JP2004261317A - Washer-drier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a washer-drier by which power consumption during drying can be reduced. <P>SOLUTION: A circulating air blowing path 21 is provided for drying the laundry housed in a drum 13 by supplying the drum 13 with warm air which is generated by a blower 25 and a heater 26. The circulating air blowing path 21 is provided with an air intake 27 which is formed on the side of a suction opening of the blower 25. A water bath 5 is formed with an air outlet 28 which is opened and closed by an open/close valve 29. With respect to a drying process, drying operations by warm air by which the laundry is dried by warm air through the circulating air blowing path 21 by closing the air outlet 28 and driving the air blower 25 and the heater 26 and drying operations at room temperature by which the outside air is taken from the air intake 27, is caused to pass through the drum 13 and is put outside of the water bath 5 from the outlet 28 by opening the air outlet 28 and driving the air blower 25 can be performed. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a washing / drying machine having an improved drying mode.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a washing / drying machine includes a rotating tub having a large number of holes inside a water tub, and a hot air circulation path (blowing air) for drying clothes (washed clothes) in the rotating tub. (For example, Patent Document 1). The circulation path is configured to generate hot air by a blower and a heating device, supply the hot air into the rotary tub, and dehumidify the hot air taken out from the rotary tub by a dehumidifier to return to the blower and the heating device. I have.
[0003]
In the above configuration, the warm air supplied to the rotating tank deprives the clothes of moisture, and heat exchange is performed by a dehumidifier to remove moisture in the warm air, returned to the blower, and reheated by the heating device. Is supplied into the rotary tank.
[0004]
[Patent Document 1]
JP 2001-29683 A
[0005]
[Problems to be solved by the invention]
By the way, in the above configuration, the heating process is always operated in the drying process, and it is difficult to reduce the power consumption, so that energy cannot be saved.
[0006]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a washing / drying machine capable of reducing power consumption for drying.
[0007]
[Means for Solving the Problems]
The present invention has been made by focusing on the following points.
That is, as a method of drying clothes, usually, the clothes are dried by warm air using a heating device and a ventilation path. The drying time required in this case is relatively short. However, as another drying method, it is conceivable to dry clothes only by blowing air from a blower. In this case, the power consumption is small, but the drying capacity is low, and the drying time is long.
[0008]
However, in many cases, the desired time for completion of drying is much earlier for the user. In that case, there is no problem even if a drying method using only a blower is used without using a drying device, and in this case, power consumption can be reduced.
[0009]
The invention of claim 1, which focuses on this point, comprises a rotating tank provided in a water tank and having a number of holes,
A blowing path for supplying warm air generated by a blower and a heating device into the rotating tank to dry clothes stored in the rotating tank,
An air inlet formed on the air inlet side of the blower in the air passage;
An openable and closable exhaust port formed in the water tank,
A warm air drying operation in which the exhaust port is closed and the blower and the heating device are driven to dry clothes by the warm air in the air passage, and the exhaust port is opened and the blower is driven to operate from the intake port. It is characterized in that it is possible to select a room temperature drying operation in which outside air is taken in and the outside air is passed through the rotary tank and discharged from the exhaust port to the outside of the water tank.
[0010]
According to this, since a hot air drying operation and a normal temperature drying operation are provided and these can be selected, it is possible to reduce the power consumption required for drying. In this case, it is possible to form a ventilation path for a normal temperature drying operation with a simple configuration in which an intake port is formed on the intake port side of the blower in the ventilation path, and an openable and closable exhaust port is formed in the water tank. Can be prevented.
[0011]
In this case, the room temperature drying operation may include rotating the rotary tub at a high speed as in the second aspect of the present invention. In this case, a blowing action can be expected from the rotary tub, and an increase in the amount of blown air can be achieved. It can be expected and can contribute to improvement of drying performance.
Further, in this case, a centrifugal fan-shaped rib may be provided in the rotary tank as in the invention of claim 3. By doing so, the blowing capacity is improved, which can contribute to the improvement of the drying performance.
