is no such thing. The front panel 31 has a fine surface and serves as a decorative board.
[0029]
The front panel 31 is formed with a suction port 32 facing the bell mouth 24 and an air outlet 33 facing the heater 28. Although not shown, a suction grill is provided at the suction port 32, and a blowout grill is provided at the blowout port 33.
[0030]
A control circuit board 34 as a control means is provided on the upper surface of the upper wall 11A of the main body case 11, and the operation of the damper 27 is controlled by the control circuit board 34. A temperature sensor 35 such as a thermistor for detecting the temperature in the bathroom 12 is connected to the control circuit board 34. The temperature sensor 35 is provided near the bell mouth 24 inside the main body case 11. The control circuit board 34 is covered with a metal cover 36. The temperature sensor 35 may not be provided in the main body case 11 but may be provided in the bathroom 12 as long as the temperature in the bathroom 12 can be detected directly or indirectly.
[0031]
The control circuit board 34 incorporates a safety function for capturing the detected temperature data from the temperature sensor 35 in the drying operation mode and stopping the energization of the heater 28 when the detected temperature data is equal to or higher than a predetermined temperature. ing. In addition, a setting unit 37 is electrically connected to the control circuit board 34. In the setting unit 37, size data such as the floor area, height, and volume of the bathroom 12 or predetermined conditions corresponding thereto are set.
[0032]
Next, the operation | movement at the time of the drying operation mode of the bathroom ventilation drying apparatus of the said structure is demonstrated.
[0033]
The bathroom ventilation drying apparatus according to the present embodiment incorporates a function of an intermittent ventilation drying operation mode. In the drying operation mode, the damper 27 is located at the position indicated by the solid line in FIG. 1 (the damper 27 in the heating operation mode). And a position indicated by a two-dot chain line (a position of the damper 27 in the ventilation operation mode and a damper position A2).
[0034]
The operation in the drying operation mode is shown in FIGS. First, an operation timer is set (step S1), and the fan motor 25 is rotated to drive the suction fan 18 to rotate (step S2). Furthermore, the timer t1 for heating operation is initialized and started (step S3).
[0035]
Next, the damper 27 is set to the damper position A1 (step S4), and the heater 28 is energized (step S5). Thus, the heating operation is performed, and the bathroom air is sucked into the main body case 11 from the suction port 32 of the front panel 31 by the suction fan 18, and further heated by the heater 28 through the air blowing path 20 and the circulation air path 23. Later, it is sent into the bathroom 12 from the air outlet 33. In the present embodiment, the heating operation is executed for 30 minutes (step S6).
[0036]
When the heating operation ends, the ventilation operation starts. First, a timer t2 for ventilation operation is initialized and started (step S7). In the ventilation operation, energization of the heater 28 is stopped (step S8), and the damper 27 is set to the damper position A2 (step S9). As a result, the bathroom air sucked into the main body case 11 by the suction fan 18 passes through the blower passage 20 and the exhaust air passage 22 and is further discharged into the outside air outside the building through the duct 30. In the present embodiment, the ventilation operation is executed for 2 minutes (step S10).
[0037]
The heating operation and the ventilation operation are repeatedly executed alternately until the operation timer set in step S1 ends (step S11).
[0038]
If the heating operation and the ventilation operation are repeatedly performed alternately, the temperature in the bathroom 12 gradually rises to a predetermined temperature or higher, and in this case, it is necessary to stop energization of the heater 28. In the present embodiment, it is detected whether the temperature of the bathroom air at the suction port 32 has reached 50 ° C. or higher during heating operation (step S12), and the energization of the heater 28 is controlled. When the temperature of the intake air is 50 ° C. or higher, the timer t3 is initialized and started (step S13). Further, energization to the heater 28 is stopped (step S14), and the damper 27 is set to the damper position A2 (step S15). As a result, the bathroom air sucked into the main body case 11 by the suction fan 18 passes through the blower passage 20 and the exhaust air passage 22, and is further discharged through the duct 30 into the outside air outside the building. The temperature in the bathroom 12 can be quickly lowered, and the humidity in the bathroom 12 can be lowered. The energization of the heater 28 is stopped for 2 minutes (step S16), and then the process proceeds to step S11.
[0039]
When it is determined in step S11 that the operation timer has expired, the damper 27 is set to the damper position A1 (step S17), the fan motor 25 is stopped, and the rotation of the suction fan 18 is stopped (step S18).
