TWI373543B - Washing machine - Google Patents

Description

1373543 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a washing machine which has improved control contents when power is returned. [Prior Art]

In the washing machine, when the power is interrupted (especially when the power is turned off) during operation, in general, the operation is interrupted. Therefore, it is necessary for the user to perform the operation for restarting the operation again after the power is restored. For example, the washing machine described in Patent Document 1 and the washing machine described in Patent Document 2 are known as a washing machine in consideration of a countermeasure against a power failure and a power failure. The washing machine described in Patent Document 1 is provided with a non-volatile memory and is stored in the non-volatile memory, and is stored during operation to set the content or progress of the operation. Then, the washing machine, when the power failure occurs, is followed by the power supply recovery (when the power is turned on), from the stage of the operation of the memory in the non-volatile memory, to the non-volatile The content in the memory causes the operation to start again. Further, the washing machine described in Patent Document 2 is mainly controlled by a non-power failure power supply device and a main power supply device (a power supply device for each device included in the washing machine) at a common commercial power source (primary power). Ministry .  Make a connection. On the other hand, in the washing machine, when the commercial power source is blocked, the main control unit is automatically stopped by a specific processing program. Further, in the washing machine, when the supply of the commercial power source is resumed, the main control unit automatically activates 1373543. [PRIOR ART DOCUMENT] [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. In the washing machine of Patent Document 1, the user can restart the operation from the interrupted stage after the power failure of the power failure, and it is convenient. However, in the washing machine of Patent Document 1, the above-described control is performed not only when the power failure occurs during operation, but also when the power switch is turned off by the user during operation (when the power is restored). From the stage of the operation of the memory in the non-volatile memory, the control is started again by memorizing the content in the non-volatile memory. Therefore, for example, even when the user turns off the power switch in order to restart the operation from the beginning, the operation is resumed from the middle when the power is restored, and it is inconvenient. . Further, the washing machine of the cited document 2 does not memorize the operation state or the operation content at the time of power failure. Therefore, it is impossible to restart the operation of the washing machine from the state before the power supply is interrupted. It is an object of the present invention to provide a case where the power supply is interrupted due to a power failure or the like during operation, and when the power is restored, it can be cut off from the stage of the electrical interruption of the -6 - 1373543. When the operation is normally resumed, or when the power switch is turned off during operation, the washing machine can be operated from the beginning when the power is returned. [Means for Solving the Problem] The washing machine of the present invention is characterized in that it is provided with a control device for supplying power from the power source, a non-volatile memory, and a power supply for the control device. The power-off switch that cancels the state, the control device includes a function of storing the setting content or the progress state of the operation in the non-volatile memory during operation; and when the operation is normally ended Or the function of clearing the memory content of the non-volatile memory when the power-off switch is operated to cancel the power-on state of the control device in the operation described above; and when in the foregoing control device When there is power supply, it is judged whether the content of the non-volatile memory of the non-volatile memory is cleared; and when it is judged that the memory content of the non-volatile memory is not cleared, the memory is memorized from the basis In the progress stage of the memory content in the memory, the function of the above operation is resumed in accordance with the content within the memory content. [Effects of the Invention] According to the present invention, when power is interrupted due to power failure or the like during operation, 'when returning to power supply' can be interrupted by power supply from the stage of power supply interruption. Content to get the operation started again. On the other hand, when the operation is normally completed or the power switch is turned OFF during operation, the operation can be performed from the beginning when the power is restored. [Embodiment] [Embodiment 1] Hereinafter, a first embodiment of the present invention will be described with reference to Fig. 15 and Fig. 15. Fig. 13 shows an overall configuration of a vertical axis type washing machine in a washing machine. The outer casing 1 which is the outer casing of the washing machine is a bottom base la, and a box body lb which is placed on the base ia and is combined, and is mounted on the box body lb and is It is composed of a combined top cover lc. At the top cover lc, the washing machine cover id is provided to be openable and closable. Inside the outer casing 1, a water tank 2 is provided. The water tank 2 is elastically supported by an elastic suspension mechanism 3 mainly composed of a plurality of hangers 3a (only one of which is shown). Inside the water tank 2, a swirling groove 4 is provided. The rotary groove 4 has a basket shape and has a plurality of (only a part of the illustrated) dewatering holes 5 in the entire area of the peripheral side wall. At the upper edge portion of the rotary groove 4, for example, a rotary balancer 6 in which a liquid is sealed is attached. At the bottom of the inside of the rotary groove 4, a stirring body 7 is disposed. At the lower portion of the outside of the water tank 2, a drive unit 8 extending from the bottom is provided as a washing machine motor. The drive unit 8 is, for example, an outer rotor type DC brushless motor as a main body, and a clutch mechanism (not shown) is housed in the interior 1373543. The driving device 8 is configured to directly rotate the stirring body 7 in the forward and reverse directions, for example, in the state in which the rotating tank 4 is stopped while the washing machine is in operation (washing stroke, washing stroke). . Further, when the driving device 8 is dehydrated, the rotary groove 4 is directly rotated in the same direction as the agitating body 7 in one direction. At the bottom of the water tank 2, a drain port 9 is formed. In the water tank 2, the internal water is drained from the drain port 9 through the drain valve 1 〇 and the drain pipe 1 1 φ. At the drain port 9, air traps 12 for water level detection are arranged side by side. At this air trap 12, an air tube 13 is connected. In Fig. 14, the operation panel 14 is displayed by a specific display state which will be described later. This operation panel 14 is, for example, disposed at the front of the top cover 1 C. The operation panel 14 is provided as a power switch, and is provided with a power supply switch 15A formed by a self-recovery type push switch and a power cutoff switch 16 formed by an automatic return type push switch. Further, the operation panel 14 is provided with a power failure display display φ unit 17 for displaying a power failure, a reservation switch 18 for setting a reservation for operation, and a reservation for setting the operation reservation. The display 19 and the remaining time display 20 for displaying the remaining time (reservation standby time) from the start of the operation until the start of the operation, and the air drying switch 21 for setting the air drying, and The air drying is set to display the air drying display 22. Further, the operation panel 14 is provided with a travel switch 23 for setting a stroke of the operation, and for displaying the set operation stroke ("standard stroke", "strong cleaning stroke", "really cleaning stroke", " Pre-dip line 9- 1373543, j, "rubber stroke", "slot cleaning stroke") travel display 24 to 29, and start switch 30 for starting the operation, and water level switch for setting the water level 3 1. and a water level display 32 to 35 for setting the water level for display, a cleaning switch 36 for setting the cleaning stroke, and a cleaning time display 37 for displaying the set time of the cleaning stroke, and for washing The cleaning switch 38 for setting the net stroke, the cleaning number display 39 for displaying the set number of cleaning strokes, and the water washing display 40 for displaying the water washing and cleaning, and for dehydrating The dehydration switch 4 1 for setting the stroke and the dehydration time display 42 for displaying the set time of the dehydration stroke. Further, in the various displays described above, LEDs are used. On the other hand, in Fig. 15, an electrical configuration in which the control device 43 is the main body is shown. The control device 43 corresponding to the core of the electrical configuration is formed, for example, by a microcomputer disposed inside the top cover lc. The microcomputer is constructed by including a CPU, a ROM, a RAM, etc., and controls various operations of the washing machine by executing a program stored in advance. If the power-on switch 15 5A is operated, the control unit 43 is powered from the power source 4 4 . The power supply relay circuit 45 maintains the power supply state by the signal from the control unit 43 based on the power supply. Further, when the power-off switch 16 of the operation panel 14 is operated, the power supply relay circuit 45 cancels the power-on state by the signal from the control device 43 based on the operation. Further, even when the supply of the power source is interrupted due to a power failure or the like, the power source relay circuit 45 is also released from the power supply state of the control device 43. -10- 1373543 At the control device 43, various operation signals are input from the switch input unit 46 formed by another switch group provided in the operation panel 14. Further, at the control device 43, a rotation detecting signal is input from the rotation sensor 47 provided to detect the rotation of the driving device 8 (and the rotation of the rotary groove 4 or the agitating body 7). Further, at the control unit 43, the water level sensor 48 is provided from the water level sensor 48 which detects the water level in the water tank 2 by passing the air tube 13 through the air trap 12, and φ is input with the water level detecting signal. Further, the control device 43 calculates the rotation speed of the driving device 8 (and the rotation tank 4 or the stirring) by dividing the rotation detection signal per unit time input from the rotation sensor 47 by the unit time. The rotation speed of the body 7). Then, the control device 43 operates on the display unit 49 formed by the various display groups included in the operation panel 14 based on the various signals input and the control program stored in advance, especially for the electronic device. The operation of the buzzer 50 formed by the buzzer, the operation of the water supply valve 51 provided to the water supply in the water tank 2, the operation of the drain valve 10, and the operation of the drive unit 8 control. Further, the control device 43 is, for example, between the non-volatile memory 52 and the non-volatile memory 52 made of, for example, an EEPROM, and the memory information is generally transmitted and received as will be described later. Next, the operation of the washing machine configured as described above will be described. .  