[0012]
Further, as in the invention of claim 4, a drying step combining a normal-temperature drying operation and a warm-air drying operation may be provided. In this case, drying can be performed for a desired drying time while suppressing power consumption. It can be terminated.
[0013]
In this case, as in the invention of claim 5, a normal temperature drying operation may be performed at the beginning of the drying process, and a hot air drying operation may be performed thereafter. In this case, the room temperature drying operation is effective when the clothes contain a large amount of moisture. Therefore, the room temperature drying operation is suitable at the beginning of the drying process (the clothes have a large amount of moisture), and the drying effect can be reduced while reducing the power consumption. Improvement can be expected.
[0014]
Further, as in the invention of claim 6, the first weight detecting means for detecting the weight of the clothes before washing, and the second detecting means for detecting the weight of the clothes in a state containing the water after washing. The execution time of the room-temperature drying operation, the execution time of the warm-air drying operation, and the time distribution in the drying process may be set in accordance with the difference between the detected weights. In this way, the amount of water contained in the clothes can be determined from the difference in the detected weight, and efficient execution time and time distribution suitable for the amount of water can be achieved.
[0015]
Further, as in the invention of claim 7, a setting means for setting the operation time of the drying step is provided, and the execution time of the room temperature drying operation and the execution time and the time of the warm air drying operation in the drying step are set according to the set time. The allocation may be determined. In this way, efficient execution time and time distribution according to the time set by the user or the time automatically set can be achieved.
[0016]
Further, the time distribution may be corrected according to the outside air condition as in the invention of claim 8. In this way, efficient time distribution according to the outside air temperature and humidity becomes possible.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. First, a schematic configuration of the entire drum-type washing / drying machine will be described with reference to FIG. 1. An operation panel 2 is disposed on an upper part of a front surface of a casing 1 forming an outer shell, and an operation panel is provided inside the operation panel 2. A part 3 is provided. A door 4 for opening and closing an opening 1a for taking in and out laundry is provided at a substantially central portion of the front surface so as to be rotatable via a hinge (not shown). A plurality of ventilation holes 1b are formed in the back plate of the housing 1, and a large opening 1c is formed in the bottom.
[0018]
Thus, a cylindrical water tank 5 having an opening 5a on the front surface is provided inside the housing 1, and is elastically supported via a plurality of suspensions 6 (only one is shown). The water tank 5 is supported in a horizontal axis and in a slightly upwardly inclined state, and a bellows 7 is provided between the opening 5a and the opening 1a of the housing 1 to be watertightly connected. .
[0019]
On the other hand, a concave portion 8 bulging partly downward is formed at the bottom of the water tub 5, and a hot water heater 9, which is a sheathed heater for heating the washing water, is provided inside the concave portion 8.
A drain port (not shown) is provided at the lowest portion of the recess 8, and a drain valve 10 is provided in connection with the drain port, and the drain valve 10 is mounted on the outer bottom surface of the recess 8. The opening / closing operation is controlled by a drain valve motor 11 composed of: A bellows-shaped bendable drain hose 12 is connected to the outlet side of the drain valve 10, and the distal end thereof is led out of the machine.
[0020]
Inside the water tank 5, a drum 13, which is also a cylindrical rotary tank, is rotatably supported by a horizontal axis. A large opening 14a is formed in a front plate portion 14 constituting the front surface of the drum 13, and a plurality of holes 15a, 16a for water passage and ventilation are formed in a body portion 15 and a rear plate portion 16 which are peripheral walls. At the same time, three baffles 15b (only two are shown) are provided on the body 15 to protrude inward for scraping up the laundry. The drum 13 is rotatably supported by the water tank 5 at the center of the rear surface portion 6.
[0021]
The bearing structure is such that a bearing housing 17 is provided at the center of the rear surface of the water tank 5 and a motor 19 such as an outer rotor type brushless motor having a rotating shaft 18 is mounted in the bearing housing 17. . The rear plate portion 16 of the drum 13 is directly connected to and supported by the rotation shaft 18 so that the drum 13 can be directly rotated by a motor 19.
