TW200914673A - Washing machine - Google Patents

Abstract

A washing machine comprises a tank for washing, rinsing and spin-drying the laundry, a lid which opens/closes an opening for entering the laundry into the tank or taking out the laundry therefrom, a means for detecting opening/closing of the lid, a means for detecting whether there is the laundry in the tank or not, a means for drying the tank, and a control means for detecting whether there is the laundry in the tank or not by the means for detecting the laundry when the means for detecting opening/closing of the lid detected opening/closing of the lid after ending the washing operation including at least any one of washing process, rinsingprocess and spin-drying process, and performing operation for drying the tank by the means for drying the tank if there is no laundry as a result of detection.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a washing machine having a function of drying a tank for drying a tank. [Prior Art] In a washing machine, a washing and drying machine having a drying function includes: supplying a temperature to a tank Wind wind supply device. A washing and drying machine with a warm air supply device can be dried in addition to laundry, washing and dehydration of the laundry. However, in such a washing and drying machine, for example, only when the laundry is washed, washed, dehydrated, or washed and dehydrated, only the normal washing operation is performed, and moisture remains in the tank. The moisture remaining in the tank will be the cause of mold. In order to cope with mold generation caused by moisture remaining in the tank, there is a washing and drying machine using a dedicated operation program having a tank drying program. In the tank drying process, the tank is dried by supplying warm air to the tank. However, in the case of a washer dryer with a tank drying procedure, a dedicated tank drying procedure is required. Further, even in this case, only the normal washing operation is performed, and the water remains in the tank. Therefore, when the normal washing operation is performed, the washing and drying machine that automatically performs the automatic tank drying function of the tank drying operation after the completion of the washing operation by the user's key operation is disclosed in Japanese Patent Publication. 2004-49254. Specifically, after the normal washing program is set by the key operation, the operation of the groove drying key as the switch is set to set the groove drying operation to -5 - 200914673. In the case where the tank drying operation is performed, the tank drying operation is performed when the lid opening and closing detection switch detects the opening and closing of the lid for opening and closing the laundry inlet and outlet after the normal washing operation is performed. SUMMARY OF THE INVENTION [Problem to be Solved by the Invention] The laundry dryer having the automatic tank drying function described above has the following problems. That is, in order to move to the tank drying operation after performing the normal washing operation, it is necessary to take out the laundry in the tank and clean the inside of the tank. Therefore, the lid opening and closing detection switch is used to detect the opening and closing of the lid, and it is detected whether or not the laundry in the tank is taken out. However, when the lid is opened and closed to recognize the presence or absence of the laundry in the tank, the user opens and closes the lid, but when a part of the laundry remains in the tank, even if the laundry remains in the tank, A problem arises in that the tank drying operation is performed in this state. The present invention has been made in view of the above circumstances, and an object of the invention is to provide a method of preventing a residue from remaining in a tank by performing a tank drying operation by detecting an opening and closing operation of a lid after performing a washing operation. A washing machine that performs a tank drying operation in a state. [Means for Solving the Problem] The washing machine of the present invention is characterized in that it includes a tank for washing, washing, and dewatering the laundry, and a washing and discharging inlet for inserting and taking out the laundry in the tank. a lid; a lid opening and closing detecting means for detecting opening and closing of the lid; a washing detecting means for detecting presence or absence of laundry in the tank; -6 - 200914673 a drying means for drying the groove; and a tank drying operation control means including When the opening and closing of the lid is detected by the lid opening and closing detecting means after the washing operation of at least one of the washing stroke, the washing stroke, and the dehydrating stroke is completed, the laundry detecting means detects whether or not the washing is performed in the tank. In the case where the result of the detection is no washing, the groove drying means is performed by the groove drying means. [Effects of the Invention] According to the present invention, the control means detects the opening and closing of the lid by the lid opening and closing detecting means after the washing operation is performed. Then, the presence or absence of the laundry in the tank is detected by the laundry detecting means, and the tank drying operation is performed in the case where the result of the detection is that no laundry is present. Thereby, the tank drying operation can be prevented in a state where the laundry remains in the tank. [Embodiment] Hereinafter, a plurality of embodiments of the present invention will be described based on the drawings. In the plural embodiments, substantially the same components are denoted by the same reference numerals, and their description will be omitted. (First Embodiment) Hereinafter, a first embodiment of a washing and drying machine for a washing machine to which the present invention is applied will be described with reference to Figs. 1 to 5 . First, Fig. 2 is a longitudinal side view showing the vertical axis type washing and drying machine. In Fig. 2, the outer box 1 has a rectangular tubular shape. In addition, the tank 1, and the top cover 2 mounted on the upper portion of the outer casing 200914673 1 form the outer casing of the washing and drying machine. The foot 3 is disposed below the outer box 1. A groove 4 is provided in the interior of the outer casing 1 and the groove 4 is formed by a double groove of the outer groove 5 and the inner groove 6 disposed in the other groove 5. Each of the outer tank 5 and the inner tank 6 has a bottomed cylindrical shape. The outer groove 5 and the inner groove 6 are disposed such that their respective axial center lines are directed in the vertical axis direction in the vertical direction. The outer tub 5 is elastically supported by the outer casing 1 via an elastic suspending mechanism 7 mainly composed of a hanging rod 7a. The outer tank 5 is a structure that can store water. The inner groove 6 is rotatably housed in the outer groove 5, and has a plurality of through holes 8 in the peripheral wall portion. A rotary balancer 9 is provided at a peripheral portion of the upper end opening of the inner groove 6 at a bottom portion of the inner groove 6, and the pulsator 1 is rotatably disposed. At the outer bottom of the outer tank 5, a drive unit 1 is disposed. The drive unit 1 1 includes a motor 12 that can rotate forward and backward as shown in Fig. 4, a clutch mechanism (not shown), and the like. The drive unit 11 selectively rotationally drives the pulsator 10 and the inner tank 6. On the upper surface of the outer tank 5, an annular groove cover 13 is provided. In this tank cover 13, an inner cover 14 is provided. The inner lid 14 can be opened and closed in the vertical direction via the hinge 14a located on the left rear side in Fig. 2 . The inner lid 14 is located above the upper opening of the inner tank 6. In the top cover 2, a laundry inlet and outlet 15 is formed above the inner cover 14. Further, in the top cover 2, a cover 16 for opening and closing the laundry inlet and outlet 15 is provided. The cover 16 is arranged to be rotatable toward the top cover 2 via a hinge 16a on the rear side. In the case of the first embodiment shown in Fig. 2, the cover 16 is of a split type. At the rear of the top cover 2, a warm