Fig. 1 through Fig. 5 show the control contents of the washing machine caused by the control unit 43. Figure 1 shows the control content when the power is turned on. If the power-on switch 1 5 A is operated, the control unit 43 is powered from the power source 44 as described above. According to this power supply, the control unit 43 holds the power supply state at the power supply relay circuit -11 - 1373543 (step A1). Then, the control unit 43 reads the memory information of the power failure from the non-volatile memory 52 (step A2), and judges from the read information whether or not the power failure information is cleared (step A3). When the control device 43 determines in step A3 that the power failure information is cleared (YES), the control unit 43 performs a normal power-on display on the various displays of the operation panel 14 (step A4), and the buzzer is provided. 50 "Operation of normal power supply" is performed (step A5). In the "normal power input operation" of the buzzer 50, the control device 43 causes the buzzer 50 to perform once. 05 seconds of action. In addition, the number of operations of the buzzer 50 or the operation time in the "normal power supply operation" can be appropriately changed and implemented. Thereafter, the control unit 43 determines whether or not the start switch 30 is operated (step A6). When the control device 43 determines that the start switch 30 is operated (YES), the normal operation is performed (step A7). On the other hand, if the control device 43 determines in step A3 that the power failure information system has not been cleared (NO), it is stored in the various displays on the operation panel 14 to perform the memory read in step A2. The blackout information in the information (the occurrence of power failure, the setting content of the operation before the power failure occurred in the non-volatile memory 52, or the progress status) is displayed (step A4'). Fig. 14 shows an example of the contents displayed by the control unit 43 in the above step A4'. In this case, the control unit 43 displays the occurrence of a power outage by causing the power-off display 17 to be turned off. • 12 - 1373543 Then, the control device 43 lights the blanket stroke display 28 and the water-filled cleaning display 40, and displays "2" (2 times) at the water injection number display 39, and displays at the dehydration time display 42 "5" (5 times) and turn on the water level display 32. As a result, the control device 43 displays that the set stroke before the power failure occurs is the "rubber stroke", and in the blanket stroke, "the operation is stopped during the second water washing", "dehydration" The time is 5 minutes remaining," "Set the water level to a high water level." Further, the control device 43 causes the buzzer 50 to perform an "operation in which power failure occurs" (step A5'). In the "operation in which power failure occurs" of the buzzer 50, the control device 43 causes the buzzer to repeatedly perform the operation for 1 〇 2 seconds and stops the operation for 0 · 3 seconds. That is, the control unit 43 operates the buzzer 50 in a different form (different mode) from the above-described normal power supply. In addition, the operation time, the stop time, or the number of times of the buzzer 50 in the "operation in which the power failure occurs" can be appropriately changed and implemented. Thereafter, the control unit 43 determines whether or not the start switch 30 is operated (step A6'). When the control start switch 30 is operated (YES), the control device 43 restarts the operation from the displayed content from the progress of the operation displayed in step Α4·. That is, the control device 43 starts the operation again by the content stored in the non-volatile memory 52 from the stage of the operation of the memory stored in the non-volatile memory 52 before the occurrence of the power failure (steps). Α7·). Fig. 2 through Fig. 5 show in detail the control contents of the normal operation performed by the control unit 43 in step Α7. Initially, the control unit 4 3, -13 - 1373543 determines whether it is in operation (step All). In this case, if the control device 43' does not perform the operation end processing of the step A52 to be described later, it is determined that the operation is performed in the step A1 (YES). Therefore, next, the control device 43' determines whether or not there is a reservation setting (step A12). If the control device 43 determines that there is no reservation setting (NO), it is further determined whether or not there is a setting of the cleaning stroke (step A13). Here, if the user is not set to the stroke switch 23 In the case of the "standard stroke" that is automatically set in the case of operation, the control device 43' determines in step 13 that the cleaning stroke is set (YES). Therefore, next, the control unit 43 determines whether or not the detection stroke of the laundry amount is completed (step A14). The control device 43, if the detection stroke for determining the amount of laundry is not finished (NO), is at this stage, and the memory is stopped. (Step A 1 5).  Figure 6, Demonstrate the itinerary of the "Standard Itinerary" And the travel memory No as the power failure information in this progress phase. The stroke memory No corresponding to the detection stroke of the laundry amount, The system is "1". Therefore, In the above step A1 5, Control device 43, It is determined that the system is carrying out the detection stroke of the amount of laundry in the "standard stroke". The itinerary memory No. 1 which is the power failure information corresponding to this stage is memorized (refer to Fig. 2). In addition, In this "standard trip", The stroke memory No corresponding to the water supply stroke after the detection stroke of the laundry amount, Is ^ 3". The stroke amount corresponding to the drainage stroke after the washing stroke is "No. 4". The stroke memory No corresponding to the first spray cleaning stroke (spray cleaning 1 - 14 - 1373543) after the first intermediate dehydration stroke (dehydration 1), It is "5". The stroke corresponding to the second spray cleaning stroke (spray cleaning 2) after the second intermediate dehydration stroke (dehydration 2) It is "6". The stroke of the water supply stroke corresponding to the third intermediate dehydration stroke (dehydration 3) is 100 million, It is "7". The stroke memory No corresponding to the drainage stroke after the final cleaning stroke, It is "8". The stroke memory No corresponding to the air drying stroke after the final dewatering stroke, Is ^ 9 * ". Regarding other itineraries, The system is not set to have a corresponding trip memory 'φ No. Therefore, Control device 43, For other itineraries, The system does not remember the power outage information.  Figure 7, Show the content of the itinerary with "pre-dip" And the travel memory No as the power failure information in this progress phase. In addition, The stroke after the first intermediate dehydration stroke (dehydration 1) in the "pre-dip stroke",  It is the same as the stroke after the first intermediate dehydration stroke in the above-mentioned "standard stroke". In Figure 8, It shows the contents of the itinerary of "Standard Itinerary with Scheduled Appointment", And the φ travel memory No as the power failure information in the progress phase. In Figure 9, It shows the contents of the itinerary of "pre-dip trip with the setting of the reservation". And the travel memory No as the power outage information in the progress phase. In addition, The stroke after the first intermediate dehydration stroke (dehydration 1) in the "pre-dip stroke with the setting of the reservation",  It is the same as the stroke after the first intermediate dehydration stroke in the above-mentioned "standard stroke". In Figure 1〇, Shows the itinerary of the "slot cleaning journey", And the travel memory No as the power failure information in the progress phase.  For other trips, the illustration of the stroke content and the stroke memory No is omitted. -15- 1373543 Figure 11, It is a part of the memory map showing the non-volatile memory 52. At the address 10 of the non-volatile memory 52, The travel system memory has 4bit memory capacity, The water level system has a memory capacity of 2 bits. In the event of a power outage, the memory of the machine has 4 bits of capacity, The dehydration time is memory with 4 bits of memory capacity. At address 12 of the non-volatile memory 52, Cleaning time is based on the memory capacity of 4 million The number of washings is 3 bits of memory, memory capacity, Wind drying time is memory with 3 bit memory capacity, The pre-dip time has a memory capacity of 3 bits.  