JPH05317230A - Electric controller for tableware washing machine - Google Patents

Abstract

PURPOSE:To inhibit a restart of an operation of the tableware washing machine until the cause of abnormality is investigated, when abnormality is generated in the tableware washing machine. CONSTITUTION:When overflow abnormality or temperature abnormality of a drier is generated in the course of operation of the tableware washing machine, a control circuit 50 informs abnormality by an indicator 53 and an alarm 54, and also, drains washing water contained in a washing water tank by a drain pump, and thereafter, stops the operation of the tableware washing machine. Also, in this case, the control circuit 50 stores a fact that abnormality is generated in its internal storage device. Subsequently, when a user turns off a power source switch 51 by a manual operation, the control circuit 50 releases its abnormality notice. Even if the power source switch 51 is turned on again, the control circuit 50 inhibits a start of the operation of the tableware washing machine, based on storage of generation of abnormality. However, in this case, the abnormality notice by the indicator 53 and the alarm 54 is executed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dishwasher for automatically washing dishes, and more particularly to an electric control device for the dishwasher which copes with an abnormality of the dishwasher.

[0002]

2. Description of the Related Art Conventionally, an electric control device of this type is disclosed in Japanese Patent Laid-Open No. 3-118017, for example.
When the power switch is turned on, the dishwasher operation is started and the dishes are washed automatically. On the other hand, when the wash water in the washing tank exceeds the overflow level during the operation, the electric control device stops the operation, drains the wash water in the washing tank, and issues an alarm. The alarm is released by switching the power switch from on to off.

[0003]

However, in the above-mentioned conventional apparatus, the washing water in the washing tank exceeds the overflow level, the operation of the dishwasher is stopped, the drainage treatment is performed, and then it is turned off. When the power switch is turned on, the operation of the dishwasher is restarted without clarifying the reason why the wash water in the wash tank exceeds the overflow level. This means restarting the operation of the dishwasher while the dishwasher is abnormal, which is not preferable for the dishwasher. The present invention has been made to solve the above problems, and an object thereof is to provide an electric control device for a dishwasher which does not restart the operation of the dishwasher without the abnormality being investigated. Especially.

[0004]

According to a first aspect of the present invention, the dishwasher is started to operate by turning on a power switch which is provided in the power supply path and is switched by a manual operation. In an electric control device for a dishwasher that automatically cleans, an abnormality detection unit that detects an abnormality of the dishwasher, a stop control unit that stops the operation of the dishwasher in response to the abnormality detection, Notification means for notifying the abnormality in response to the abnormality detection, abnormality storage means for storing that the abnormality is detected in response to the abnormality detection, and abnormality notification by the notification means when the power switch is in the off state And a prohibition means for prohibiting the operation of the dishwasher when an abnormality of the dishwasher is stored in the abnormality storage means.

A second invention according to claim 2 is that in the first invention, drainage control means for draining the wash water in the dishwasher in response to the abnormality detection is provided. ..

[0006]

In the first aspect of the invention configured as described above, when an abnormality occurs in any one of the dishwashers when the power switch is turned on and the dishwasher is operating, the abnormality detection is performed. Means detect this anomaly. In response to the abnormality detection, the stop control means stops the operation of the dishwasher, the notification means notifies the abnormality, and the abnormality storage means stores that the abnormality is detected. Then, when the user notices the abnormality of the dishwasher by the notification of the abnormality and turns off the power switch, the notification prohibiting means cancels the abnormality notification. As a result, the abnormality notification can be canceled with a simple operation. In such a state, even if the user turns on the power switch again, the operation prohibiting means prohibits the operation of the dishwasher based on the fact that the abnormality is stored in the abnormality storage means. The operation of the washing machine will not be restarted until the abnormality that has occurred in the previous time is not investigated.
As a result, the dishwasher is prevented from being restarted in an unstable state where the dishwasher is abnormal, and the dishwasher is reliably protected.