[0040]
According to the present embodiment, when the safety function is activated during the drying operation and the energization of the heater 28 is stopped, the bathroom air discharged from the suction fan 18 is sent to the exhaust port for 2 minutes (a predetermined time), During these two minutes, the ventilation amount in the bathroom 2 increases, and as a result, the temperature in the bathroom 2 can be quickly lowered and the humidity in the bathroom 12 can be lowered.
[0041]
Further, according to the present embodiment, since the setting unit 37 is connected to the control circuit board 34, size data such as the floor area, height, volume, etc. of the bathroom 12 or predetermined data corresponding thereto is added to the setting unit 37. Conditions can be set in advance. The control circuit board 34 is provided with a storage unit (memory) 34A that stores data such as air volume, rotation speed, and predetermined time based on size data and predetermined conditions, and stores the data based on values set by an operation unit (not shown). Based on the data of the section 34A, the fixed time or the air volume for discharging the bathroom air discharged from the suction fan 18 to the exhaust port 21 side is automatically set to a value suitable for the size of the bathroom 12 or the like or a value corresponding thereto. It is set up automatically.
[0042]
Note that the data set by the setting unit 37 is a set value and a set value by an arithmetic unit (not shown) provided on the control circuit board 34 based on detection results of various sensors such as an air volume sensor, a temperature sensor, and a humidity sensor. You may make it control so that it may become.
[0043]
Further, the predetermined condition is an air volume corresponding to the floor area or volume, or a fan rotation speed corresponding to the air volume. Note that the predetermined condition is not limited to the air volume or the rotational speed of the fan.
[0044]
(Embodiment 2)
Next, a bathroom ventilation drying apparatus according to Embodiment 2 will be described with reference to FIGS. The bathroom ventilation drying apparatus according to the present embodiment also has a function of an intermittent ventilation drying operation mode. 4 and 5, steps S1 to S12 and steps S17 to S18 are the same as those in the first embodiment.
[0045]
During the heating operation, when the temperature in the bathroom 12 gradually rises to a predetermined temperature or higher, energization to the heater 28 is stopped (step S121), and the damper 27 is moved to the damper position A2. Set (step S122). As a result, the bathroom air sucked into the main body case 11 by the suction fan 18 passes through the blower passage 20 and the exhaust air passage 22, and is further discharged through the duct 30 into the outside air outside the building. The temperature in the bathroom 12 can be quickly lowered, and the humidity in the bathroom 12 can be lowered.
[0046]
In the present embodiment, unlike the first embodiment, the process of stopping energization of the heater 28 is executed until the temperature of the air blown from the blower outlet 33 becomes a constant temperature of 40 ° C. or lower. (Step S123). When the process for stopping energization of the heater 28 is completed, the process proceeds to step S11.
[0047]
According to the present embodiment, when the safety function is activated during the drying operation and the energization of the heater 28 is stopped, the suction fan 18 is operated until the temperature of the air blown from the blower outlet 33 is lowered to 40 ° C. or lower. Since the discharged bathroom air is sent to the exhaust port 22 side, the ventilation amount in the bathroom 12 increases, the temperature in the bathroom 12 can be quickly lowered, and the humidity in the bathroom 12 can be lowered.
[0048]
(Embodiment 3)
Next, a bathroom ventilation drying apparatus according to Embodiment 3 will be described with reference to FIGS. The bathroom ventilation drying apparatus in the present embodiment has a function of a diversion-type drying operation mode.
[0049]
First, an operation timer is set (step S21), and the fan motor 25 is rotated to drive the suction fan 18 to rotate (step S22). Next, the damper diversion position is set, that is, the damper 27 is set to an intermediate position between the damper position A1 and the damper position A2 (step S23), and the heater 28 is energized (step S24). Then, the bathroom air sucked in by the suction fan 18 is diverted from the blower passage 20 to the exhaust air passage 22 and the circulation air passage 23. As a result, the bathroom air divided into the circulation air passage 23 side is heated by the heater 28 and then supplied into the bathroom 12 from the outlet 33, while the bathroom air divided into the exhaust air passage 22 side passes through the duct 30. Thus, the laundry dried in the bathroom 12 can be easily dried. In particular, since the bathroom air is warmed by the heater 28, the saturated water vapor pressure of the bathroom air can be increased, and the bathroom air containing a large amount of moisture is discharged into the outside air by the increase of the saturated water vapor pressure. It is possible to dry the laundry efficiently.
[0050]
When the heater 28 is energized, the temperature in the bathroom 12 gradually increases to a predetermined temperature or higher. In this case, it is necessary to stop energizing the heater 28. In the present embodiment, it is detected whether or not the temperature of the blown air at the outlet 33 has become 50 ° C. or higher during the heating operation (step S25), and energization of the heater 28 is controlled.