[0022]
Further, the rear plate portion 16 of the drum 13 is configured to bend forward toward the center thereof, so that the outer surface of the rear plate portion 16 has an arcuate concave shape. As shown in FIG. 2, radially-centrifugal fan-shaped ribs 20 are formed on the outer surface of the rear plate portion 16.
[0023]
Further, in FIG. 1, a circulating air passage 21 that circulates hot air, which is an air passage, is formed in the drum 13 so as to surround the outside of the front surface, the upper surface, and the rear surface of the water tank 5. The circulation air passage 21 includes a dehumidifier 22 having a lower end communicating with the rear plate of the water tank 5, a hot air supply means 23 having one end communicating with the upper end of the dehumidifier 22, and another end of the hot air supply means 23. And a duct 24 having one end 24a communicating therewith. The other end 24b of the duct 24 is connected to the front opening 5a of the water tank 5.
[0024]
When the schematic structure of the dehumidifier 22 is described, it has a hollow shape as a whole and takes in the air in the drum 13 through the water tank 5 at the lower end portion, while the air moves from the lower part to the upper part. Water is poured from the heat exchange water supply valve 37 (see FIG. 3) to cool and condense the water from the air to dehumidify the water. The condensed water passes through the drain valve 10 to the drain hose 12 From the airplane.
[0025]
On the other hand, in the hot air supply means 23, a blower 25 including a fan casing 25a, a blower fan 25b, a fan motor 25c, and the like, which is disposed downstream of the dehumidifier 22 and performs a blowing operation in the direction of arrow A in the drawing. And a heating device 26 comprising a heater case 26a for heating the air sent from the blower 25 and a drying heater 26b. The hot air supply means 23 heats the air dehumidified by the dehumidifier 22 to a heating temperature. The weathered hot air is supplied to the water tank 5 and the respective openings 5a and 14a of the drum 13 through the circulation air passage 21.
[0026]
In the circulating air passage 21, an air inlet 27 is formed on the suction port side of the blower 25, for example, above the dehumidifier 22. An exhaust port 28 is formed in the upper part of the water tank 5, and an open / close valve 29 composed of an electromagnetic valve is provided in the exhaust port 28. The open / close valve 29 communicates with the inside of the housing 1.
[0027]
In addition, a control unit 30 is provided at a lower portion of the inner surface of the housing 1. The control unit 30 includes a microcomputer and various drive circuits according to an electrical configuration diagram shown in FIG. 3. This controls the whole of the washing operation and the drying operation, and also functions as the first weight detecting means and the second weight detecting means. The first weight detecting means energizes the motor 19 in a predetermined energizing mode in a state in which the clothes (washed state) before washing are housed in the drum 13 and determines the weight of the clothes as the motor load by the rotation speed of the motor 19 and the like. It is to detect. In this case, the weight of the garment without water is detected. Further, the second weight detecting means energizes the motor 19 in a predetermined energizing mode in a state in which the clothes (wet cloth state) after washing or dehydration are accommodated in the drum 13 and the motor is controlled by the rotation speed of the motor 19 or the like. It detects the weight of clothing as a load. In this case, the weight of clothing including the weight of moisture is detected.
[0028]
The control unit 30 includes an operation signal from a key switch 31, a water level detection signal from a water level detection unit 32, a door switch 33 that responds to opening and closing of the door 4, and a temperature sensor 34 provided below the water tank 5. Is input. The motor 19 is driven by inverter control based on these inputs and the control program, and a main water supply valve 35 for supplying water into the drum 13, a finishing agent water supply valve 36 for supplying finishing agent with water, and a dehumidifier for cooling water. A drive control signal is provided to a heat exchange water supply valve 37, a hot water heater 9, a drain valve motor 11, an on-off valve 29, a fan motor 25c, a drying heater 26b, and a buzzer 38 for notifying the end of operation, etc. I have.