Further, in the second aspect of the invention configured as described above, when an abnormality occurs in the dishwasher, the drainage control means drains the wash water in the washing machine in response to the abnormality detection by the abnormality detection means. .. Thereby, in addition to the effect of the first aspect of the present invention, even if an abnormality occurs in the dishwasher, it is possible to prevent the wash water from overflowing.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 schematically shows the entire dishwasher according to the embodiment. This dishwasher includes a washing tank 20 housed in a box-shaped housing 10. Cleaning tank 2
0 accommodates a rack 23 on the center of which a tableware 22 is put in and out through the front door 21, and supports a pair of cleaning nozzles 24 and 25 on its upper and lower surfaces. The cleaning nozzles 24 and 25 are the circulation pump 26.
With the above operation, the washing water circulated and supplied from the washing water tank 27 formed at the bottom of the washing tank 20 through the circulation pipe 28 is jetted toward the dishes 22 while rotating. Cleaning tank 2
A water supply pipe 31 is connected to the back wall 20a of 0 at its outlet, and the water supply pipe 31 supplies high-temperature cleaning water from an external water supply source (not shown) via a water supply valve 32 to a cleaning water tank 27.
Supply to. The opening 2 provided on the back wall 20a of the cleaning tank 20
A dryer 33 including a heater and a fan is attached to 0b, and the dryer 33 blows hot air into the cleaning tank 20. A temperature sensitive switch 34 is attached to the dryer 33, and the switch 34 is normally in the off state, and is turned on when the temperature of the dryer 33 is overheated to a predetermined temperature or higher.

A drain pipe 35 and a sub-tank pipe 36 are branched from the circulation pipe 28. A drainage pump 37 is installed in the drainage pipe 35, and the pump 3
7 operates to discharge the wash water in the wash water tank 27 to the outside of the machine through the drain pipe 35. The tip of the sub-tank pipe 36 communicates with the sub-tank 38, and the reference water level switch 41 and the overflow switch 42 are provided in the tank 38.
Is housed. The reference water level switch 41 detects that the surface of the wash water in the wash water tank 27 has reached a reference level indicating the height required for cleaning, etc., and is turned on if the height of the water surface is higher than the reference level. If the water level is lower than the reference level, it will turn off. The overflow switch 42 detects the overflow level that is higher than the reference level and defines the height of the water surface immediately before the wash water in the wash water tank 27 overflows outside the machine.
If the height of the water surface is higher than the flood level, it is turned on, and if the height of the water surface is lower than the flood level, it is turned off.

Next, an electric control device for electrically controlling the dishwasher configured as described above will be described with reference to the drawings. FIG. 2 is a block diagram of the device.

This electric control device comprises a control circuit 50,
Power is supplied to the circuit 50 via the input buses L ₁ and L ₂ . An AC of 120 V is applied to the input bus L ₁ , and the input bus L ₂ is grounded. The coil X ₁ of the power switch 51 and the relay switch 52 is connected between the input buses L ₁ and L ₂ .
The power switch 51 is connected to the control circuit 50 at one end and to the connection point between the movable contact 51a and the coil X ₁ at one end and the movable contact 51a that is turned on and off by manual operation to excite the movable contact 51a by excitation. Coil 51b to turn off
It has and. The coil X ₁ of the relay switch 52 is
Normally open contact X with both ends connected to the control circuit 50 by excitation
_It turns on ₁₁ .

An electric motor 37a of a drain pump 37 is connected between the input bus L ₁ and the output side of the control circuit 50,
Between the connection point of the movable contact 51 a of the power switch 51 and the coil X ₁ of the relay switch 52 and the output side of the control circuit 50, the electromagnetic solenoid 32 a of the water supply valve 32, the dryer 33, the electric motor 26 a of the circulation pump 26. , Display 53
And the alarm device 54 is connected. In addition, the control circuit 5
On the input side of 0, the temperature sensitive switch 34, the reference water level switch 41 and the overflow switch 42 described above are connected, and the standard course switch 55 and the strong course switch 56 are also connected. The standard course switch 55 selects to wash the dishes 22 normally, and the strong course switch 56 selects to wash the dishes 22 strongly. The control circuit 50 is CP
It is composed of a microcomputer including U, ROM, RAM, interrupt timer, other various timers, I / O, etc., and continuously executes the "main program" corresponding to the flowcharts of FIGS. In response to the interrupt command from, the "interrupt program" corresponding to the flowcharts of FIGS.