air supply device 20 is disposed. The warm air supply device 20 includes a fan 21 for blowing air, a fan -8-200914673 case 22 surrounding the fan 21, a fan motor 23 for rotationally driving the fan 21, a heater 24 for heating, and a heater 24 for accommodating the heater 24 The heater box 25 and the supply duct 26 connected to the heater box 25 are formed. The suction port 2 2 a of the fan case 22 communicates with the external suction port 27 formed at the rear of the top cover 2. The discharge port 22b of the fan case 22 communicates with the inside of the heater case 25. The supply duct 26 has a bellows shape which is excellent in stretchability and flexibility. The lower end portion of the supply duct 26 is connected to the warm air supply port 28 formed in the tank cover 13. A discharge port 29 is formed in a lower portion of the peripheral wall portion of the outer tub 5. Further, a circulation guide 30 extending in the vertical direction is provided outside the peripheral wall portion of the outer tub 5. The lower portion of the circulation duct 30 communicates with the inside of the outer tank 5 via the discharge port 29. The upper portion of the circulation duct 30 is communicated to the outer tank 5 via a circulation port 31 formed in the tank cover 13. At the upper end portion of the circulation duct 30, an exhaust port 32 is formed. At this exhaust port 32, a filter 33 is mounted. At the bottom of the outer tank 5, a drain passage 35 is connected via a drain valve 34. When the fan 21 is rotationally driven by the fan motor 23 of the warm air supply device 20, and the heater 24 is energized, the air flow is formed by the air blowing action of the fan 21 as indicated by an arrow A in Fig. 1 . Specifically, when the fan 21 is driven, external air is drawn into the fan casing 22 through the suction port 22a through the external suction port 27. Then, the air sucked into the fan casing 22 is discharged into the heater casing 25 through the discharge port 22b. The air in the heater box 25 is heated by the heater 24 to be warmed. This warm air is supplied into the tank 4 through the supply conduit 26. The warm air supplied into the tank 4 is mainly supplied into the inner tank 6, and is also supplied between the inner tank 6 and the outer tank 5 through the through hole 8. The warm air in the outer tank 5 flows out from the side of the circulation duct 30 from the discharge port 29 and -9-200914673, and flows upward in the circulation duct 30. Then, a part of the warm air flows out of the outer casing 1 outside the circulation duct 30 through the exhaust port 32, and the remaining warm air is returned to the tank 4 again from the circulation port 31. Thus, the rotation of the fan 2 1 causes the air heated by the heater 24 to circulate. Inside the front portion of the top cover 2, a control circuit unit 39 is provided. On the upper portion of the front portion of the top cover 2, an operation panel 40 as shown in Fig. 3 is provided. In the operation panel 40, an "in" button 41, a "cut" button 42, a "start" button 43, a "dry" button 44, a "wash" button 45, a "wash" button 46, and a reservation for power supply are provided. Key 47, "Dehydration" button 48, "Clean" button 49, "Laundry" button 50, "Slot laundry" button 51, "Maintenance" button 52, "Water level" button 5 3, "Water flow" button 5 4, "Bathtub water" button 5 5. In addition to the above-described keys, the operation panel 40 is provided with displays 57 to 64 for displaying the contents of the selection or setting of these keys or the presence or absence of them. The "Start" button 43 also serves as a "temporary stop" button. The control circuit unit 39 is provided with a control circuit 650 having a microcomputer as a main body as shown in Fig. 4 . Fig. 4 is a view showing an electric structure centered on the control circuit 65. The control circuit 65 constitutes a control means in the scope of the patent application. The control circuit 65 is connected to the non-volatile memory 66. The control circuit 615 is input with various operation signals from various operation keys 41 to 55 provided on the operation panel 40. Further, the control circuit 65 receives a signal from the water level sensor 67, the temperature sensor 68, and the cover switch 619 as a cover opening/closing detecting means. The water level sensor 67 detects the water level in the tank 4 and the outer tank 5, and outputs a water level detection signal based on the detected water level to the control circuit 65. The temperature sensor 68 detects the temperature in the heater cartridge 25, and outputs a temperature detection signal based on the detected temperature of -10 200914673 to the control circuit 65. The cover switch detects that the opening and closing of the cover 16 is output to the control circuit 65 based on the open/close detection signal of the detected cover 6. Further, the control circuit 65 is input with a signal from the resolver 7A. The rotation sensor 70 detects the number of rotations of the motor 12 that drives the device', and outputs a rotation number detection signal of the detected motor 1 2 to the control circuit 65. The control circuit 65 controls the motor 1 2 water valve 71, the drain valve 34, and various displays provided on the operation panel 40 according to the input signals input by the various sensors described above and the control program stored in advance. 5 7 to 6 4. Buzzer 7 as a notification device 2, fan motor 2 3, 24, cover locking mechanism 73. The water supply valve 71 intermittently supplies tap water supplied from a water heater (not shown) into the inside of the tank 4 or the inner tank 6. The cover lock 73 locks the cover 16 into a locked state. Next, the operation of controlling the washing and drying by the above control circuit 65 will be described. The operation mode set by the washer-dryer according to the first embodiment is three types of the cleaning program, the washing and drying program, and the drying program. These washing procedures, washing and drying procedures, and drying programs are each set with a number of detailed procedures. In the case of normal program operation, when "washing 46,". The "wash" button 45 and the "dry" button 44 are operated to select a predetermined program. Moreover, if necessary, by the contents of the laundry stroke, the washing process, the dehydration stroke, the water level setting, the intensity of the water flow, the presence or absence of the bath water supply, etc., by the "dehydration" button 48, the "washing" button 49, the laundry button 5 0, "water level" button 5 3, "water flow" button 5 4, "bath 69, close the detection of the sense of I 1 1 into the machine, the machine is set to the washing machine differentiation machine" Clear the cylinder water, the factory water -11 - 200914673 ” button 5 5 to set. In addition to the above-described program operation, the tank cleaning process of the outer tank 5 and the inner tank 6 of the washing tank 4, and the tank drying process of the outer tank 5 and the inner tank 6 of the drying tank 4 may be set. When the "START" button 43 is operated after each program is set, the operation of the washing and drying machine in accordance with the selected program is started. Further, the laundry is previously introduced into the inner tank 6. In the case of the operation of the washing and drying machine and the operation of the washing program, the washing course, the washing course, and the dehydrating course are performed in the order. Furthermore, depending on the setting, there is also a case where one of the itineraries is not performed. In the case where the washing is carried out, the lotion is introduced into the inner tank 6 in advance. The washing stroke is to supply and store the tank 4 by opening the water supply valve 7 1 while the drain valve 34 is closed. Further, the washing stroke is performed by rotating the pulsator 1 〇 forward and backward by the motor 12. Thereby, the laundry is contained in the laundry in the inner tank 6. When the laundry stroke is over, the drain valve 34 is opened, and the water in the tank 4 is discharged to the outside of the machine by the drain passage 35. The washing course was carried out in the same manner as the washing course except that the detergent was not used. The dehydration stroke is performed by the motor 12 rotating the pulsator 丨〇 and the inner