Figure 1 2, For the content of the memory that is remembered in the non-volatile memory 52, The above items are displayed together with the above respective memory capacities. Control device 43, It will be about the content of the trip, Memory is generally used as shown in Figure 12. That is, Control device 43, It is to memorize the memory content corresponding to the "standard trip" to "1", Memorize the memory content corresponding to the "Strong Cleaning Itinerary" at "2", Memorize the memory content corresponding to the "really cleaned trip" to "3", Memorize the memory content corresponding to the "rubber stroke" in "4", Memorize the memory content corresponding to the "pre-dip stroke" at "5", The memory content corresponding to the "slot cleaning stroke" is stored in "6". Control device 43, Will be related to other projects (water level, Cleaning time, ...) the memory content, They are also generally remembered as shown in Figure 12, respectively.  and, After step A15, Control device 43, The amount of laundry was detected (step A16 shown in Fig. 2). In the detection of the amount of laundry, Control device 43, E.g, The time required to raise the rotary groove 4 to a specific rotational speed, And thereafter, the driving of the rotary groove 4 is stopped and the -16-1373543 rotary groove 4 is inertly rotated and thereby the time required for the rotational speed of the rotary groove 4 to be lowered to a specific rotational speed is To detect the amount of laundry, that is, Control device 43, The amount of laundry is detected based on the rotational load of the drive unit 8. So, Rotating the sensor 47 and the control device 43, It is responsible for detecting the amount of laundry.  After step A16, Control device 43, The end (end flag) of the detection stroke of the laundry amount is set (step A17). then, Control φ device 43, Go back to step All, And in the same manner as described above, after step A12, A13, And arrive at step A14. at this time, As a result of the above step A17, Control device 43, It is judged that the detection stroke of the amount of laundry is ended (YES). therefore, then, Control device 43, It is judged whether or not the "pre-dip stroke" is set (step A 18). The control device 43' determines that the "pre-dip stroke" (NO) is set. Under this stage, And the memory power failure information (step A19). at this time, Control device 43, The detection stroke of the amount of laundry that determines the "standard stroke" is completed and proceeds to the next φ water supply stroke. The travel memory No "3" which is the power failure information corresponding to this stage is recorded as 100 million (refer to Fig. 6).  Thereafter, Control device 4 3, The cleaning stroke is passed from the water supply stroke (step A20). In addition, In the water supply journey, Control device 43, The water supply valve 51 is opened, The water supply in the water tank 2 is turned on until it becomes the water level corresponding to the amount of laundry detected in the step A16 or the water level manually set by the user operating the water level switch 31. During the cleaning process, Control device 43, The stirring body 7 is alternately rotated in the forward and reverse directions, for example. The laundry is thus washed.  -17- 1373543 After step A20, Control device 43, Set the end of the cleaning stroke (step A2 1), then, The setting of the cleaning stroke is cleared (step A22). then, Control device 43, The system returns to step A1 1 again. And passing through step A12 in the same manner as described above, And arrive at step A13. at this time, As a result of the above step A22, Control device 43, It is judged that there is no setting of the cleaning stroke (NO). therefore, then, Control device 43, It is determined whether there is a setting of the cleaning stroke (step A2 3 shown in Fig. 3). In step A23, Control device 43, If it is judged that there is a cleaning stroke setting (YES), Then, it is judged whether or not the first intermediate dehydration stroke (dehydration 1) is completed (step A24). Control device 43, If it is judged that the first intermediate dehydration stroke has not ended (NO), Under this stage, And remember the power outage information (step A25). at this time, Control device 43, It is determined that the cleaning stroke of the "standard stroke" is completed and proceeds to the next drainage process. The itinerary memory No. "4" which is the power failure information corresponding to this stage is memorized (refer to Fig. 6).  Thereafter, Control device 43, The first intermediate dewatering stroke is passed from the draining stroke (step A26). In addition, During the drainage trip, Control device 43, So that the drain valve 1 is open, The water in the water tank 2 is discharged to the outside of the machine through the drain pipe 1 1 . In the first intermediate dehydration process, Control device 43, The laundry is centrifugally dehydrated by rotating the rotary tank 4, after step A26, Control device 43, The end of the first intermediate dehydration stroke is set (step A27). then, Control device 43, Then go back to step All, And in the same manner as described above, after step A12, A13,  -18- 1373543 A23, And arrive at step A24. at this time, As a result of the above step A27,  Control device 43, It is judged that the first intermediate dehydration stroke is ended (YES).  therefore, then, Control device 43, It is determined whether or not the number of times of the washing course is set three times (step A28).  Control device 43, If it is judged that the number of washing strokes is set to 3 times (YES), Under this stage, And remember the billion blackout information (step A30). at this time, Control device 43, It is determined that the first φ intermediate dehydration stroke of the "standard stroke" is completed and the next first spray cleaning process (spray cleaning 1) is performed. The itinerary memory No. "5" which is the power failure information corresponding to this stage is memorized (refer to Fig. 6).  Thereafter, Control device 43, The second intermediate dehydration stroke (dehydration 2) is passed from the first shower cleaning stroke (step A3 1 ). In addition, In the first spray cleaning process, Control device 43, The washing water is flushed with the feed water (water injection) in the water tank 2 and the rotation of the rotary tank 4 either interactively or simultaneously. In the second intermediate dehydration stroke, the control device φ is set to 43, The same operation as the first intermediate dehydration step described above is performed.  After step A3 1, Control device 43, The end of the first shower washing stroke is set (step A32). then, The control device 43' sets "3 times" which is set as the number of cleaning strokes to be cleared "at the same time" as the number of washing strokes. Set "2 times" (step A3 3). Then, Control device 4 3, And then go back to step A 1 1, And in the same way as the foregoing, after the step person 12, Eight 13, Eight 23, Enter 24' and go to step eight 28°, As a result of the above step A33, Control device 43, The number of times the washing course was judged was not set to 3 times (NO). Therefore 'Next' -19-1373543 control device 43, It is determined whether the number of times of the washing course is set to 2 step A29).  Control device 43, If it is judged that the number of washing strokes is set (YES), Under this stage, Memory blackout information (A34). at this time, Control device 43, It is determined that the intermediate dehydration stroke of the "standard stroke" is completed and the next second spray washing process (spray cleaning 2) is performed. In the case of the power outage transaction No. 6 corresponding to this stage, it is recorded as 100 million (refer to Figure 6).  Thereafter, Control device 43, The intermediate dewatering stroke (dehydration 3) is carried out from the second spray cleaning stroke (step A3 5). In addition, During the spray cleaning process, Control device 43, The same operation as the above-described first washing course is performed. In the third intermediate dehydration process, Control 43, The same operation as the first intermediate dehydration step and the second intermediate stroke described above is performed. After step A3 5, Control device 43,  The end of the second spray cleaning stroke is completed (step A3 6). then, Control 43, "2 times of cleaning is set as the number of cleaning trips. Simultaneously, As the number of cleaning trips, Set "1 time" to A37).  then, Control device 43, And then go back to step A1 1. And after the same step, through step A12, A13, A23, A24, A28, And step A29. at this time, From the result of step A37, The control device 43 determines that the number of washing strokes has not been set to 2 (NO).  'then, Control device 43, The power failure information is made at this stage (step A38). at this time, Control device 43, It is judged that "the standard line (for the 2nd step 2nd net operation, the 2nd sprinkler dehydration system is installed)" (step forward arrives, Therefore, the second spray cleaning stroke of the memory path j -20- 1373543 ends and proceeds to the next water supply stroke. In the case of the power outage information corresponding to this stage, the number of tickets is "No. 7" (see Figure 6).  Thereafter, Control device 43, The final dewatering stroke is passed from the water supply stroke (step A39). In addition, In the water supply journey, The control unit 43' performs the same operation as the above-described water supply stroke. In the final wash journey, Control device 43, The same operation as the above-described cleaning stroke is performed.  φ after step A3 9 Control device 43, Setting the end of the final washing course (step A40), then, Clear the setting of the cleaning stroke (step A4 1).  then, Control device 4 3, And then go back to step A 1 1, And after the same as the foregoing, step A 1 2 A 1 3, And arrive at step A23. at this time,  As a result of step A4 1, Control device 43, It is judged that the washing course (NO) is not set. therefore, then, Control device 43, It is judged whether or not there is a setting of the dehydration stroke (step A42 shown in Fig. 4) » φ in step A42, Control device 43, If it is judged that there is a setting of the dehydration stroke (YES), It is judged whether or not the final dehydration stroke is ended (step A43). Control device 43, If it is judged that the final dehydration stroke has not ended (NO), Under this stage, And the memory power failure information (step A44). at this time, Control device 43, It is determined that the final washing course of the "standard stroke" is completed and proceeds to the next drainage stroke. In the case of the power failure information corresponding to this stage, the number of records is "No. 8" (see Fig. 6).  