Next, the operation of the embodiment configured as described above will be described. When power is supplied to the control circuit 50 via the input buses L ₁ and L ₂ , the circuit 40 starts executing the “main program” in step 100 of FIG. Timer flag TMF for indicating that the 30 second timer is counting, overflow flag ISF for indicating that the overflow switch 42 has detected the overflow level, and the temperature sensitive switch 34 detects the temperature equal to or higher than the predetermined temperature of the dryer 33. The drying flag KSF for indicating that the abnormality has occurred and the notification flag HOF for indicating that the indicator 34 and the alarm device 35 have notified the occurrence of an abnormality are initialized to "0". After this initial setting process, in step 102 the water supply valve 3
2, the electromagnetic solenoid 32a, the heater and fan of the dryer 33, the electric motor 26a of the circulation pump 26, and the electric motor 37a of the drainage pump 37 are deenergized to turn off the water supply valve 32, and the dryer 33 and the circulation pump. The operations of 26 and the drainage pump 37 are stopped, and the process including steps 103 to 113 is repeatedly executed.

In this circulation processing, the control circuit 50 turns off the indicator 53 in step 103, and then in step 1
At 04, it is determined whether or not the power switch 51 is turned on by the state of the normally open contact X ₁₁ of the relay switch 52. Until the power switch 51 is turned on, the control circuit 50
Continues to perform the determination process of step 104 after continuously determining “NO” in step 104. The user is the cleaning tank 21
When the movable contact 51a of the power switch 51 is turned on after the rack 23 having the tableware 22 placed therein and the detergent are put therein, the coil X ₁ of the relay switch 52 is excited and the normally open contact X ₁₁ is turned on. .. As a result, the control circuit 5
If 0 is determined in step 104 to be “YES”, the program proceeds to step 105. In step 105, the display unit 53 displays an input request such as operating conditions of the dishwasher. Next, at step 106, it is determined whether or not the abnormality is notified based on the value of the notification flag HOF.

First, the case where the dishwasher is operating normally will be described. The notification flag HOF is initially set to "0" in step 101. As a result, it is determined "NO" in step 106, it is determined in step 107 whether the standard course switch 55 is turned on, and step 108
At, it is determined whether or not the strong course switch 56 is turned on. If the standard course switch 55 is turned on, it is determined to be "YES" at step 107 and the program proceeds to the "standard course routine" at step 109. If the strong course switch 56 is turned on, it is determined "YES" at step 108 and the program proceeds to the "strong course routine" at step 110. If neither the standard course switch 55 nor the strong course switch 56 is turned on, both of the steps 107 and 108 result in "N".
It is determined to be "O" and the program is returned to step 104.

Explaining the case where the standard course is selected, the control circuit 50 executes step 120 to execute the "standard course routine" shown in the flow charts of FIGS.
Start at. In addition, in this flowchart,
Since the standard course and the intensive course differ only in the washing time of the dishes 22, the case of the intensive course is shown in parentheses with reference to the case of the standard course. First,
The control circuit 50 repeatedly executes the process of the water supply process including steps 121 to 123 until the wash water in the wash water tank 27 reaches the reference level. During the process of this water supply process, the control circuit 50 continues to turn on the water supply valve 32 by exciting the electromagnetic solenoid 32a, and the high-temperature clean cleaning water from the external water supply source is supplied to the cleaning water tank 2 through the water supply pipe 31.
Supply to 7. When the wash water in the wash water tank 27 reaches the reference level by this water supply, the reference water level switch 41
Turns on. As a result, the control circuit 50 causes the step 12
It is determined to be “YES” in step 3, and in step 124, the excitation of the electromagnetic solenoid 32a is released to release the water supply valve 32.
Turn off to end the water supply process.