[0029]
Here, the drying operation includes a "warm air drying" operation and a "normal temperature drying" operation. The "hot air drying" operation will be described. In this case, the control unit 30 closes the exhaust port 28 by closing the on-off valve 29 and turns on the blower 25, the heating device 26, and the heat exchange water supply valve 37. Then, the air in the drum 13, for example, which has been humidified, is taken into the dehumidifier 22 through the water tank 5 by the blowing action in the direction of the arrow A by the blower 25, where it is cooled and dehumidified. The hot air is sent to the heating tank 26 and heated and heated, and the hot air is supplied into the water tank 5 and the drum 13. Since the warm air after contributing to the drying of the laundry (not shown) is humid, it is sucked into the dehumidifier 22 again and dehumidified, and the warm air regenerated again through the warm air supply means 23 is supplied to the drum 13. The hot-air drying operation is advanced by so-called hot-air circulation. In this case, although the air inlet 27 is kept open, the circulation air passage 21 is a closed loop, so that the hot air hardly leaks from the air inlet 27.
[0030]
The "room temperature drying" operation will be described. In this case, the control unit 30 opens the on-off valve 29 to open the exhaust port 28, and the blower 25 is turned on but the heating device 26 and the heat exchange water supply valve 37 are turned off. Then, the outside air is sucked into the dehumidifier 22 through the ventilation hole 1b and the air inlet 27 as shown by the arrow B in FIG. And enters the drum 13. Then, it goes out of the drum 13 (inside the water tank 5) through a number of holes 15a and 16a, and out of the water tank 5 (inside of the housing 1) through the exhaust port 28 and the on-off valve 29. And it goes out of the machine through the lower opening 1c. In this manner, the clothes in the drum 13 are dried by the air at the normal temperature.
[0031]
Further, the control unit 30 is a setting unit that sets the selection, the execution time, and the time distribution of the “normal temperature drying” operation and the “hot air drying” operation according to the set drying time and the amount of moisture contained in the clothes. It also has the function of In addition, the washing and drying course has a `` standard course '' and a `` timer course '', and the `` standard course '' is selected only for the `` warm air drying '' operation in the drying process described above. As will be described later, the “normal temperature drying” operation and the “hot air drying” operation are selected (the “hot air drying” operation may be selected depending on the timer time).
[0032]
The control unit 30 has a built-in storage unit including a ROM or a non-volatile memory. The storage unit includes a “normal temperature drying” operation (described later) and a “hot air drying” operation described above. Data for setting execution time and time distribution (data contents are shown in FIG. 5) is stored.
[0033]
Next, the operation of the above configuration will be described. FIG. 4 schematically shows the control contents of the control unit 30. When the “timer course” is set and the desired timer time until the end of the washing and drying operation is input and set (step 1), the control unit 30 starts the washing and drying operation (step 2). First, weight detection is performed by the above-described first weight detection means. Thus, the weight of the clothes in the dry cloth state is detected. Then, the steps of “washing”, “rinsing”, and “(final) dehydration” are automatically executed. In the "washing" and "rinsing" steps, the drum 13 is rotated at a low speed in a state where the washing water is supplied into the water tub 5, and the washing (not shown) is lifted up by the baffle 15b and then dropped. On the other hand, in the "dehydration" step, the drum 13 is rotated at a high speed to perform centrifugal dehydration from the laundry.
[0034]
After the "dehydration" step, weight detection is performed by the above-described second weight detection means (step S7). Thus, the weight of the garment in a state containing moisture is detected. Then, a calculation is performed by subtracting the weight of the dry clothing in step S3 from the result of detection of the weight of the moisture-containing clothing to detect the amount of moisture (step S8). Then, the selection between the "normal temperature drying" operation and the "warm air drying" operation, the setting of the execution time and the execution time distribution are performed based on the database of FIG. 5 (step S9).
[0035]
That is, the operation time of the “drying” process is set. First, the required time for washing up to this point (the time required for steps S2 to S7) is subtracted from the desired time input in step S1, and the operation time of the “drying” process to be executed thereafter (hereinafter referred to as “drying time”) Set.