Thereafter, Control device 43, From the drainage stroke through the final dewatering line -21 - 1373543 (step A45). In addition, During the drainage trip, The control device performs the same operation as the above-described drainage stroke. At the final dehydration f control device 43, The system is the same as each of the intermediate dewatering strokes described above. but, Control device 43, Is the time to dehydrate this final, It is assumed that each of the above intermediate dehydration times is longer.  After step A45, Control device 43, The end of the final process is set (step A46). then, Control device 4 3, It is determined that there is a setting of the air drying stroke (step A47). The control device determines that there is a setting for the air drying stroke (YES). Then it is to step A 1 1 . then, Control device 43, From step A 1 1,  In the same way, after step A12, A13, A23, A42, And to A43. at this time, As a result of step A46, Control device 43, The end of the dehydration schedule is terminated (YES). therefore, then, Control assembly f is under this stage, And the power outage information is memorized (step A4 8), Control device 43, Determine the final dewatering stroke of the "standard stroke" and proceed to the next air drying stroke. In the case of the power outage information of the corresponding segment, the record number is "No. 9" for memory (refer to the figure. Control device 43, After the wind drying process (steps. In addition, In this wind drying process, Control device 43, The same action is taken for the dehydration stroke. After step A49, The control device clears the setting of the dehydration stroke (step A50). And go back to step. then, Control device 43, From step All, Come along with the above, after step A12, A13, A23, And arrive at step A42. At this point, the result of step A50, Control device 43, The judgment is not set 4 3, In the system,  The action is determined to be more dehydrated. If it is returned to the previous step, the judgment is at most 43,  . At this point, the process is tied to this order 6).  A49 ) with the final ί 43,  All the same place, By step There is dehydration • 22 - 1373543 stroke (NO). therefore, then, Control device 43, Clearing the power outage information of the recorded billion (step A51), The operation end processing is performed (step A52). Therefore, After the power is turned on, Control device 43, Becomes in step A3, It is judged that the power outage information is cleared (YES).  Although not shown, but, Control device 43, It is also detected that the operation of the power cut-off switch 16 during the operation is also performed (that is, 电源 F F ) is detected after the power switch. Then, the control device 4 3 ' is when the OFF of the electric source 'φ source switch is detected. The memorized information of the memory is also cleared. Therefore,  Even when the power cut-off switch 16 is operated while in operation, When the power supply is followed, , Control device 43, Also in step A3, It is judged that the power outage information is cleared (YES).  In addition, in step A47, Control device 43, If it is judged that there is no wind drying stroke setting (NO), Then proceed to step A5 0 » In step A18 shown in Figure 2, Control device 43, If it is judged that φ is set to "pre-dip stroke" (YES), Then, It is judged whether or not the prepreg stroke is ended (step A53). Control device 43, If it is judged that the prepreg stroke is not over (NO), Under this stage, And the memory power outage message (step A54). at this time, Control device 43, It is determined that the detection stroke of the amount of laundry of the prepreg j is completed and proceeds to the next water supply stroke. The itinerary memory No. "2" which is the power failure information corresponding to this stage is memorized (refer to FIG. 7).  Thereafter, Control device 43, The prepreg stroke is passed from the water supply stroke (step A55). In addition, In the pre-dip stroke, Control device 43, The rinsing in the water -23- 1373543 tank 2 (in the rotary tank 4) is immersed in the washing water. After step A55, Control device 43, Setting the end of the pre-dip stroke (step A56), then, Going back to step A1. then, Control device 43,  From step All, In the same manner as described above, after step A12, A13,  A14, A18, And arrive at step A53. at this time, By the result of step A56, Control device 43, It is judged that the prepreg course is ended (YES). Therefore,  then, Control device 43, The process proceeds to step A19. on the other hand, In the above step A12, Control device 43, If it is judged that there is a reservation setting (YES), Then, It is judged whether or not the reservation standby time has ended (step A57 shown in Fig. 5). Control device 43, If it is judged that the standby time is not over, Then, steps A58 to A61 which perform the same operations as steps A1 4 to A17 described above, And return to the step All.  then, Control device 43, From step All, In the same manner as described above, after step A12, A57' and proceeds to step A58. The control device 43' terminates (YES) if the detection course of the amount of laundry is determined. Then, it is determined whether or not the "pre-dip stroke" is set (step A62) ° control means 43, If the judgment system is not set to "pre-dip stroke" (NO), then it is under this stage. And remember the billion power outage information (step A63). At this time, the control device 43, It is determined that the detection course of the amount of laundry of the "standard stroke with the setting of the reservation" is completed and the reservation standby state is reached (in the stomach waiting time). The course memory No. "3" which is the power failure information corresponding to this stage is recorded as 100 million (refer to Fig. 8).  In step A62, Control device 43, If the judgment is set to "pre-dip stroke" (YES), Under this stage, And the memory blackout information -24-1373543 (step A64). at this time, Control device 43, It is determined that the detection course of the amount of laundry of the "pre-dip stroke with the setting of the reservation" is completed and the reservation standby state is reached (in the reservation standby time). In the case of the power failure information corresponding to this stage, the record number is "No. 2" (see Fig. 9). The travel memory No. "2" and the travel record is "No. 3". The system is the same as the power outage information when the water supply trip is in progress. That is, Control device 43, When there is no reservation setting, Even if it is the appointment standby trip, It is also not a memory of what has been done in the appointment standby journey. And it will have been carried out to the water supply trip to make a record of 100 million. then, Control device 43, When you start running again, Does not stand by, And start running directly from the water supply stroke. 〇 In step A57, Control device 43, If it is judged that the reservation standby time is over (YES), The reservation settings are cleared (step A65).  In addition, In Figure 2 to Figure 5, Regarding the "strong cleaning stroke" performed by the control device 43, "Really pre-dip trip", "Blanket journey", The control contents of the "slot cleaning stroke" are omitted.  So, In the washing machine of the present configuration, Control device 43, Attached to non-volatile memory 52, In operation, it is used to remember the setting contents or the status of the operation. also, Control device 43, When the normal operation ends, Or when the power switch is turned OFF, The memory contents of the non-volatile memory 52 are cleared. then, Control device 43,  -25- 1373543 is when the power is turned on, If it is judged that the previous power supply is blocked, the operation is completed. Or judge that it is not the OFF of the power switch (step is NO), Then it becomes possible to start from the stage of the non-volatile recording of 52 revolutions (especially from the stroke corresponding to the progress phase), The memory begins again in memory of the non-volatile memory 52.  By this, washing machine, When a power outage occurs during operation, it is NO in step A3, Can be followed, The contents of the non-volatile memory 52 are memorized in the progress phase of the operation of the power recovery memory in the non-volatile memory 52 to cause the operation to be repeated (Step A71). on the other hand, When the OFF operation of the used power switch is performed during operation (in step A3, And after the odd, When the power is turned on, It is possible to carry out the operation from the beginning (step A7).  also, In the washing machine of the present configuration, Control device 43, When electricity, If it is judged that the previous power supply is not normally used, Or not the OFF of the power switch, Then, an event is displayed (step A4'). By this, It is possible to notify the user of the origin of the power outage and clearly.  and then, In the washing machine of the present configuration, Control device 43, When a power outage occurs, the system will display The buzzer 50 is operated in a different form from when the power is turned on (step A5'). It is also possible to easily and clearly notify the user of the occurrence of a power outage. In the washing machine of the present configuration, Control device 43, When the normal operation of the medium in A3 is usually (when From , Come back to the beginning (which is caused by YES) to re-invest in the end of the power-off. It is easy to set the power outage at the usual time.  〇 When you have not entered the -26- 1373543 line with the appointment setting, It is set as a memory that does not perform standby time at the non-volatile memory unit 52 (step A63, A64). By this, When the power is turned back on and the operation starts again, It is possible to start the operation again without waiting for it.  Relative to the above, Figure 16 to Figure 19, The second embodiment to the fifth embodiment of the present invention are shown. In addition, In the second embodiment to the fifth embodiment, For the same part as the first embodiment, Attach the same symbol, And the description thereof is omitted. It is only for the different parts to make a narrative.  [Second Embodiment] In the second embodiment shown in Fig. 16, Control device 43, The system is set to display the power outage and is not displayed by a dedicated display.  Instead, use an existing display for display. in particular, washing machine, The aforementioned power failure presence display 17 φ is not provided with a dedicated display. Control device 43, The blanket stroke display 28, which is an existing display, and the water-filled cleaning display 40, which is an existing display, are turned off. At the same time, Control device 43, It is displayed on the cleaning number display 39 of the existing display, and the "2" side is turned off and displayed. At the dehydration time display 42 which is the existing display, the "5" side is turned off and displayed. also, Control device 43, The water level display 3 2, which is an existing display, is illuminated.  