groove 6 at a high speed in a state where the drain valve 34 is opened. Thereby, the laundry in the inner tank 6 is dehydrated by centrifugation. The water from the laundry is discharged to the outside by the drain passage 35. When such a washing program is performed, normally, at the time when the dehydration step is completed, the operation is completed. After the buzzer 72 is notified, the power of the washing and drying machine is turned off. The user opens the lid 16 and the inner lid 14 and takes out the laundry in the inner tank 6. Then, the inner cover 14 and the cover 16 are closed. Then, place the washer dryer. At this time, moisture is left on the inner surface of the groove 5 outside the groove -12-200914673, the inner surface of the inner groove 6, and the outer surface, which may cause mold. Therefore, in the first embodiment, the following automatic groove drying function is added. Hereinafter, the automatic groove drying function will be described with reference to a flowchart showing the control contents of the control circuit 65 of Fig. 1. The user first sets a program to be operated on the operation panel 40 (step S1). Here, when the user sets the automatic slot drying function, the "maintenance" key 52 is operated when the setting of the washing program is selected. Thereby, the control circuit 65 sets the automatic slot drying function, and the display 61 corresponding to the "maintenance" key 52 is turned on. Further, the control circuit 650 stores the automatic groove drying function setting in the non-volatile memory 66. The setting of the automatic tank drying function, once set, is memorized in the state in which the next washing is also set. When the setting of the automatic slot drying function is canceled, the user operates the "Maintenance" button 5 2 again when selecting the setting of the washing program. Then, the display 61 corresponding to the "maintenance" key 52 is turned off, and the control circuit 65 cancels the setting of the automatic slot drying function. The control circuit 650 memorizes the setting of the automatic slot drying function to be stored in the non-volatile memory unit 6 6 . In this case, it is also treated as the setter without the automatic tank drying function in the next washing. The control circuit 65 determines in step S2 whether or not the automatic groove drying function is set as the program for the selected setting. In the case where the automatic groove drying function is set, the control circuit 65 moves to step S3 in accordance with "γ E S", and determines whether or not the operation of the washing program is set. The control circuit 65 shifts to step s 4 in accordance with "Y E S" when the operation of the -13-200914673 washing program is set. Here, the control circuit 65 judges whether the stroke of the set washing program is the one including the washing stroke, the washing stroke, and the dehydrating stroke, or the person including the washing stroke and the dehydrating stroke. In the usual washing procedure, it is equivalent to one of these strokes. The control circuit 65 determines in step S4 that the set stroke of the washing program includes the laundry stroke, the washing stroke, and the dehydration stroke, or includes the washing stroke and the dehydration stroke, and proceeds to step S5 according to "YES". Standby is performed until the "Start" key 43 is operated. The control circuit 65 executes a washing program corresponding to the washing operation selected by the user when the "start" key 43 is operated (step S6). The washing program selected to be selected is a program consisting of a washing stroke, a washing stroke, and a dehydrating stroke, or a program consisting of a washing stroke and a dehydrating stroke. The control circuit 65 executes the washing program set by the user, and if the operation is completed, the notification by the buzzer 72 is performed. Thereby, the control circuit 65 notifies the user that the washing operation is completed (step S7). Then, the control circuit 65 measures the elapsed time after the end of the washing operation, and determines whether or not the predetermined time T1' has elapsed in the case of whether or not one hour has elapsed. This predetermined time Τ1 corresponds to the "3rd scheduled time" of the patent application scope. Further, the control circuit 65 determines whether or not the cover opening and closing detection has been performed (steps S8, S9). In the normal case, the user "when the notification of the buzzer 72 is notified that the washing operation is completed" is opened, the lid 16 and the inner lid 4 are opened, and the laundry in the inner tank 6 is taken out. Then the user closes the inner lid 14 and the lid 16. At this time, the -14-200914673 control circuit 615 detects that the laundry has been taken out from the inner tank 6 by detecting the opening and closing operation of the lid 16 by the lid switch 69. When the control circuit 65' detects the opening and closing operation of the lid 16 within one hour after the end of the washing operation in the steps S8 and S9, it is judged that the user has taken out the laundry from the inner tank 6. Then, the control circuit 65 shifts to steps S 1 0, S 1 1 in accordance with "YES". The control circuit 65 measures the elapsed time after the opening and closing detection of the cover 16 and determines whether or not the elapsed time is a predetermined time T 2 set in advance. In this case, whether or not the start key is operated within 30 minutes has elapsed. This predetermined time T2 corresponds to the "fourth scheduled time" in the scope of the patent application. When it is determined in step S10 that the "start" key 43 is operated within 30 minutes, the control circuit 605 moves to step S12 in accordance with "YES". Then, the control circuit 65 activates the lid lock mechanism 73 to lock the lid 16 to the closed state, and then performs the tank drying operation (step S13). In this case, the opening and closing operation of the lid 16 and the key operation of the "start" key 43 correspond to a specific operation for performing the tank drying operation after the washing operation is performed. The tank drying operation is specifically carried out as shown in Fig. 5 . The tank drying operation consists of a tank drying stroke and a cooling stroke. In the tank drying stroke, the control circuit 6 opens the drain valve 34, and energizes the fan motor 23 to rotationally drive the fan. At the same time, the control circuit 65 energizes the heater 24, and the inner groove 6 is rotated at a high speed by the motor 12. The energized state or the driven state is shown by a diagonal line in Fig. 5'. Here, the air blown by the rotation of the fan 21, as described above, the air outside the machine is sucked into the fan casing 22 by the external suction port 27, and the air in the casing 22 of the wind -15-200914673 is discharged by the discharge port 22b. Discharged into the heater box 25. By the heating of the heater 24, the air discharged into the heater casing 25 is heated and warmed. This warm air is supplied into the tank 4 through the supply conduit 26. The warm air supplied to the tank 4 is mainly supplied between the inner tank 6 and the outer tank 5 through the through hole 8 after being supplied into the inner tank 6. Then, the warm air in the outer tank 5 is discharged from the discharge port 29 to the circulation duct 30 side. After the circulation duct 30 flows upward, a part of the air is discharged from the exhaust port 32 to the outer casing outside the circulation duct 30. In the other part, the other part is returned to the slot 4 again by the circulation port 31. In this way, the warm wind circulates. Further, the inner tank 6 is rotated at a high speed, and the moisture adhering to the inner tank 6 is blown by the centrifugal force. The tank 4, that is, the outer tank 5 and the inner tank 6, is dried by the supply of the warm air and the high-speed rotation of the inner tank 6. At this time, the amount of exhaust gas from the tank 4 is increased by opening the drain valve 34. As a result, the moisture in the tank 4 is discharged to the outside of the tank 4 earlier, so that the drying efficiency is improved. The tank drying stroke is performed, for example, for 1 minute. When the drying stroke is over, a cooling stroke is performed. In the case of the cooling stroke, the