[0051]
When the temperature of the blown air is less than 50 ° C., the drying operation is executed until the operation timer set in step S21 is ended (step S26). When the temperature of the blown air is 50 ° C. or higher in step S25, the timer t4 is initialized and started (step S27). Further, the power supply to the heater 28 is stopped (step S28), and the damper 27 is set to the damper position A2 (step S29). As a result, the bathroom air sucked into the main body case 11 by the suction fan 18 passes through the blower passage 20 and the exhaust air passage 22, and is further discharged through the duct 30 into the outside air outside the building. The temperature of can be lowered quickly. The energization stop to the heater 28 is executed for 2 minutes (step S30), and then the energization stop to the heater 28 is resumed (step S31), and the process proceeds to step S26.
[0052]
When it is determined in step S26 that the operation timer has expired, the power supply to the heater 28 is stopped (step S32). Next, the damper 27 is set to the damper position A1 (step S33), the fan motor 25 is stopped, and the rotation of the suction fan 18 is stopped (step S34).
[0053]
According to the present embodiment, when the safety function is activated during the drying operation and the energization of the heater 28 is stopped, the bathroom air discharged from the suction fan 18 is sent to the exhaust port for 2 minutes (a predetermined time), During these two minutes, the ventilation amount in the bathroom 2 increases, and as a result, the temperature in the bathroom 2 can be quickly lowered and the humidity in the bathroom 12 can be lowered.
[0054]
(Embodiment 4)
Next, a bathroom ventilation drying apparatus according to Embodiment 4 will be described with reference to FIGS. The bathroom ventilation drying apparatus in this embodiment also has a function of a drying operation mode of a diversion system. 8 and 9, steps S21 to S26 and steps S32 to S34 are the same as those in the third embodiment.
[0055]
During the heating operation, when the temperature in the bathroom 12 gradually rises and the temperature of the blown air at the outlet 33 becomes 50 ° C. or higher in step S25, the energization of the heater 28 is stopped. (Step S251), the damper 27 is set to the damper position A2 (Step S252). As a result, the bathroom air sucked into the main body case 11 by the suction fan 18 passes through the blower passage 20 and the exhaust air passage 22, and is further discharged through the duct 30 into the outside air outside the building. The temperature in the bathroom 12 can be quickly lowered, and the humidity in the bathroom 12 can be lowered.
[0056]
In the present embodiment, unlike the third embodiment, the process of stopping energization of the heater 28 is executed until the temperature of the air blown from the blower outlet 33 becomes a constant temperature of 40 ° C. or lower. (Step S253). Thereafter, energization of the heater 28 is resumed (step S254), and the process proceeds to step S11.
[0057]
According to the present embodiment, when the safety function is activated during the drying operation and the energization of the heater 28 is stopped, the suction fan 18 is operated until the temperature of the air blown from the blower outlet 33 is lowered to 40 ° C. or lower. Since the discharged bathroom air is sent to the exhaust port 22 side, the ventilation amount in the bathroom 12 increases, the temperature in the bathroom 2 can be quickly lowered, and the humidity in the bathroom 12 can be lowered.
[0058]
【The invention's effect】
As described above, according to the present invention, when the safety function is activated during the drying operation and the energization to the heater is stopped, the bathroom air discharged from the fan is sent to the exhaust port. It increases, the temperature in the bathroom can be lowered quickly, and the humidity in the bathroom can be lowered. As a result, energization of the heater is resumed relatively quickly, and the loss time when drying clothes and the like can be minimized.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a bathroom ventilation drying apparatus according to the present invention.
FIG. 2 is a flowchart showing an operation in a drying operation mode according to the first embodiment.
FIG. 3 is a flowchart showing a continuation of FIG. 2;
FIG. 4 is a flowchart showing an operation in a drying operation mode according to the second embodiment.
FIG. 5 is a flowchart showing a continuation of FIG. 4;
FIG. 6 is a flowchart showing an operation in a drying operation mode according to the third embodiment.
FIG. 7 is a flowchart showing a continuation of FIG. 6;
FIG. 8 is a flowchart showing an operation in a drying operation mode according to the fourth embodiment.
FIG. 9 is a flowchart showing a continuation of FIG. 8;
FIG. 10 is a diagram showing a damper position in a heating operation mode or when operation is stopped.
FIG. 11 is a diagram showing a damper position in a ventilation operation mode.