By this, Control device 43, The system will display the power outage,  then, Same as the above, shown : Set the trip before the power outage -27- 1373543, It is a "carpet trip". During this blanket trip, "In the second note, the operation is stopped in the washing process," "Dehydration time is 5 minutes remaining," "Set the water level to a high water level." According to this embodiment, It is possible to use a dedicated display for displaying a power outage, which is unnecessary. And can reduce costs.  [Third embodiment] In the third embodiment shown in Fig. 17, Control device 4 3, When the power outage is displayed, It is impossible to change the setting contents of the operation.  in particular, Control device 43, As an insertion routine in the display of a power outage, At the beginning, it is judged whether or not there is an operation of various switches of the operation panel 14 (step B1). Control device 43, If it is judged that there is no operation (no), Then return to the main return (return). on the other hand, Control device 43, If it is judged that there is an operation (YES), it is judged whether or not the power failure information stored in the non-volatile memory unit 5 2 is cleared (step B2).  Control device 43' in step B2, If it is judged that the power failure information is cleared (YES), the processing corresponding to the operated switch is performed (step B3). on the other hand, Control device 43, If it is judged that the power outage information system has not been cleared (NO), It is judged whether or not the switch that has been operated is the start switch 30 (step B4). In this step B4, If the control device 43' determines that the open relationship is operated as the start switch 30 (YES), Then proceed to step B3. on the other hand, Control device 43, If it is judged that the opening relationship of -28-1373543 is not the start switch 30 (NO), It is judged whether the switch that has been operated is a child switch (step B5). In addition, The washing machine of this embodiment, In this case, For example, by simultaneously operating the reservation switch 18 and the start switch 30, It is implemented as a sub-switch.  v Then, In step B5, Control device 43, If it is judged that the open relationship of the operation is a sub-switch (YES), Then proceed to step B3. Another φ on the one hand, the control device 43, If it is judged that the switch that has been operated is not a sub-switch (NO), Then return to the main routine.  That is, Control device 43, It becomes the operation of the start switch 30 for restarting operation and the sub-switch for safety. The processing corresponding to the operation of the switch is performed. In contrast, Control device 43, For the operation of the switch other than the start switch or sub-switch, This is a change in the setting contents of the operation that does not receive the operation of the switch. By this, Control device 43, When the power outage is to be displayed, It is impossible to change the setting contents of the operation φ.  Control device 43, When the power outage is to be displayed, The display of the operation panel 14 is set to a state different from that in the normal state (refer to FIG. Figure 16). In this state, In the case of a switch operation that changes the setting of the operation, The display becomes incomprehensible, There is a possibility that the user is confused. In the washing machine of the third embodiment, There will be no cases where the display has been changed. Therefore, The display system is maintained in an easy to understand state, There is also no possibility of confusion for the user.  -29- 1373543 [Fourth embodiment] In the fourth embodiment shown in Fig. 18, Control device 43, When the power outage is displayed, When an operation to change the setting contents of the operation is performed, Set to eliminate the display of a power outage,  And switch to the usual display.  in particular, Control device 43, As an insertion routine in the event of a power outage, On the other hand, it is first determined whether or not there is an operation (including a switch for changing the setting contents of the operation) of the various switches included in the operation panel 14 (step C1). Control device 43, If it is judged that there is no operation (NO), Then return to the main routine (return). on the other hand, Control device 43, If it is judged that there is an operation (YES), it is judged whether or not the power failure information stored in the non-volatile memory 52 is cleared (step C2).  Control device 43, In step C2, If it is judged that the power outage information is cleared (YES), Then, processing corresponding to the switch that has been operated is performed (step C3). on the other hand, Control device 43, If it is judged that the power outage information system has not been cleared (NO), The display of the power failure information is eliminated (step C〇 ' and proceeds to step C3. In addition, In the processing of step 3 (corresponding to the processing of the switch that has been operated), It contains the usual display in response to the switch operation. Control device 43, When a power outage occurs, the display is performed. When an operation to change the setting contents of the operation is performed, Is set to eliminate the display of the occurrence of a power outage, And switch to the usual display.  So in this way, by the display of the occurrence of a power outage, And cut -30- 1373543 for the usual display, Can eliminate the possibility of confusion for the user.  [Fifth Embodiment] In the fifth embodiment shown in Fig. 19, Control device 43, When the power outage is displayed, When it is detected that there is a power switch OFF, Set to clear the memory content of the non-volatile memory 52,  And then the power supply is blocked.  in particular, Control device 43, As an insertion routine in the display of a power outage, At the beginning, it is judged whether or not there is an OFF of the power switch (operation of the power-off switch 16) (step D1). Control device 43, If it is judged that there is no OFF (NO) of the power switch, Then return to the main routine (return). on the other hand, Control device 43, If it is judged that there is a power switch OFF ( YES ), It is judged whether or not the power failure information stored in the non-volatile memory 52 is cleared (step D2).  Control device 43, In step D2, If it is judged that the power outage information is cleared (YES), Then, the process of blocking the power supply is performed (step D3).  on the other hand, Control device 43, If it is judged that the power outage information system has not been cleared (NO), Clearing the power failure information stored in the non-volatile memory 52 (step D4), And proceed to step D3 (processing of power supply interruption) 〇 If by this configuration, Then, when there is a situation in which there is a blackout and the state is to be restarted before the power failure occurs, It suffices to operate the start switch 30 as described above. In contrast, When there is a blackout in the -31 - 1373543 and you want to perform normal operation, Turn off the power switch and turn the power on again. The operability is improved by an easy-to-understand operation.  In addition, Control device 43, For the setting content or status of the operation caused by the non-volatile 52 in operation, The system also remembers in each particular itinerary as described above. It is done in a specific time.  also, Control device 43, It is also possible to disable the display function for occurrence of power failure and the function of restarting operation from the state by the operation of the specific operation-surface operation reservation switch 18 - facing the power-on switch 15A. In this case, At the time of work, The above functions are validated, And the above functions can be invalidated by the operation of the user. If the above function is invalidated, after the power outage occurs, Even if it is powered, The display is also in the state of normal input. also, If the above functions are invalidated, And repeat the same specific operation, Then the above work can be activated. and then, If the control device 43 is configured to be in a state in which the function is in an active state or in an invalid state, the non-volatile memory 52 is included in the information. It is ideal. By this, After making a setting that is valid or invalid, It is not necessary to set the validity or invalidity again.  [Sixth embodiment] Next, Referring to FIG. 20 to FIG. 24, For the sixth of the present invention, The ability to store memory may not be specific to each (for example, the shipment before the power outage, Then, in the state of the power supply, the above-mentioned work can be re-described in the above-mentioned work example -32- 1373543. In addition, In this sixth embodiment, For the same part as the first embodiment, Attach the same symbol, And the description thereof is omitted. It is only for the different parts to describe. Figure 20, The electrical configuration of the washing machine of this embodiment is shown.  Power plug 44A, It is connected to a power outlet (not shown) connected to a power source 44 (refer to Figure 15) that is a commercial AC power source. Power plug 44 A, One of the power supply terminals is connected to an input terminal of one of the control power supply circuits φ 45A. The other power supply terminal is connected to the other input terminal of the control power supply circuit 45A via the switch device 15. The two output terminals of the control power circuit 45A, It is connected to the power input terminal of the control unit 43. That is, Switching device 15, a pass circuit 44a provided between the power plug 44A and the control power supply circuit 45A, The circuit 44a in the 44b. This control power circuit 45A, Is a part of the power relay circuit 45 (refer to FIG. 15) 〇 φ switching device 15, Its composition is equipped with: Power input switch 15A,  And latch relay 15B, And ON coil 15C, And OFF with the line 圏 15D» power input switch 15A, It is formed by a push switch that is set to ON by hand and that automatically closes the pass circuit 44a. Latch relay 15B, It is connected in parallel with this power input switch i5A. This latch relay 15B, By being energized by the ON coil 15C, it is closed ’ and After the closed circuit, Even if the ON coil 15C is powered off, Also maintaining a closed circuit, And if the OFF coil 15D is energized, It becomes open. Therefore, This latch relay 15B, As long as the OFF wire is 圏15D not -33- 1373543 is energized, It is maintained in a closed circuit state.  