control circuit 65 closes the drain valve 34 while continuing the operation of the fan motor 23, and stops the energization of the heater 24, and the control circuit 65' stops the high-speed rotation of the inner tank 6, Only the pulsator 1 is rotated forward and backward. This cooling stroke is performed, for example, for 5 minutes. When the cooling stroke ends, the control circuit 65 stops the fan motor 23 and also stops the rotation of the pulsator 10. Thereby, the tank drying operation is completed. The control circuit 65' unlocks the lid 6 of the lid lock mechanism 73 when the tank drying operation is completed, and the buzzer 72 notifies that the tank dryer is finished (steps S14, S15). Then, the control circuit 05 turns off the power (step S16), and all the operations are ended. Further, in the above-described step S6, the washing operation is executed, and after the buzzer is notified, the opening and closing detection of the lid 16 is not performed after one hour, and the control circuit 65 determines that the user has forgotten to take out the laundry' or not. The meaning of washing. Therefore, the control circuit 65 moves to step S16 in accordance with YES in step S8, and does not perform the tank drying operation, thereby forcibly closing the power source. Thereby, even if the above-described predetermined operation is not performed after the washing operation is performed, the user does not have to leave the washing and drying machine for a long time while being powered on. Further, in the above-described step S6, the washing operation is executed, and after the buzzer is notified, the lid 16 is opened and closed, that is, YES at step s9, but the "start" key 43 is within 30 minutes. When it is still not in operation, the control circuit 65 determines that the user has taken out the laundry but recorded the "start" key 43. Therefore, the control circuit 65, at step S1, moves to step S12 in accordance with "YES", and after the cover locker 73 locks the cover 16, the tank drying operation is performed. In this case, since the laundry is taken out of the tank 4, there is no problem even if the tank drying operation is performed. Further, in this case, the opening and closing of the lid 16 after the execution of the washing operation corresponds to a specific operation for performing the tank drying operation. Further, in the control circuit 65, it is determined in step S2 that the automatic groove drying function is not set in the set operation program, and the standby is performed in accordance with "NO moves to step S17, and the operation start key is started. Further, the control circuit 65 When the "Start" key 43 is operated, the program of the selected source 72 is taken to take the factory setting for the operation of the factory (step s 1 8 ). The control circuit 65, after the operation of the selected setting program is completed, performs the notification of the buzzer 72 (step S1 9), and moves to step S16, and turns off the power. When the control circuit 65 determines that there is an automatic slot drying function setting in step S2, if it is determined in step S3 that the set program is not a washing program, the operation proceeds to step S20 according to "NO", and the automatic slot is not available. Stand by until the operation of the start button of the dry setting. Then, the control circuit 65 executes the program of the selected setting when the "START" key 43 is operated (step S22). When the operation of the selected program is completed and the buzzer 72 is notified (step S23), the control circuit 65 shifts to step S16 to turn off the power. Further, the case where the set program is a non-washing program means, for example, a case where a washing and drying program or a drying program is set. According to the first embodiment described above, the following effect 〇 control circuit 65 can be obtained, and the washing operation consisting of the washing stroke, the washing stroke, and the dehydrating stroke, or the washing stroke and the dehydrating stroke can be performed. In the case of the washing operation, when the automatic tank drying function is set, when the opening and closing operation of the lid 16 and the operation of the "start" key 43 are performed after the washing operation is performed, it is determined that there is a specific operation and the tank drying is performed. Running. Further, after the completion of the washing operation, the control circuit 65 does not perform the specific operation including the opening and closing operation of the lid 16 and the operation of the "start" key 43 even after the predetermined time T 1 ' set in advance. Perform the tank drying operation and turn off the power. By this, the case where the washing and drying machine is placed even if the user performs the washing operation can prevent the long-term placement in the state of the power supply -18-200914673. Further, the control circuit 65 performs the opening and closing operation of the lid opening detecting and closing operation after the washing operation is performed, and even if it has passed for 30 minutes, "when the start 43 is not operated, the tank drying operation is performed. After the user takes out the laundry and forgets to perform the "start" key 43, the tank drying operation can also be performed. The washing and drying machine has a " " button 5 2 for setting the automatic tank drying function. When the "drying function" is set by the operation of the "maintenance" key 52, the control circuit 65 records the setting as a non-volatile memory 66. Therefore, the washing and drying machine can be automatically set as having the automatic tank function at the next start of the washing and drying power supply. Therefore, it is not necessary to set the automatic tank drying function every time the washing operation is performed, and the operability is good. Further, it is also possible to set the automatic slot drying function by the operation of the "maintenance" key 52. Control 65, even when the automatic groove drying function is not set, can be stored in the non-volatile memory 6 6 ° so when the dryer is started next time, it can be automatically set to no automatic groove drying. Features. After the washing operation is performed and before the tank drying operation is performed, the control 65 locks the lid 16 to the closed state by the lid lock mechanism 73. When the tank drying operation is performed, it is possible to prevent the lid 16 from being erroneously wound by the control circuit 650 during the tank drying operation to make the drain valve 34 into a state. Therefore, the amount of exhaust gas from the side of the groove 4 is increased. Thereby, the moisture can be quickly discharged to the outside of the tank 4 'the drying efficiency of the tank 4 can be improved>> 6 9" key, even if the key operation is automatically remembered by the drying of the machine by "the circuit is set up by the washing circuit to open faster - 19-200914673 (Second Embodiment) A second embodiment of the present invention will be described mainly with reference to Fig. 6. The washing operation in step S6 of Fig. 1 is completed. After the buzzer is notified, steps S8 and S9 are performed. The opening and closing of the cover 16 is detected by the cover switch 6 9 within the hour. The control circuit 6 5 moves to step S 3 1 in accordance with "γ ES" in step S9. Here, the control circuit 65 judges whether or not the time from the detection of the opening of the cover 16 to the detection of the closing of the cover 16 is longer than the predetermined time γ 3 , for example, 2 seconds. That is, the control circuit 605 determines the time required to open and close the cover 16. This predetermined time T3 corresponds to the "5th scheduled time" in the scope of the patent application. When the time required to open and close the lid 16 is longer than 2 seconds, the control circuit 65 determines that the user takes out the laundry in a normal operation. Therefore, the control circuit 65 moves to step S32 in accordance with "YES", and determines that the opening and closing operation of the cover 16 is performed. Further, when the cover 16 is to be opened in order to take out the laundry, there is a case where the cover 16 is immediately closed due to, for example, the user's hand is loose. In this case, even if the laundry cannot be taken out, the