Next, the control circuit 50 starts the time measurement of the 2-minute timer set to 2 minutes in step 125, and executes the process of the washing process including steps 126 to 128 until the timer measures 2 minutes. Execute repeatedly. During the process of this cleaning process, the control circuit 50 continues to operate the circulation pump 26 by energizing the electric motor 26a, and the cleaning water containing the detergent in the cleaning water tank 27 is passed through the circulation pipe 28 to the cleaning nozzle 24, Pump to 25. As a result, the washing nozzles 24 and 25 spray the washing water on the tableware 22 while rotating, so that the tableware 22 is washed. After the cleaning is started,
When 2 minutes have elapsed, the control circuit 50 determines “YES” in step 128, and releases the power supply to the electric motor 26a in step 129 to stop the circulation pump 26 and end the cleaning process.

Next, the control circuit 50 starts the time measurement of the 30-second timer set to 30 seconds in step 130, and steps 131 to 13 until the timer measures 30 seconds.
The process of the drainage process consisting of 3 is repeatedly executed. During the processing of this drainage process, the control circuit 50 continues to operate the drainage pump 37 by energizing the electric motor 37a, and drains the wash water in the wash water tank 27 to the outside through the drainage pipe 35. As a result, the dirty cleaning water after cleaning the dishes 22 is discharged to the outside. When 30 seconds have passed after the start of the drainage, the control circuit 50 proceeds to “YE
S ”, and at step 134, the electric motor 37a
The drainage pump 37 is stopped by releasing the power supply to, and the drainage process is completed.

Next, after the control circuit 50 sets the count value N indicating the number of times of rinsing to "2" in step 135, the water supply process of steps 136 to 139 similar to the process of steps 121 to 124 described above. Perform the process of
The cleaning water tank 27 is filled with the cleaning water to a standard level.
After this water supply process, the control circuit 50 performs the above-mentioned step 1
By the processing of steps 140 to 144 similar to 25 to 129, the circulation pump 26 is operated for 30 seconds to pump the cleaning water to the cleaning nozzles 24 and 25. In this case, the washing tank 20
Since no detergent is poured inside, the dishes 22 are rinsed with the washing water sprayed from the washing nozzles 24 and 25. After this rinsing process, the control circuit 50
Step 14 similar to steps 130 to 134 described above
By the processing of 5 to 149, the processing of the drainage stroke is executed for 30 seconds. Next, the control circuit 50 subtracts “1” from the count value N in step 150, and determines in step 151 whether the count value N is “0”. In this case, since the count value N is "1" due to the subtraction, the control circuit 50 determines "NO" in step 151 and advances the program to step 136. And
The control circuit 50 executes the above-described water supply stroke processing in steps 136 to 139, the rinsing stroke processing in steps 140 to 144, and the drainage stroke processing in steps 145 to 149 to perform the second rinse of the tableware 22. To do. After this rinsing and washing, the control circuit 50 again subtracts "1" from the count value N in step 150, so that the count value N
Becomes "0". In this case, the control circuit 50 determines “YES” in step 150, and ends the execution of the “standard course routine” in step 152.

After the completion of this "standard course routine", the control circuit 50 executes the program "drying routine" in step 111 of FIG. The control circuit 50 starts execution of the “drying routine” shown in the flowchart of FIG. 6 at step 170. In this “drying routine”, the control circuit 50 first activates the heater and fan of the dryer 33 in steps 171, 172. As a result, hot air is blown into the washing tank 20 and the dishes 22
Begins to dry. Next, the control circuit 50 proceeds to step 17
3 starts the time measurement of the 30-minute timer set to 30 minutes, and until the timer measures 30 minutes, step 17
The processing of 4,175 is repeatedly executed. When 30 minutes have elapsed after the start of drying the dishes, the control circuit 50 determines “YES” in step 175, and advances the program to steps 176 and 177. Then, the control circuit 50 stops the operation of the heater and the fan of the dryer 33 in steps 176 and 177, and ends the execution of the “drying routine” in step 178. As a result, the tableware 22 is dried by hot air for 30 minutes and dries.

After the completion of the "drying routine", the control circuit 50 energizes the electromagnetic solenoid 51b of the power switch 51 in step 112 of FIG. As a result, the movable contact 51a is turned off, and the electromagnetic solenoid 32a of the water supply valve 32,
Dryer 33, the electric motor 26a of the circulation pump 26, the indicator 53 and alarm 54 are disconnected from the input bus L _1. Then, the control circuit 50 executes the program in step 10.
Returning to step 3, the processing of steps 103 to 112 described above is repeatedly executed.