Latching the relay drive circuit 61, The opening and closing of the latch relay 15B is controlled by controlling the energization and de-energization of the ON coil 15C and the OFF coil 15D (on/off control).  This latch relay drive circuit 61, The system has: An NPN-type transistor 62' corresponding to a switching element for turning ON the ON line 15C to ON/0 and a detecting circuit 63 for detecting a closed circuit of the power-off switch 16 (ON operation by the user) , And an NPN-type transistor 64 corresponding to a switching element for turning OFF the OFF coil 15D.  The ON coil 15C and the transistor 62, It is connected in series between the DC power supply Vd and GND (ground). At the base of the transistor 62, a latch signal Sa (transistor ON signal) is applied from the control unit 43. also, Detection circuit 63, A voltage dividing resistor 63a and a voltage dividing resistor 63b connected between the DC power source Vd and GND are provided. Then, Detection circuit 63, Connected to the power cut-off switch 16 in parallel with the voltage dividing resistor 63a of the upper stage. Further, a capacitor 63C for noise absorption is connected in parallel with the voltage dividing resistor 63b of the lower stage. And it is composed. The potential of the junction between the voltage dividing resistor 63a and the voltage dividing resistor 6 3 b, It functions as an ON command/OFF command of the power-off switch 16 . especially, The power cut-off switch 16 is energized at the time of ON operation, It is given to the control device 43 as the power-off command Sb.  OFF coil I5D and transistor 64, It is connected in series between the DC power supply Vd and GND. At the base of the transistor 64, The latching open signal Sc is given from the control device 43 (transistor ON-34-

No. 1373543). At the control device 43, it is connected with: each switch 21, 23, 30, 36, 38, 41), jj, which includes each display 17, 19, 20, 22, 32-, 42), and a washing machine a cover sensor 65, a rotation sensor 47 for rotating the phase of the phase 8, a water level sensor 48 for detecting the φ±, and a non-volatile memory 5 2 and then 'at the control device 43 The drive circuit 8 of the washing machine motor 8 and the drive circuit 10A for driving the inside of the water tank 2 are driven. In this case, the drive circuit 8 is closed by the switching device 15, and becomes a sub-driver. Further, at the drive circuit 10 of the drain valve 10, the drive circuit 51 may be configured to be a control power source. The non-volatile memory 52 is, for example, formed by. This non-volatile memory 52 can also be provided. The control of the washing operation by the control unit 43 is previously performed in the operation control program of 100 million, and the water supply valve 51 and the drain valve 10 are driven and controlled. In this case, as a washing operation stroke, the process. In this embodiment, for example, it is a "standard standard set standard stroke", "with a pre-dip mark group 46 (this package » display group 49a (-35, 37, 39, 40 lings out the washing machine) The water level in the water tank 2 of the motor i is connected with: the water supply valve 5 1 , 10 0 , 5 1 Α for driving the water supply valve of the drain valve 1 , and the commercial AC power supply and the water supply valve 5 1 45A is used to give the function of the E-control device 43 of the EPPROM, etc., and the washing machine motor 8 and the washing machine are used to perform various operations: the process j, "with the pre-i-stroke"槪略-35- 1373543 Description "Standard stroke", as shown in Figure 21, is the order of washing amount detection stroke, water supply stroke, washing stroke, drainage stroke, first intermediate dehydration stroke (dehydration 1) , the first spray cleaning stroke (spray cleaning 1), the second intermediate dehydration stroke (dehydration 2), the second shower cleaning stroke (spray cleaning 2), and the third intermediate dehydration stroke (dehydration 3) , water supply stroke, final washing stroke, drainage stroke, final dewatering stroke, wind drying stroke. The memory timing of the operation progress in this "standard stroke" is T 1 (before the washing amount detection stroke), T2 (before the washing amount detection stroke, before the water supply stroke), T3 (before the washing stroke, before the drain stroke) , T4 (before the first intermediate dehydration stroke, before the first spray cleaning stroke), T5 (before the second intermediate dehydration stroke, before the second shower cleaning stroke), T6 (after the third intermediate dehydration stroke, and the water supply stroke) Front), T7 (after the final washing stroke, before the draining stroke), T8 (after the final dewatering stroke), and T9 (after the air drying stroke). In timing T1, the control device 43 is used as the status memory parameter. In the case of "1", the parameter "1" represents the status (the situation that the control device 43 considers to have been performed) before or during the detection of the amount of laundry, and represents the restart of the operation from the washing amount detection stroke. In the timing T2, the control device 43 stores "3" as the status memory parameter '." This parameter "3" indicates that the status is the middle of the water supply stroke after the detection of the laundry amount, or the representative system is clear. In the middle of the trip, it means that the operation is resumed from the water supply stroke. In the timing T3, the control device 43' is used as the status memory parameter -36-1373543, and the number is "4". This parameter "4" is representative. The condition is the middle of the draining stroke after the washing stroke, or the representative is in the middle of the first intermediate dehydrating stroke, and represents the restart of the operation from the draining stroke. In the timing T4, the control device 43 is used as the status parameter. And the memory "5". This parameter "5"' indicates that the first intermediate dehydration stroke is in the middle of the first shower cleaning stroke, or the representative is the second intermediate dehydration stroke, and represents the second 1 Spray cleaning stroke to φ to start running again. In the timing T5, the control device 43 counts "6" as the progress memory parameter. The parameter "6" represents the middle of the second spray washing course after the second intermediate dewatering stroke, or the middle of the third intermediate dewatering stroke, and represents the second spray washing stroke. Come back to work again. In the timing T6, the control device 43 stores "7" as the progress memory parameter. This parameter "7" represents the middle of the water supply stroke after the 3rd φ intermediate dehydration stroke, or the middle of the final cleaning stroke, and represents the restart of the operation from the water supply stroke. In the timing T7, the control device 43 stores "8" as the status memory parameter '. This parameter "8" indicates that the condition is the end of the final cleaning process and is in the middle of the drainage process, or the representative is on the way to the final dewatering process, and represents the re-starting operation from the drainage stroke. In the timing T8, the "control device 43" is regarded as the status memory parameter, and the value is "9". This parameter "9" indicates that the condition is the final dewatering stroke and is in the middle of the air drying stroke, and represents the restart from -37 to 1373543 from the wind drying stroke. In the timing T9, the washing operation is normally completed, and the control device 43 clears the memory contents up to this point and stores "0" as the status memory parameter. The parameter "0j" indicates that the memory content is cleared. Further, when the power-off switch 16 is turned ON during the above-described washing operation, the control device 43 also clears the memory contents so far. The status is recorded as a parameter of "0" parameter "0". The "standard trip with appointment setting" is similar to the "standard stroke" in that the standby standby stroke is added to the point between the washing amount detection stroke and the water supply stroke as shown in Fig. 22. In this reservation standby course, the control device 43 sets the operation of the reservation switch 18 by the user, and starts to operate after the user's desired time (operation from the water supply stroke). . The memory timing of the operation progress status in the "standard trip with reservation setting" is Tl, Ta, Tb, T3, T4, T5, T6, T7, Τ8, and T9. The "standard trip with appointment setting" is added to the timings Ta and Tb instead of the timing Τ2, which is different from the "standard stroke". The timing Ta is after the laundry amount detecting stroke and before the scheduled standby stroke starts. In the time machine Ta, the control device 43 stores "3" as a status parameter. The parameter "3" indicates that the condition is the middle of the water supply stroke after the washing amount is detected, or the representative is in the middle of the washing stroke, and the operation is resumed from the water supply stroke by omitting the reserved standby stroke. The significance is that if the reservation standby stroke is re-started when the operation starts again -38 - 1373543, there is a possibility that the standby time is increased. The 'time Tb' is after the end of the reservation standby period and before the start of the water supply trip. In this case Tb, the control device 43 stores "3" as a condition memory parameter. The parameter "3" indicates that the condition is the middle of the water supply stroke after the detection of the laundry amount, or the representative is the middle of the cleaning stroke, and the operation is resumed from the water supply stroke φ by omitting the reserved standby stroke. The significance is that if the standby standby stroke is performed again when the operation is resumed, there is a possibility that the standby time is increased. "Standard stroke with prepreg" is as shown in Figure 23. It is different from the "standard stroke" when a prepreg stroke is added after the water supply stroke. The memory timing of the operation progress in the "Standard stroke with prepreg" is ΤΙ, T2, Tc, T3, T4, T5, T6, T7, T8, and T9. "Standard stroke with prepreg", the memory φ at the timing T2 is different, and