opening and closing operation of the lid 16 is performed. Therefore, in the case of the present embodiment, when the control circuit 65 determines that the time when the cover 16 is opened until the cover 16 is detected to be closed for 2 seconds in the step S31, it is determined that the user does not open. Cover 1. Therefore, the control circuit 65 moves to step S3 3 in accordance with "NO" in step S3. Thereby, the control circuit 65 determines that the opening and closing operation of the cover 16 is not performed, and resets the timer for one hour (step S34). Then, the control circuit 65 returns to step S8, and waits until the opening and closing operation of the cover 16 is performed again. -20- 200914673 Control circuit 6 5 'In the case of step S 3 2, it is determined that there is a case where the cover 16 is opened and closed. Then, after 30 minutes have elapsed, the cover 16 is opened again, or until the start key is operated, Standby (steps S 3 5, S 3 6 , S 3 7 ). Normally, the user performs the opening and closing operation of the lid 16 to take out the laundry, and then operates the "start" button 43 within 30 minutes. Therefore, the control circuit 65 moves to step S12 in accordance with "YES" in step S36. Here, as in the first embodiment, the control circuit 65 locks the lid 16 to the closed state by the lid lock mechanism 73, and then performs the tank drying operation (step S1 3) ° control circuit 65, as described above. Steps S35 to S37, when the lid 16 is opened again within 30 minutes from the opening and closing operation of the lid 16, in step S35, the flow proceeds to step S38 in accordance with "YES", and the timer for one hour is reset. Further, the control circuit 65 judges whether or not the cover 16 has been closed 1 hour before the elapse of time (steps S39, S40). The control circuit 65 determines in step S39 that the cover 16 has been closed one hour before the elapse of the operation, and proceeds to step S41 in accordance with "YEs", resets the timer for 30 minutes, and then moves to the time S3. The control circuit 65 does not turn off the cover 16 even after one hour has elapsed in steps S39 and S40, and proceeds to step S16 in accordance with "YES" in step S40. Therefore, the control circuit 65 does not perform the tank drying operation and turns off the power. In the second embodiment described above, in particular, the following effects can be obtained. When the automatic circuit drying function is set, the control circuit 65 detects the opening and closing of the cover 16 by the cover switch 69 after the washing operation is performed. -21 - 200914673 When the time from the opening to the closing of the cover 16 is longer than 2 seconds, the control circuit 615 is judged to have the opening and closing operation of the cover 16. Further, when the time from the opening to the closing of the lid 16 is less than 2 seconds, the control circuit 65 determines that the user has not opened the lid 1, and determines that the lid 16 is not opened or closed. The control circuit 65 detects the opening and closing operation of the cover 16 again without determining the opening and closing operation of the cover 16. Therefore, the control circuit 65 does not recognize the opening and closing of the cover 16 for such a short period of time when the user does not open the cover 16 as the opening and closing operation of the cover 16. Therefore, it can be more reliably judged whether or not the laundry has been taken out. As a result, it is possible to more reliably prevent the movement to the tank drying operation while the laundry remains in the inner tank 6. (Third Embodiment) Fig. 7 shows a third embodiment of the present invention. The third embodiment differs from the above-described first embodiment in the following points. In other words, in the case of the first embodiment, the configuration of the tank drying operation in the tank drying operation and the supply of the warm air to the tank are described. On the other hand, in the case of the third embodiment, the energization and de-energization of the heater 24 are alternately repeated. Thereby, the warm air and the cold air are alternately supplied to the tank 4 while being dried. In the case of the third embodiment, the power-on time to the heater 24 is reduced. Therefore, it is possible to reduce the consumption of power consumption. In the case of the third embodiment, in the tank drying stroke of the tank drying operation, the user may choose to supply only warm air or alternately supply warm air and cold air. For example, when the "Maintenance" button 5 2 is operated, the power of the -22-200914673 "Enter" button is operated, and the "drying" button 50 can be used to change the nature of the wind to be dried. At this time, the 7th segment of the display 5 9 is displayed as 5 9 a, and when only the warm air is supplied, "1" is displayed. When the wind and the wind are alternately supplied, "2" is displayed. By viewing this display, the user can easily recognize that only the supply of warm air or interactively supplies the warm air and the settings. (Fourth Embodiment) A fourth embodiment of the present invention will be described. The configuration of the fourth embodiment of the washing and drying machine is substantially the same as that of the first embodiment. Therefore, the structure of the washing and drying machine only explains the difference. In the fourth embodiment, as shown in Fig. 8, the presence or absence of the laundry display portion 60a is formed on the operation panel 40. The presence or absence of the laundry display unit 60a and the other parts of the operation panel 40 are similar to those of the control circuit 65. In the fourth embodiment, the rotation sensor 70 and the control circuit 65: display the washing contained in the inner tank 6. The weight of the weight of the object is detected, and the means for detecting the presence or absence of the laundry in the inner tank 6 is detected. In other words, the control circuit 65 rotates the pulsator 10 by the motor 12. The circuit 65 determines the weight of the laundry accommodated in the 6 according to the rotation detected by the rotation sensor 70 at this time and the table previously provided by the control circuit 65. Even when a certain amount of electric power is supplied to the motor 1 by the control circuit 65, the amount of the laundry that has been accommodated in the inner tank 6 is large, and the number of rotations detected by the rotation sensor 70 becomes low. Department A, 〉 prisoner's mouth 7 benefits, cold wind state, aiming, with the connection constitutes the body of the device, the control number of the inner groove 2 is the weight. On the other hand, in the case where the amount of laundry, that is, the weight is small, the number of rotations detected by the rotation sensor 7A becomes high. Next, the automatic groove drying function according to the fourth embodiment will be described with reference to Fig. 9 . The user 'first' sets the program to be operated on the operation panel 40 (step S 1 0 1 ). Here, when the user sets the automatic slot drying function, the "maintenance" key 52 is operated when the setting of the washing program is selected. By this, the control circuit 65 sets the automatic slot drying function, and the display 61 corresponding to the "maintenance" key 52 is turned on. Further, the control circuit 65 memorizes the contents of the automatic groove drying function in the non-volatile memory 6 6 . The setting of the automatic tank drying function is once set, and is also stored in the state of being set at the next washing. When the setting of the automatic tank drying function is canceled, the user operates the "Maintenance" button 5 2 again when selecting the setting washing program. Then, the display 6 1 corresponding to the "maintenance" key 52 is turned off, and the control circuit 65 cancels the setting of the automatic groove drying function. The control circuit 65 memorizes the setting of the automatic groove drying function in the non-volatile memory 66. In this case, the next washing is also handled as a setter without the automatic tank drying function. The control circuit 615 determines in step S1 0 2 whether or not the automatic groove drying function as the program of the selected setting is set. When the automatic slot drying function is set, the control