[0036]
For example, when the detected moisture content is 2000 g, as shown in FIG. 5A, when the drying time is 4 hours, the “normal temperature drying” operation is set to 1 hour, and the “hot air drying” operation is performed. Set for 3 hours. When the drying time is 6 hours, the "normal temperature drying" operation is set to 3.5 hours, and the "hot air drying" operation is set to 2.5 hours. Further, when the drying time is 8 hours, the “normal temperature drying” operation is set to 6 hours, and the “hot air drying” operation is set to 2 hours. As described above, the longer the drying time, the longer the execution time of the “normal temperature drying” operation and the shorter the “hot air drying” operation. In other words, the longer the "normal temperature drying" operation is, the faster the drying is promoted, and the shorter the "warm air drying" operation can be. If the drying time is 3 hours or less, only the “hot air drying” operation is executed for a predetermined drying time. That is, when the timer time is short, only the “warm air drying” operation is selected even in the “timer course”.
[0037]
Here, when the detected water content is 1500 g (when it is smaller than 2000 g in FIG. 5A), the drying load is reduced as shown in FIG. 5B, so that compared to the case of 2000 g, The "hot air drying" operation is shortened and the "normal temperature drying" operation is lengthened. This can be understood, for example, from a comparison between the column (R) in FIG. 5A and the column (S) in FIG. 5B. FIG. 3C shows a data table of the execution time and the time distribution when the water content is 1000 g.
[0038]
Thereafter, the above-mentioned "normal temperature drying" operation of the "drying" step is executed (step S10). That is, as described above, the opening / closing valve 29 is opened (the exhaust port 28 is opened), the blower 25 is turned on, and the heating device 26 and the heat exchange water supply valve 37 are turned off. As a result, as indicated by an arrow B in FIG. 1, outside air (normal temperature) passes through the ventilation hole 1 b, the suction port 27, the dehumidifier 22, the blower 25, the heater case 26 a, and the duct 24 and enters the drum 13. . Then, it goes out of the drum 13 through many holes 15 a and 16 a, and goes out of the water tank 5 through the exhaust port 28 and the on-off valve 29. And it goes out of the machine through the lower opening 1c. Thus, the clothes in the drum 13 are dried by the air at normal temperature.
[0039]
In this case, the drum 13 is rotated at a high speed. Then, the drum 13 itself can be expected to function as a blower fan, and the rib 20 of the drum 13 functions as a centrifugal fan, so that the blower action on the air indicated by the arrow B is generally increased, and the load on the blower 25 is reduced. As it becomes lighter, an increase in the amount of air can be expected.
This “normal temperature drying” operation is performed for a set drying time.
[0040]
Subsequently, a "hot air drying" operation is performed (step S11). This is because, as described above, the drum 13 is rotated at a low speed, the hot air is supplied from the hot air supply means 23, and the hot air circulation through the circulation air passage 21 and the water tank 5 (drum 13) is executed. Then, the clothes are dried. In this “hot air drying” operation, the degree of drying of the clothes is detected, and when this is detected, a finishing operation using cold air is executed, and the “hot air drying” operation is terminated. This “hot air drying” operation is also performed in the set drying time.
[0041]
According to the present embodiment as described above, the “hot air drying” operation and the “normal temperature drying” operation are provided so as to be executable, and they can be selected (both are performed or only the “hot air drying” operation is performed). Can be selected), so that the power consumption required for drying can be reduced. In this case, the ventilation passage for the “normal temperature drying” operation has such a simple structure that the intake port 27 is formed on the suction port side of the blower 25 in the circulation ventilation path 21 and the exhaust port 28 that can be opened and closed is formed in the water tank 5. Can be formed, and a rise in cost can be prevented.
[0042]
Furthermore, according to the present embodiment, the drum 13 is rotated at a high speed during the "normal temperature drying" operation, so that the blowing action can be expected by the drum 13, an increase in the blowing amount can be expected, and the drying performance can be improved. Can contribute.
In particular, in this case, since the ribs 20 in the shape of a centrifugal fan are provided on the drum 13, the blowing capacity is further improved, which can contribute to the improvement of the drying performance.