the timing Tc is added. At this point, it is different from the "standard stroke". The timing T2 is after the end of the washing amount detection stroke and before the start of the water supply stroke. In this case T2, the control device 43 stores "2" as a status memory parameter. This parameter "2" represents the middle of the water supply stroke after the laundry quantity detection stroke, or the middle of the pre-dip stroke, and represents the restart of the operation from the water supply stroke. Further, the timing Tc is after the pre-dip stroke and after the washing stroke. -39- 1373543 In the case of the machine Tc, the "control device 43" is a parameter of the progress status, and the value is "3". This parameter "3" indicates that the condition is the pre-dip line and is in the middle of the cleaning process, and the operation is resumed from the cleaning process by omitting the pre-dip stroke. The significance is that if the prepreg stroke is re-executed when the operation is resumed again, there is a possibility that the prepreg time is increased. The control unit 43 operates in accordance with the flowchart shown in Fig. 24. The flowchart shown in Fig. 24 is started when the control device 43 receives the control power (when the power-on switch 15A is turned ON or when it is returned from a power failure). In step S1, the control unit 43 outputs the latch signal Sa to the transistor 62, and energizes the ON coil 1 5 C to close the latch relay 15 5 B. At this time, the latch relay 1 5 B is kept in a closed state. In step S2, the control device 43 reads the memory contents of the non-volatile memory 52 and determines whether or not the memory content remains. Here, when the current washing operation is normally completed or when the power-off switch 16 is turned ON during the previous washing operation, the parameter indicating that the memory content does not remain is " 〇". Therefore, the control device 43 determines "NO" in step S2, and moves to step S3. In this step S3, the control device 43' starts the washing operation by the set stroke. In step S4, the control unit 43 remembers the state of the operation at the timing of the setting as described above. In the next step S5, the control means 43 judges whether or not the washing operation is normally ended. If the washing operation does not end normally -40-

At 1373543 (NO), the control unit 43 moves to step S6, and whether or not the power-off switch 16 is turned ON during the washing operation, whether or not there is a power-off command sb). If there is no electric in command Sb (NO), the control unit 43 returns to step S4. Here, if the washing operation is normally completed or there is a power command (YES), the control device 43 clears the content stored in step S7, and stops the driving of the name in step S8. . Then, in step S9, the control device 43 outputs the latch open signal Sc' to the rent 64 and turns on the OFF coil 15D, whereby the latch relay 15B is opened, and the control device 43 is included. Power off. As a result, in the state in which the washing operation is completed, the power source of the device 43 is blocked, and the standby operation state is not caused, and the power consumption can be eliminated in the operation end state (the washing machine is not in use). Here, when there is a case in the washing operation (in the period in which the step S4 - S5 - S6 - S4 is looped via the control device 43), the control device 43 and the power supply thereto are supplied at this point in time. The system disappears. Thereby, the control by the control unit 43 is stopped. At this time, in the non-volatile memory 52, the memory content at the time of the stop is left. Moreover, when the power failure occurs, the latch-up relay is maintained in a closed state. Then, if the power failure is restored, the electric appliance 15B is maintained in the closed state as described above. Therefore, commercial AC power is supplied to the control circuit 45A. By means of this 'control device J breaks in the 'is i cut off (cut off ί to this r machine i crystal borrowed full control i. Therefore in the implementation of ί power failure 1 machine ^ was i time 1 5B 1 lock succeeded i The source 43-41 - 1373543 is supplied with power, and general control as shown in Fig. 24 is started. In this case, in step S1, the control device 43 is uniquely energized for the ON coil 15C, however, The latch relay 15B is maintained in a closed circuit. Thereafter, in the result of the determination in step S2, the control device 43 determines that the content of the non-volatile memory 52 remains. Therefore, the control device 4 moves to the step. S 1 0, and display the occurrence of a power outage at the power failure display display 17. Further, in step S11, the control device 43 determines whether the washing machine cover Id is based on the output of the washing machine cover opening and closing sensor 65. When the control device 43 determines that the washing machine cover Id is off (YES), the process proceeds to step S12, and the operation is resumed in response to the memory content. The control device 43 determines that the washing machine cover Id is open (NO) Love Then, the process moves to step S13, and the display for prompting the closing of the washing machine cover Id is performed at an appropriate display. Then, the control device 43 waits for the closing of the washing machine cover Id by the user. After step S12 The control device 43 performs the above-described processing of step S4 and subsequent steps. Thus, with the washing machine of the present embodiment, the switching device is provided at the through circuit 44a between the power plug 44A and the control power supply circuit 45A. 15. The switch device 15 is closed by the operation of the user, and the closed circuit state is maintained after the closed circuit. Then, the switch device 15 is normally terminated according to the washing operation. Or the power-off command Sb of the power-off switch 16 is generated to open the circuit 44a. Therefore, in the state of -42 - 1373543 when the washing operation is completed, the through-circuit 44a is When the circuit is opened, the power of the control device 43 is blocked. Therefore, the control device 43 does not have a standby operation state. As a result, the power consumption can be suppressed. When the washing operation is started, the manufacturing device 43 stores the progress status or the operation content in the non-volatile memory 52 at a timing determined in advance. Then, the control device 43 normally ends the washing operation system. When the power-off command Sb is input by the power-off switch 16, the memory content of the non-volatile body 52 is cleared. Therefore, when the washing operation system is normally completed, In the case where the power-off command Sb is input when the power-off switch 16 is input (that is, when the washing operation is completed due to the power failure), in the non-volatile memory 52, It is the state of the progress of the washing operation or the content of the operation. Therefore, even if the power failure detecting means for detecting the power failure and performing the memory control for the non-volatile memory in the operation control circuit is not provided, or the operation control circuit for not generating the power failure is not provided. φ The power supply holding means for holding the memory controlled by the memory can also memorize the progress of the washing operation at the time of power failure or the operation content. Further, the control device 43 reads out the contents of the non-volatile memory 52 when there is power supply. Then, when there is a memory content related to the progress status or the operation content, the control unit 43 restarts the washing operation based on the memory content. Therefore, after the power failure is restored, the operation can be resumed from the state of the power failure. Further, the above-described switching device 15 is provided at the through circuit 44a between the power plug 44A and the control power supply circuit 45A. Therefore, even if -43-1373543 is in the presence of a power failure, the pass circuit 44a can be maintained in a closed state, and when the power failure is resumed, the control power supply circuit 45A can be automatically powered. Therefore, at the control unit 43, the control power is also automatically supplied. Thereby, when the power failure is resumed, the operation of the washing machine can be automatically restarted from the state of the power failure without waiting for the user's operation. Further, according to the washing machine of the present embodiment, the switch device 15 is composed of the power supply input switch 15A and the latch relay 15B. The power-on switch 15A is formed by a push switch that is turned ON by manual operation and that automatically closes the pass circuit 44a. The latch relay 1 5B is closed by energization of the ON coil 15C connected in parallel with the power supply input switch 15A, and even after the circuit is closed, even if the ON coil 15C is turned off, the closed circuit is kept closed. In the state, if the OFF coil 15D is energized, it is opened. The control device 43 energizes the ON wire 15C via the latch relay drive circuit 61 in accordance with the fact that the pass circuit 44a is broken. Then, the control device 43 is normally turned off or the power-off command Sb due to the power-off switch 16 is generated, and the OFF coil 15d is turned on via the latch relay drive circuit 61. Power on. Thereby, the desired operation of the switching device 15 can be surely performed. Further, according to the washing machine of the present embodiment, the control unit 43 is configured to display a power failure when the power failure is present at the display 17. By this, it is possible to easily and surely notify the user of the occurrence of the power failure - 44 - 1373543. Further, with the present embodiment, the control device 43 is based on the fact that the washing machine cover Id is turned off when the power failure is resumed. , to start the washing operation again according to the memory content. In general, the washing machine is configured such that the washing process is performed even if the user opens the washing machine lid Id while on the way. In this case, if the user does not notice the return of the power failure, the operation is started when the washing machine cover 1d is opened, which is not preferable in terms of safety. In the present embodiment, there is no situation in which the operation is resumed in a state where the washing