When the user turns on the strong course switch 56 to strongly wash the dishes 22, the control circuit 50 determines "YES" at step 108,
The processing of the "strong course routine" of step 110 is executed. The concrete processing of this "strong course routine" is
As shown in parentheses in steps 125 and 128 in FIG.
It is different from the process of the "standard course routine" in that the dish 22 is washed for 10 minutes. As a result, when the strong course is selected, the dishes 22 are washed for a long time, and terrible dirt is also washed off.

On the other hand, when the process consisting of steps 103 to 112 (FIG. 3) is being executed, the control circuit 50
About 10 of the "interrupt programs" shown in Figs.
Execute interrupt every msec. This "interrupt program" is started in step 190, and the control circuit 50 determines in step 191 whether the timer flag TMF is set to "1" indicating that the 30-second timer for abnormal drainage is counting. To judge. In this case, there is no abnormality in the dishwasher, so the timer flag TMF is "
Therefore, the control circuit 50 determines “NO” in step 191, advances the program to step 192, and in step 192, flood switch 4
It is determined whether 2 is on. Wash water tank 20
Since the water level of the washing water in a is usually lower than the overflow level, the control circuit 50 makes a “NO” determination at step 192 to advance the program to step 193. Step 1
At 93, the control circuit 50 determines whether the temperature sensitive switch 34 is on. Also in this case, if the dishwasher is normal, the temperature sensitive switch 34 is off. As a result, the control circuit 50 determines “NO” in step 193 and advances the program to step 194 (FIG. 8). In step 194, the control circuit 50 determines whether or not the movable contact 51a of the power switch 51 is in the on state depending on whether or not the normally open contact X ₁₁ of the relay switch 52 is on.

The movable contact 51a of the power switch 51 is provided when the dishwasher is waiting for selection of a washing course, water is being supplied to the washing tank 27, the dishes 22 are being washed, rinsed or dried.
Is on. Accordingly, in this case, the control circuit 50 determines “YES” in step 194 and advances the program to steps 195 and 196. Step 19
In step 5, it is determined whether or not the overflow flag ISF is "1", and in step 196, the drying flag KSF is "1".
It is determined whether or not it is 1 ". Also in this case, both flags IS
Since both F and KSF are set to "0", it is determined to be "NO" in both steps 195 and 196, and the execution of the "interrupt program" is ended in step 197.

If the dishwasher has finished drying the dishes 22, the movable contact 51a of the power switch 51 is turned off by the process of step 112 described above. In this case, the control circuit 50 determines “NO” in step 194 and advances the program to step 210. In step 210, the alarm operation of the alarm device 54 is canceled. After the processing of step 210, step 1
At 97, the execution of the "interrupt program" is completed.

Next, a case where an abnormality occurs during operation of the dishwasher will be described. When the water level in the wash water tank 27 exceeds the overflow level, the overflow switch 42 is turned on. As a result, the control circuit 50 determines "YES" in step 192 (FIG. 7) of the "interrupt program", sets the overflow flag ISF to "1" in step 198, and advances the program to steps 199 to 201. .. When an abnormality occurs in the dryer 33 and the temperature of the dryer 33 becomes abnormally high, the temperature sensitive switch 34 is turned on. Accordingly, the control circuit 50 determines “YES” in step 193, sets the drying flag KSF to “1” in step 208, and advances the program to steps 199 to 201. The control circuit 50 causes the notification flag HOF in step 199.
Is set to "1", and in step 200, set 3 for abnormal drainage.
The time measurement of the 0 second timer is started, and the timer flag TMF is set to "1" in step 201. Next, the control circuit 50
Determines in step 202 whether the 30-second timer is counting up. In this case, since the 30-second timer has just started counting the time, step 202
Is determined to be "NO" and the program proceeds to step 203. Since the control circuit 50 operates the drain pump 37 by energizing the electric motor 37a in step 203, the wash water in the wash water tank 27 is drained from the drain pipe 35.
Begins to be discharged to the outside of the machine via.