Furthermore, according to the present embodiment, since a drying process combining the normal temperature drying operation and the hot air drying operation is provided, it is possible to contribute to drying of clothes by the "normal temperature drying" operation, and thus, the "hot air drying" operation. The load can be reduced, and the drying can be completed in a desired drying time while suppressing the power consumption of the drying heater 26b.
[0043]
Further, according to the present embodiment, the operation at the beginning of the drying process is “normal temperature drying”, and the operation after the drying process is “hot air drying”. According to this, the "normal temperature drying" operation is effective when the clothes contain a lot of moisture, so the "normal temperature drying" operation is suitable at the beginning of the drying process (the clothes have a lot of moisture), and the power consumption is low. It can be expected that the drying effect is improved while suppressing the drying.
[0044]
Furthermore, a first weight detecting means for detecting the weight of the clothes before washing and a second detecting means for detecting the weight of the clothes in a state containing the water after washing are provided. The execution time of the "normal temperature drying" operation and the execution time of the "warm air drying" operation in the drying process are set accordingly, and the time distribution is set. And an efficient execution time and time distribution suitable for the application.
[0045]
Further, according to the present embodiment, the control unit 30 is provided as a setting unit for setting the drying time (operating time of the drying process), and the execution time of the room temperature drying operation and the hot air drying operation in the drying process are set according to the set time. Since the execution time and the time distribution are determined, efficient execution time and time distribution according to the time set by the user or the time automatically set can be achieved.
[0046]
In the above embodiment, the drying time is automatically set from the desired timer time until the end of the washing / drying operation input by the user and the required washing time. You may make it set.
[0047]
6 to 8 show a second embodiment of the present invention. In this embodiment, the setting of the execution time of the "normal temperature drying" operation and the "hot air drying" operation according to the outside air condition, for example, the outside air temperature. And a time distribution, and shows a data table therefor. What is characteristic in this data table is that the time is distributed so that the higher the outside air temperature, the longer the execution time of the "normal temperature drying" operation. For example, as can be seen from the comparison of the columns (* 1) in FIGS. 6B to 8B, the higher the outside air temperature, the longer the execution time of the “normal temperature drying” operation (the execution of the “hot air drying” operation) Operation is shortened).
[0048]
In the "normal temperature drying" operation, since the drying efficiency is higher as the outside air temperature is higher, as shown in this embodiment, the time distribution for performing the "room temperature drying" operation longer as the outside air temperature is higher is achieved, thereby reducing power consumption. Clothes can be dried, and the drying load in the subsequent “hot air drying” operation can be reduced and the power consumption thereof can be suppressed. In short, efficient time distribution according to the outside air temperature can be performed, which can contribute to power consumption reduction.
[0049]
FIGS. 9 to 11 show a third embodiment of the present invention. In this embodiment, the setting of the execution time of the “normal temperature drying” operation and the “hot air drying” operation according to the outside air condition, for example, humidity. , And time distribution, and shows a data table therefor. What is characteristic in this data table is that the time is distributed so that the lower the humidity is, the longer the execution time of the "normal temperature drying" operation is. For example, as can be seen from the comparison of the columns (* 2) in FIGS. 9B to 11B, the higher the outside air temperature, the longer the execution time of the “normal temperature drying” operation (the execution of the “hot air drying” operation). Operation is shortened). Also in this embodiment, efficient time distribution according to humidity can be performed, which can contribute to reduction in power consumption.
[0050]
Note that the present invention is not limited to the above-described embodiments, and the intake port may be left open. However, the intake port may be attached and opened when necessary. Further, the position of the exhaust port may be in the upper and lower middle portions or the lower portion in addition to the upper portion. In this case, since the exhaust port can be opened and closed, there is no water leakage if the exhaust port is closed when washing is easy. Further, the air blowing path for the hot air is not limited to the circulating air blowing path, but may be an air blowing path for supplying the hot air into the drum and then discharging the air outside the machine. Further, the present invention is not limited to the horizontal axis type drum type washing and drying machine, but may be applied to a washing and drying machine having a vertical axis type rotating tub. In this case, a stirring body may be provided inside the rotary tank.