machine cover 1d is opened. And for safety. [Other Embodiments] Further, the present invention is not limited to the above embodiments. For example, the switching device is not limited to the above-described configuration, and can be variously modified and implemented. Further, the present invention can be suitably modified and implemented without departing from the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a flow chart showing the control contents when power is turned on, showing a first embodiment of the present invention. [Fig. 2] Fig. 2 is a flow chart (1) showing the contents of the control of the normal operation. [Fig. 3] Fig. 3 is a flow chart showing the control contents of the normal operation - 45 - 1373543 (2 of the figure) ° [Fig. 4] Fig. 4 ' is a display of the internal image of the transfer@@ 3) ° [Fig. 5] Fig. 5' is a flow chart showing the control content of the normal operation (4 of it) ° [Fig. 6] Fig. 6' is a show showing the content of the "standard stroke" and 1 The course of the progress in the stage is recorded in the figure of 100 million. [Fig. 7] Fig. 7' is a view showing the content of the stroke of the "pre-dip stroke" and the travel record of the I in the progress phase thereof. [Fig. 8] Fig. 8 is a diagram showing the content of the itinerary of the "standard course with the setting of the reservation" and the course of the journey in the progress phase thereof. [Fig. 9] Fig. 9 is a The content of the itinerary of the pre-dip stroke set with the reservation and the graph of the stroke memory No in the progress stage thereof. Fig. 10 is a view showing the content of the stroke of the "slot cleaning stroke" and the stroke memory No in the progress stage thereof. [Fig. 1 1] Fig. 1 is a diagram showing a map of the non-volatile memory. [Fig. 1 2] Fig. 12 is a diagram in which the memory contents memorized in the non-volatile memory are divided into items and displayed together with the respective memory capacities. Fig. 13 is a sectional side view showing the entire configuration of the washing machine. Fig. 14 is a plan view of the operation panel. Fig. 15 is a block diagram of an electrical configuration. Fig. 16 is a view corresponding to -46-1373543 of Fig. 14 showing a second embodiment of the present invention, and Fig. 17 is a flow chart showing a third embodiment of the present invention. [Fig. 18] Fig. 18 is a flowchart showing a fourth embodiment of the present invention. Fig. 19 is a flowchart showing a fifth embodiment of the present invention, Fig. 20, Fig. 20, The electric configuration diagram of the sixth embodiment of the present invention is shown. [Fig. 21] Fig. 21 is a timing chart of "standard stroke". Fig. 22 is a timing chart showing "a standard stroke with a reservation setting". [Fig. 23] Fig. 23 is a timing chart of "standard stroke with prepreg" 〇 [Fig. 24] Fig. 24 is a flow chart showing control contents. [Main component symbol description] 1 5 : Switching device 15A: Power supply switch 1 5 B : Latch relay 15C : ON wire 圏 1 5D : OFF wire 圏 1 6 : Power cut-off switch 17: Power failure display (dedicated Display) -47- 1373543 1 8 : Appointment switch 28: Blanket switch (existing display) 32: Water level display (existing display) 39: Washing number display (existing display) 40: Water-washed display (existing) Display) 42: Dehydration time display (existing display) 43: Control device 44: Power supply 44a, 44b: Through circuit 45: Power supply relay circuit 5 〇: Buzzer 52: Non-volatile memory 6 1 : Latch Relay drive circuit 65: washing machine cover opening and closing sensor-48-

Claims (1)

1373543 r Patent Application No. 0981 19074 Patent Application Revision of the Chinese Patent Application No. June 20, 2011 Amendment VII. Application for Patent Park: /V~/JT ΐ·A washing machine' is characterized by: a control device for powering up, a non-volatile device, and a power-off switch for releasing the power-on state of the control device, and a display device, wherein the control device includes: The setting content of the operation is a function of the status of the non-volatile memory; and when the operation is normally completed or the power-off switch is operated during the operation, the control is performed. When the power supply state of the device is released, the function of clearing the memory content of the non-volatile memory; and when there is power supply in the control device, determining whether the memory content of the non-volatile memory is present The function to be cleared; and when it is judged that the memory content of the non-volatile memory is not cleared, the memory is memorized a stage of performing the memory content in the non-volatile memory to resume the function of the operation according to the content of the memory content; and when there is power supply in the control device, and determining the non-volatile memory When the case of the company is not cleared, the function of stopping the 1373543 is displayed on the display means. 2. The washing machine according to claim 1, wherein the washing machine is provided with a power supply switch for starting power supply from the power source to the control device. 3. A washing machine comprising: a control device for supplying power from a power source, a non-volatile memory, and a power cut-off switch for releasing a power-on state of the control device, and a control for the foregoing a control power supply circuit for holding a power supply state of the device, and a switching device provided at a pass circuit between the power supply and the control power supply circuit, wherein the control device includes: a setting content of the operation during operation Or performing a function of the state memory in the non-volatile memory; and when the operation is normally ended or during the operation, the power-off switch is operated to release the power-on state of the control device In the case of the above-mentioned function of clearing the contents of the non-volatile memory; and when there is power supply in the control device, determining whether the memory content of the non-volatile memory is cleared; and When it is judged that the memory content of the aforementioned non-volatile memory has not been cleared, the slave memory is memorized. In the non-volatile memory, the in-memory-2 - 1373543 capacity stage is performed to restart the function of the operation according to the contents of the content of the billion; the switching device is provided with: And the function of the closed circuit as a closed circuit; and the function of maintaining the closed state after the closed circuit of the through circuit; and the power switching switch is operated according to the usual end of the operation or the operation The power-on state of the control device is released to function as an open circuit. 4. The washing machine according to claim 3, wherein the washing machine is provided with a power input switch, and is configured to be configured to be the switch device, and is turned ON by manual operation and closed circuit of the through circuit. And a latching relay, which is configured to constitute the switch, is connected in parallel to the power supply input switch, and is closed by the energization of the ON coil, and after being closed, Even if the ON coil is de-energized, it is kept in a closed state, and if the OFF coil is energized, it is opened; and the latch relay drive circuit drives the latch relay, and the control device is provided : a function of energizing the ON coil via the latch relay drive circuit when the through circuit is closed; and the power interruption switch is operated according to the normal operation or the operation Therefore, the state of the power supply I373543 of the control device is released, and the latching relay driving circuit is used to OFF function of said coil is energized. 5. The washing machine according to claim 3, wherein the control device is provided with: the control device includes: when the control device has power supply, and determines the memory of the non-volatile memory When the content is not cleared, a function of displaying the power failure at the display means will occur. 6. The washing machine according to claim 1 or 5, wherein the display means is not a dedicated display but an existing display. 7. The washing machine according to claim 1 or 5, further comprising: a buzzer, wherein the control device is configured to: when a power failure occurs is displayed on the display means, The buzzer is operated in a different manner when the operation is normally completed or when the power supply disconnecting switch is operated and the power supply state to the control device is released during the operation. 8. The washing machine according to claim 1 or 5, wherein the control device is configured to: when a power failure occurs is displayed on the display means, change the setting content of the operation - Become impossible. 9. The washing machine according to claim 1 or 5, wherein the control device is configured as: -4- 1373543 when a power failure occurs is displayed on the display means, and the pair is operated When the setting content is changed, the display that is displayed on the display means and the power failure occurs is erased, and the display of the display means is switched to the normal display. 10. The washing machine according to claim 1 or 5, wherein the control device is configured to: when the power failure occurs is displayed on the display means, the power cutoff switch is operated When the power supply state of the control device is released, the content of the non-volatile memory is cleared, and then the power supply is blocked. 11. The washing machine according to claim 1, wherein the control device is provided with a reservation setting means for setting a reservation for the operation, and the control device is configured to be operated when the reservation setting means is operated. When there is a reservation setting, the memory of the standby time is not stored in the aforementioned non-volatile memory. 12. The washing machine according to claim 1, wherein the control device is provided with a sensor that detects opening and closing of the washing machine cover, and the control device is configured to: when there is power supply in the control device, In the case where the non-volatile memory element is not cleared, it is determined that the washing machine cover is closed based on the output from the sensor, and the memory content is based on the memory content. In the progress stage, the foregoing operation is resumed by the content of the content of the billion. -5-