FIG. 12 is a diagram showing a damper position in a diversion-type drying operation mode.
[Explanation of symbols]
10 Bathroom ventilation dryer
11 Body case
12 Bathroom
18 Suction fan
21 Exhaust port
25 Fan motor
27 Damper
28 Heater
32 Suction port
33 Air outlet
34 Control circuit board (control means)
35 Temperature sensor
37 Setting section

Claims (5)

A main body in which an inlet and an outlet are formed toward the inside of the bathroom and an exhaust port is provided,
A fan installed in the main body and discharging bathroom air sucked from the suction port toward the blowout port and the exhaust port;
Drive means for rotationally driving the fan;
A damper that is provided on the downstream side of the fan, and that sends out bathroom air discharged from the fan to the air outlet or to the exhaust port;
A heater that is provided at the air outlet, generates heat when energized, and heats air passing through the air outlet;
A controller that detects the temperature in the bathroom and stops energization of the heater when the detected temperature is equal to or higher than a predetermined temperature;
In the drying operation mode in which bathroom air discharged from a fan is alternately sent to the air outlet and the air outlet, the control means energizes the heater while the bathroom air is being sent to the air outlet. When the operation is stopped, the bathroom ventilation drying apparatus is switched to a ventilation operation mode in which the bathroom air discharged from the fan is sent to the exhaust port for a predetermined time by controlling the damper. A main body in which an inlet and an outlet are formed toward the inside of the bathroom and an exhaust port is provided,
A fan installed in the main body and discharging bathroom air sucked from the suction port toward the blowout port and the exhaust port;
Drive means for rotationally driving the fan;
A damper that is provided on the downstream side of the fan, and that sends out bathroom air discharged from the fan to the air outlet side, or sends it to the exhaust port;
A heater that is provided at the air outlet, generates heat when energized, and heats air passing through the air outlet;
A controller that detects the temperature in the bathroom and stops energization of the heater when the detected temperature is equal to or higher than a predetermined temperature;
In the drying operation mode in which bathroom air discharged from a fan is alternately sent to the air outlet and the air outlet, the control means energizes the heater while the bathroom air is being sent to the air outlet. The bathroom is switched to a ventilation operation mode in which the bathroom air discharged from the fan is sent to the exhaust port until the bathroom air becomes a temperature lower than the predetermined temperature by controlling the damper. Ventilation drying device. A main body in which an inlet and an outlet are formed toward the inside of the bathroom and an exhaust port is provided,
A fan installed in the main body and discharging bathroom air sucked from the suction port toward the blowout port and the exhaust port;
Drive means for rotationally driving the fan;
A damper that is provided on the downstream side of the fan, and that sends out bathroom air discharged from the fan to the air outlet side, or sends it to the exhaust port;
A heater that is provided at the air outlet, generates heat when energized, and heats air passing through the air outlet;
A controller that detects the temperature in the bathroom and stops energization of the heater when the detected temperature is equal to or higher than a predetermined temperature;
The control means controls the damper when the energization to the heater is stopped in a drying operation mode in which bathroom air discharged from the fan is diverted and sent to the outlet and the exhaust outlet. A bathroom ventilation drying apparatus characterized by switching to a ventilation operation mode in which bathroom air discharged from a room is sent to an exhaust port for a certain period of time. A main body in which an inlet and an outlet are formed toward the inside of the bathroom and an exhaust port is provided,
A fan installed in the main body and discharging bathroom air sucked from the suction port toward the outlet and the exhaust port;
Drive means for rotationally driving the fan;
A damper that is provided on the downstream side of the fan, and that sends out bathroom air discharged from the fan to the air outlet side, or sends it to the exhaust port;
A heater that is provided at the air outlet, generates heat when energized, and heats air passing through the air outlet;
A controller that detects the temperature in the bathroom and stops energization of the heater when the detected temperature is equal to or higher than a predetermined temperature;
The controller is configured to control the damper when the energization to the heater is stopped in a drying operation mode in which the bathroom air discharged from the fan is divided and sent to the outlet and the exhaust outlet. The bathroom ventilation drying apparatus is switched to a ventilation operation mode in which bathroom air discharged from a fan is sent to an exhaust port until the bathroom air becomes a temperature lower than the predetermined temperature. In the bathroom ventilation drying apparatus according to claim 1 or 3,
The bathroom ventilation drying apparatus, wherein the control means includes a setting unit in which size data such as a floor area, height, and volume of a bathroom, or predetermined conditions corresponding thereto are set.

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