circuit 65 moves to step S1 03 in accordance with "YES", and determines whether or not the operation of the washing program is set. The control circuit 65 shifts from -24 to 200914673 to step S1 04 in accordance with "YES" when the operation of the washing program is set. Here, the control circuit 65 determines whether the stroke of the set washing program is a laundry stroke, a washing stroke, and a dehydration stroke, or includes a washing stroke and a dehydrating stroke. If it is a normal washing procedure, it is equivalent to any of these strokes. The control circuit 65' determines in step S104 that the stroke of the set washing program is the one including the washing stroke, the washing stroke, and the dehydrating stroke, or the person including the washing stroke and the dehydrating stroke, and moves to "YES" to In step S1 05, the "start" key 43 is placed on standby until it is operated. The control circuit 65 executes a washing program that is subjected to a washing operation corresponding to the setting selected by the user when the "start" key 43 is operated (step S1 0 6). The washing program selected to be set is a program consisting of a washing stroke, a washing stroke, and a dehydrating stroke, or a washing course and a dehydrating stroke. The control circuit 65 executes the washing program selected by the user, and if the operation is completed, the buzzer 72 is notified. Thereby, the control circuit 65 notifies the user that the washing operation is completed (step S107). Then, the control circuit 65 measures the elapsed time after the end of the washing operation, and determines whether it is the predetermined time T4 set in advance, and whether or not one hour has elapsed. This predetermined time T 4 corresponds to the "first predetermined time" in the scope of the patent application. Further, the control circuit 65 determines whether or not the cover opening/closing detection has been performed (steps S108 and S109). In the normal case, when the user recognizes that the washing operation is completed based on the notification by the buzzer 72, the lid 16 and the inner lid 14 are opened, and the laundry in the inner tank 6 is taken out. Then the user closes the inner lid 4 and the lid 16. At this time, the control circuit 65 determines that the laundry is taken out from the inner tub 6 by the opening/closing operation -25-200914673 of the cover switch 16 detected by the lid switch 69. When the control circuit 65 detects the opening and closing operation of the lid 16 within one hour after the completion of the washing operation in steps S108 and S109, it is determined that the user has taken out the laundry from the inner tank 6. Then, the control circuit 65 moves to steps S1 10 and SI 1 1 in accordance with "YES". The control circuit 65 measures the elapsed time after the opening and closing detection of the cover 16, and the elapsed time is a predetermined time set in advance, and in this case, it is judged whether or not the start key has been operated within 30 minutes. The control circuit 65 determines that the "start" key 43 has been operated within 30 minutes after the step S1 1 0 has elapsed, and proceeds to step S1 12 in accordance with "YES". Then, the control circuit 65 activates the lid lock mechanism 7 3 to lock the lid 16 to the closed state. Then, the control circuit 65 performs weight detection to determine the inner slot. There is no laundry in 6 (step S 1 1 3, S 1 1 4 ) ° Here, the weight detection in step S 1 13 is performed in the same manner as the weight detection of the laundry stroke. That is, the control circuit 65, by the motor 12, only the pulsator 10. Then, the control circuit 65 determines the weight of the laundry based on the magnitude of the number of rotations of the rotation sensor 70 when the pulsator 10 is rotated, and the table which is previously provided. The judgment of the presence or absence of the laundry in the step S 1 14 is not the judgment of the amount of the laundry. That is, in step s 1 1 4, it is judged whether or not laundry remains in the inner tub 6. Therefore, the control circuit 65 compares the number of rotations detected by the rotation sensor 7〇 with the threshold 时 when the laundry in the inner tank 6 is the smallest, and determines whether or not there is laundry. The control circuit 65 determines that there is no laundry in step S1 1 4, and proceeds to step S1 15 based on "YES". Here, the control circuit 65 displays "When there is a laundry with -26-200914673" in the presence or absence of the laundry display unit 6Qa, and the display is turned off, and the "washing" of the non-volatile memory 66 is eliminated. memory. Then, the control circuit 65 performs the tank drying operation (step S 1 16 6). In this case, the opening and closing operation of the lid 16 after the washing operation and the key operation of the "start" key 43 are equivalent to the specific operation for performing the tank drying operation. The tank drying operation is specifically carried out as shown in Fig. 5 which has been described in the first embodiment. Therefore, the description thereof is omitted here. When the groove drying operation is completed, the control circuit 65 releases the locked state of the lid 16 of the lid lock mechanism 73 (step S1 17). Then, the control circuit 65 turns off the power (step S118), and ends all operations. Further, in the above-described step S106, the washing operation is executed, and after the buzzer 72 is notified, the opening and closing detection of the lid 16 is not performed after one hour, and the control circuit 65 determines that the user has forgotten to take out the laundry, or The meaning of taking out the laundry. Therefore, the control circuit 65 moves to step S1 1 8 in accordance with "YES" in step S108', and does not perform the tank drying operation, forcibly turning off the power. Thereby, even if the user does not handle the process after the washing operation is performed, the laundry dryer is not placed in a state where the power is turned on for a long time. In addition, in the above-described step S106, the washing operation is executed, and after the buzzer 72 is notified, the opening and closing detection of the lid 16 is performed, that is, "YES" is performed in the step S1 09, but within 30 minutes, "start" When the key 43 is not operated, the control circuit 65 determines that the user has taken out the laundry, but forgot to operate the "start" key 43. Therefore, the control circuit 65 moves to step S1 1 2 in accordance with "YES" in step S1 1 1 , and after the cover 16 is locked by the cover locking mechanism -27-200914673 73, weight detection is performed (step S 1 1 3 ). The control circuit 65 performs weight detection in step S1 1 3, determines the presence or absence of the laundry in step S1 1 4, and considers that the laundry remains in the inner tank 6 when it is determined that the laundry is present. In this case, the control circuit 65 shifts to step S1 19 in accordance with "NO". Here, the control circuit 65 displays "having laundry" on the presence or absence of the laundry display unit 60a, and even if the presence or absence of the laundry display unit 60a is turned on, the "having laundry" is recorded in the non-volatile memory 66. The control circuit 65 displays "the laundry" on the presence or absence of the laundry display unit 60a, and notifies the user that the laundry remains in the inner tub 6. The user can see that the laundry is forgotten to be taken out by viewing the display of "having laundry" in the presence or absence of the laundry display portion 60a. As a result, the user opens the lid 16 and the inner lid 14 again, takes out the laundry in the inner tub 6, and closes the inner lid 14 and the lid 16. When the presence or absence of the laundry display unit 60a displays "having laundry", the control circuit 65 determines whether or not the lid 16 is opened or closed within 10 minutes of the predetermined time T5 set in advance (step S1 2 0, S 1 2 1 ). This predetermined time T5 corresponds to the "second predetermined time" in the scope of the patent application. When the control circuit 6 5 ' detects the opening and closing operation of the cover 16 within 1 minute, it is determined that the user takes out the laundry from the inner tub 6. Therefore, the control circuit 65 returns to step S110 in accordance with "YES" in step