[0051]
【The invention's effect】
As is clear from the above description, the present invention can reduce power consumption for drying.
[Brief description of the drawings]
FIG. 1 is an overall longitudinal side view showing a first embodiment of the present invention.
FIG. 2 is a rear view of the drum as viewed from the rear.
FIG. 3 is a block diagram of an electrical configuration.
FIG. 4 is a flowchart showing control contents.
FIG. 5 is a diagram showing a data table for setting a time distribution of a “normal temperature drying” operation and a “hot air drying” operation;
FIG. 6 shows the second embodiment of the present invention and is a diagram showing a data table for setting a time distribution of “normal temperature drying” operation and “hot air drying” operation at an outside air temperature of 25 ° C. or more.
FIG. 7 is a diagram showing a data table for setting time distribution of “normal temperature drying” operation and “hot air drying” operation at an outside air temperature of 15 ° C. or more and less than 25 ° C.
FIG. 8 is a diagram showing a data table for setting a time distribution of a “normal temperature drying” operation and a “hot air drying” operation at an outside air temperature of less than 15 ° C.
FIG. 9 shows the third embodiment of the present invention, and is a diagram showing a data table for setting time distribution of “normal temperature drying” operation and “hot air drying” operation at a humidity of less than 50%.
FIG. 10 is a diagram showing a data table for setting time distribution of “normal temperature drying” operation and “hot air drying” operation at a humidity of 50% or more to less than 80%.
FIG. 11 is a diagram showing a data table for setting time distribution of “normal temperature drying” operation and “hot air drying” operation at a humidity of 80% or more.
[Explanation of symbols]
5 is a water tank, 13 is a drum (rotary tank), 15a and 16a are holes, 19 is a motor, 20 is a rib, 21 is a circulating air path (air path), 22 is a dehumidifier, 23 is hot air supply means, and 24 is a hot air supply means. A duct, 25 is a blower, 26 is a heating device, 27 is an intake port, 28 is an exhaust port, 29 is an opening / closing valve, and 30 is a control unit (first weight detecting means, second weight detecting means).

Claims (8)

A rotating tank provided in the water tank and having a number of holes,
A blowing path for supplying warm air generated by a blower and a heating device into the rotating tank to dry clothes stored in the rotating tank,
An air inlet formed on the air inlet side of the blower in the air passage;
An openable and closable exhaust port formed in the water tank,
A warm air drying operation in which the exhaust port is closed and the blower and the heating device are driven to dry clothes by the warm air in the air passage, and the exhaust port is opened and the blower is driven to operate from the intake port. A washing / drying machine characterized in that a room temperature drying operation in which outside air is taken in and the outside air is passed through the rotary tub through the exhaust port to the outside of the water tub can be selected. The washing and drying machine according to claim 1, wherein the room temperature drying operation includes rotating the rotating tub at a high speed. The washing and drying machine according to claim 1, wherein the rotating tub is provided with a rib having a shape of a centrifugal fan. The washing / drying machine according to claim 1, wherein the washing / drying machine has a drying process in which a room temperature drying operation and a hot air drying operation are combined. 5. The washing / drying machine according to claim 4, wherein the drying step is a normal temperature drying operation at first, and a warm air drying operation thereafter. A first weight detecting means for detecting the weight of the clothes before washing, and a second detecting means for detecting the weight of the clothes in a state containing the water after washing, and according to a difference between the detected weights. The washing and drying machine according to claim 4 or 5, wherein an execution time of the room temperature drying operation, an execution time of the hot air drying operation, and a time distribution in the drying process are set. 5. The method according to claim 4, further comprising setting means for setting an operation time of the drying process, and determining an execution time of the room temperature drying operation, an execution time of the hot air drying operation, and a time distribution in the drying process in accordance with the set time. Or the washing / drying machine according to 5. 8. The washing and drying machine according to claim 6, wherein the time distribution is corrected according to the outside air condition.

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