S121. On the one hand, the control circuit 65 does not detect the opening and closing operation of the cover 16 even after 10 minutes have elapsed, and in step S120, the operation is turned off in accordance with "Y E S" to the step S1 18, and the power is turned off. The control circuit 65 performs the display of "having laundry" on the presence or absence of the laundry display portion 60a -28- 200914673 in step S1 19, and stores the "having laundry" in the state of the non-volatile memory 66 as described above. The opening/closing operation of the lid 16 is not detected even after one minute, and the tank drying operation is not performed, and the power supply is turned off. When the next power is turned on, the presence or absence of the laundry display unit 60a displays "having a laundry". That is, the presence or absence of the laundry display portion 60a is turned on. Thereby, the control circuit 65 can notify the user that the laundry remains in the inner tub 6. When it is determined in step S102 that the automatic groove drying function is not set in the set operation program, the control circuit 65 moves to step S1 22 in accordance with "NO". Then, the control circuit 65 waits until the start key is operated. The control circuit 65 executes the program of the selected setting when the "START" key 43 is operated (step S1 23). The control circuit 65 performs notification of the buzzer 72 when the operation of the selected program is completed (step S1 24). Then, the control circuit 65 moves to step S1 18 to turn off the power. When the washing and drying program or the drying program is set, for example, the control circuit 65 determines in step S102 that the automatic groove drying function setting is determined to be the set program non-washing program in step S103, based on " N 0 "Move to step S 1 2 5 . Then, the control circuit 65 does not perform the automatic groove drying setting until the operation with the start key, and waits (step S126). Further, when the "START" key 43 is operated, the control circuit 65 executes the program of the selected setting (step S127). The control circuit 65 performs notification of the buzzer 72 when the operation of the selected setting program is completed (step S128). Then, the control circuit 65 shifts -29-200914673 to step S1 18, and turns off the power. When the control circuit 65 determines in step S104 that the program of the washing program set in step S101 is not including the washing stroke, the washing stroke, and the dehydration stroke, or the program that does not include the washing stroke and the dehydration stroke, "NO" moves to step S125. According to the fourth embodiment described above, the following effects can be obtained. When the control circuit 65 sets the washing operation program including the washing stroke, the washing stroke, and the dehydration stroke, or the washing operation program including the washing stroke and the dehydration stroke, when the automatic tank drying function is set, After the washing operation program is executed, the opening and closing operation of the lid 16 is detected by the lid switch 69. Then, the control circuit 65 detects the operation of the "start" key 43, and detects the presence or absence of the laundry in the inner tank 6 by the weight detection, and determines that there is no laundry, and automatically performs the tank drying operation. Thereby, it is possible to prevent the laundry from remaining in the inner tank 6 and to perform the tank drying operation. When the detection result of the weight detection is that there is a laundry, the control circuit 65 displays "the laundry" on the presence or absence of the laundry display unit 60a, and notifies the user. The user can easily recognize that the laundry remains in the inner tub 6 by viewing the "having laundry" display. Therefore, the user opens the cover 16 and the inner lid 14 again, and takes out the laundry in the inner tub 6, and then closes the inner lid 14 and the lid 16. Thereby, the tank drying operation can be prevented in a state where the laundry remains in the inner tank 6. The control circuit 65' detects the inner tank 6 by the weight detection when the cover switch 69 detects that the cover 16 is opened or closed within one hour as the predetermined time T4 after the execution of each washing operation program. There are no washings inside. If the user does not open and close the lid 16 , the user cannot take out the laundry. Therefore, the control circuit 650 can detect the presence or absence of laundry in the inner tank 6 only when the lid 16 is opened or closed. Therefore, the detection of the presence or absence of laundry in the inner tank 6 is not excessively performed. When the presence or absence of the laundry display unit 60a' indicates that the laundry is present, the control circuit 65 detects the opening and closing of the cover 16 by the cover switch 6 9 within 1 minute of the predetermined time T5. The presence or absence of washing in the inner tank 6 is detected by weight detection. Then, the control circuit 65 notifies the detection result by the presence or absence of the laundry display unit 60a. Thereby, the state in which the laundry remains in the inner tub 6 can be further prevented from occurring. When the presence or absence of the laundry display unit 60a indicates that the laundry is present, the control circuit 65 does not detect the opening and closing of the lid 16 by the lid switch 69 even after 10 minutes as the predetermined time T5. Perform the tank drying operation and turn off the power. Thereby, the tank drying operation can be surely prevented while the laundry remains in the inner tank 6. Further, it is possible to prevent the laundry dryer from being left for a long time while the power source is turned on. When the control circuit 65 determines that the lid 16 has not been opened or closed for one hour as the predetermined time T4 after the end of the washing operation program, the tank drying operation is not performed and the power is turned off. Thereby, even if the user places it after performing the washing operation, it is possible to prevent the washing and drying machine from being placed for a long time while the power is turned on. Further, after the occupational washing operation program, the control circuit 65 detects the opening and closing operation of the lid 16 by the lid switch 69, and when the "start-31 - 200914673" key 43 is not operated for 30 minutes, the weight is performed. The inspection circuit 65 performs the tank drying operation when it is determined based on the result of the weight detection. Thereby, even if the key operation of the "START" key 43 is forgotten after use, the tank is dried. The control circuit 65 sets an automatic slot drying function to store the set in the non-volatile memory 66 in the operation of setting the presence or absence of the automatic slot dry key 52. Road 65, the next time the power of the washing and drying machine is turned on, it has an automatic tank drying function. Therefore, it is not necessary to operate, and the user can perform the setting of the automatic tank drying function, and the function can be set by the operation of the "maintenance" key 52. Thereby, when the control circuit 65 is set to be self-contained, the contents are memorized in the non-volatile memory pin, and the control circuit 65 is automatically set to the automatic slot-free drying function at the next time the washing and drying machine is turned on. The control circuit 65 locks the lid 16 to OFF by the lid lock mechanism 73 after performing the washing operation, and can be erroneously opened when the weight detection or the groove drying operation is performed. The drain valve 34 is made to increase the amount of exhaust gas from the side of the tank 4 by the tank drying operation. Therefore, it can be discharged to the outside of the tank 4 to increase the drying efficiency of the tank 4. The present invention is not limited to the above embodiment and can be measured. Then, if the person who controls the unwashed product is taken out, the washing function can automatically perform the "drying function". Therefore, the electric control is controlled, and the washing is automatically performed each time, and the usability is good. No automatic groove drying movement tank Drying function I 66. When the power is turned on, the weight is detected before the closed state. Therefore, the cover 16 is prevented from being opened, and the various changes of water described below are further expanded or expanded. It is limited to the warm air supply device 20 including the fan 21 for blowing air and the heater 24 for heating, and may be, for example, a fan 21 for blowing air and a fan motor 23 for rotationally driving the fan. Only the inner groove 6 is rotated by the motor 12. After the washing operation is completed and the buzzer is notified, the time for the cover opening and closing detection, that is, the predetermined time T1 of the step S8 of the first embodiment and the step S of the fourth embodiment are waited for. The predetermined time T4 of 1 0 8 is not limited to 1 hour, and may be 45 minutes or 1 hour and 15 minutes. After the opening and closing detection of the cover 16 is performed, the start key is waited for in the step S 1 1 of the first embodiment. The predetermined time T2 is not limited to 30 minutes, and may be 20 minutes or 40 minutes. In the step S 3 of the second embodiment, the predetermined time T 3 from the opening of the lid to the closing of the lid is not limited to 2 seconds, and may be In the step S 1 2 0 of the fourth embodiment, after the display and storage of the laundry, the predetermined time T 5 for waiting for the opening and closing detection of the cover 16 is not limited to 10 minutes, and may be 15 minutes or 8 minutes. The present invention is not limited to the vertical axis type washing and drying machine, and is also applicable to a drum type laundry dryer in which the center line of the shaft including the groove is substantially directed in the horizontal direction, that is, slightly inclined. Fig. 1 is a flow chart showing the control contents of the display control circuit according to the first embodiment of the present invention. -33- 200914673 Fig. 2 is a longitudinal side view of the washer-dryer according to the first embodiment. Fig. 4 is a block diagram showing the electrical configuration of the first embodiment. Fig. 5 is a view showing the stroke of the groove drying operation of the first embodiment. Fig. 6 is a view showing the second aspect of the present invention. Flow chart of the embodiment. Fig. 7 shows the present FIG. 8 is a view corresponding to FIG. 3 showing a fourth embodiment of the present invention. FIG. 9 is a flowchart showing a fourth embodiment of the present invention. Component symbol description] 1 : Outer box 2 : Top cover 3 : Foot 4 : Slot 5 : Outer groove 6 : Inner groove 7 = Elastic suspension mechanism 7 a : Dangling bar 8 · Through hole 9 : Rotary balancer 1 0 : pulsator-34- 200914673 1 1 : Drive unit 1 2 : Motor 1 3 : Slot cover 1 4 : Inner cover 14a : Hinge 1 5 : Washing inlet and outlet 16 : Cover 16a : Hinge 20 : Warm air supply device 2 1 : Fan 22: Fan case 2 2 a : Suction port 2 3 : Fan motor 2 4 : Heater 2 5 : Heater box 26 : Supply duct 2 7 : External suction port 2 8 : Warm air supply port 2 9 : Discharge port 3 0: circulation duct 3 1 : circulation port 3 2 : exhaust port 3 3 : filter 3 4 : drain valve - 35 200914673 3 5 : drain passage 3 9 : control circuit unit 4 0 : operation panel 4 1 - 5 5 : Operation key 5 7-64 : Display 60a : With or without laundry display part 6 5 : Control circuit 66 : Non-volatile body 67 : Water level sensor 68 : Temperature sensor 69 : Cover switch 70 : Rotation sensing 71: water feed valve 72: buzzer 73: -36 cover locking mechanism

Claims (1)

200914673 X. Patent application scope 1. A washing machine comprising: a washing, washing and dewatering tank for washing; a lid for opening and closing a washing inlet and outlet for placing and removing the washing material in the tank; a lid opening and closing detecting means for opening and closing the lid; a washing material detecting means for detecting presence or absence of laundry in the tank; a tank drying means for drying the tank; and a tank drying operation control means including a washing stroke, a washing course, and dewatering When the opening and closing of the lid is detected by the lid opening and closing detecting means after the execution of the washing operation of at least one of the strokes is completed, the laundry detecting means detects whether or not the laundry is in the tank, and detects the presence or absence of the laundry in the tank. As a result, in the case of no washing, the aforementioned tank was dried by the above-described tank drying means. 2. The washing machine according to the first aspect of the invention, wherein the notification means, wherein the detection means is that the washing result is detected by the washing means detecting means, the washing means is notified by the notification means Things. 3. The washing machine according to the first aspect of the invention, wherein the control means does not perform the tank drying operation when the detection result of the laundry detecting means is a laundry, and turns off the power. 4. The washing machine of claim 1 or 2, wherein the control means is detected by the cover opening and closing detecting means only for the first predetermined time after the execution of the washing operation is completed. In the case of opening and closing, the presence or absence of laundry in the front is detected by the laundry detecting means. 5. The washing machine of claim 2, wherein the control means detects the opening and closing of the cover by the cover opening and closing detecting means in the second predetermined time after the washing means is notified by the notification means. In the case, the presence or absence of the laundry in the tank is measured by the laundry detection, and the result is reported by the above-mentioned notification means. 6. The washing machine of claim 2, wherein the control means notifies that the cover is opened or closed by the cover opening/closing detecting hand even after the second predetermined time has elapsed after the washing means is notified by the notification means. In the case of the case, the aforementioned groove drying is not performed, and the power is turned off. [7] The washing machine of claim 2, wherein the control means notifies that the cover is opened or closed by the cover opening/closing detecting hand even after the second predetermined time has elapsed after the washing means is notified by the notification means. In the case of the above, the above-described groove drying is not performed, and the power is turned off, and when the power is turned on next time, it is reported that the laundry is present by the above-mentioned report. 8. The washing machine according to claim 1, wherein the control means does not detect the opening and closing of the lid by the lid opening and closing detecting means even after the third predetermined time elapses. The polyester detected the section to detect the knot and the polyester section also runs the polyester section and also runs the forehand to close the -38- 200914673 power supply. 9. The washing machine according to claim 1, wherein the input means for inputting an instruction to the control means, wherein the control means performs a key operation on the input key after the execution of the washing operation is completed - by The laundry detecting means detects the presence or absence of laundry in the tank. 10. The washing machine according to claim 1, wherein the control means is provided with an input key for inputting an instruction to the control means, and the control means passes through a state in which the input key is not key-operated after the execution of the washing operation is completed. At the fourth predetermined time, the presence or absence of laundry in the tank is detected. 11. The washing machine according to claim 9 or 10, wherein the control means detects the opening of the lid by the lid opening and closing detecting means after the washing operation is performed, and after the fifth predetermined time or longer, When the closing of the cover is detected, it is determined that the opening and closing operation of the cover is determined to be the case where the closing of the cover is detected after the opening of the cover is detected, and the closing of the cover is detected after the fifth predetermined time period. There is no opening and closing operation of the aforementioned cover. -39-