Next, the control circuit 50 determines in step 194 whether or not the movable contact 51a of the power switch 51 is on. In this case, the dishwasher is in operation and the movable contact 51a is on. Accordingly, the control circuit 50 determines “YES” in step 194,
The above-described determination processing in steps 195 and 196 is executed. If the overflow flag ISF is “1” due to overflow abnormality,
The control circuit 50 determines “YES” in step 195, controls the display device 53 and the alarm device 54 in step 207 so that the display device 53 displays that the water is overflowing, and the alarm device 54 is turned on. Activate. As a result, the user can visually recognize the occurrence of overflow of the dishwasher by the display of the display device 53, and can also auditorily recognize it by the buzzer sound of the alarm device 54. On the other hand, if the drying flag KSF is "1" due to the temperature abnormality of the dryer 33, the control circuit 50
Determines “YES” in step 196, and executes step 2
The display device 53 and the alarm device 54 are controlled at 09, and the display device 53 displays that the dryer 33 has an abnormal temperature, and also activates the alarm device 54. As a result, the user can visually recognize the temperature abnormality of the dishwasher by the display of the display device 53 and can also auditorily recognize it by the buzzer sound of the alarm device 54. Next, the control circuit 50 ends the execution of the "interrupt program" at step 197.

On the other hand, when the above-mentioned abnormality occurs,
If the control circuit 50 is executing the process of the water supply process including steps 121 to 123 (FIG. 4), it is determined in step 122 that the notification flag HOF is “1” and “YE
S ”is determined and the program proceeds to step 153.
After turning off the water supply valve 32 in step 153, the control circuit 50 continues executing the determination process of step 154 and stops the operation of the dishwasher until the movable contact 51a of the power switch 51 is turned off. The control circuit 50 executes step 126.
If the process of the cleaning stroke consisting of 128 to 128 (FIG. 4) is being executed, it is determined to be “YES” based on the notification flag HOF being “1” in step 127, and the program proceeds to step 155. The control circuit 50 proceeds to step 155.
After stopping the circulation pump 26 at
The determination process of step 156 is continuously executed until the movable contact 51a of No. 1 is turned off, and the operation of the dishwasher is stopped.
If the control circuit 50 is executing the drainage stroke process including steps 131 to 133 (FIG. 4), it is determined in step 132 that the notification flag HOF is “1”, and thus “YE
S ”is determined and the program proceeds to step 157.
After stopping the drainage pump 37 in step 157, the control circuit 50 continues executing the determination process of step 156 to stop the operation of the dishwasher until the movable contact 51a of the power switch 51 is turned off. If the control circuit 50 is executing the process of the water supply process including steps 136 to 138 (FIG. 5), the notification flag HOF is set to "" in step 137.
It is determined to be “YES” based on the fact that it is “1”, and the program proceeds to step 159. The control circuit 50 turns off the water supply valve 32 in step 159, and then the power switch 5
Step 160 until the first movable contact 51a is turned off.
Then, the dishwasher operation is stopped. If the control circuit 50 is executing the rinsing process including steps 141 to 143 (FIG. 5), step 1
At 42, it is determined to be "YES" based on the notification flag HOF being "1", and the program is advanced to step 161. The control circuit 50 determines in step 161 the circulation pump 2
After stopping 6, the movable contact 51a of the power switch 51
The determination process of step 162 is continuously executed until the switch is turned off, and the operation of the dishwasher is stopped. If the control circuit 50 is executing the process of the drainage stroke including steps 146 to 148 (FIG. 5), the notification flag HOF is executed in step 147.
Is "1", the determination is "YES" and the program proceeds to step 163. After stopping the drainage pump 37 in step 163, the control circuit 50 continues executing the determination process of step 164 and stops the operation of the dishwasher until the movable contact 51a of the power switch 51 is turned off. The control circuit 50 executes steps 174 and 175.
If the process of the drying process consisting of (FIG. 6) is being executed, it is determined to be "YES" based on the notification flag HOF being "1" in step 174, and the program is executed in step 1
Proceed to 79, 180. The control circuit 50 proceeds to step 179.
After stopping the operation of the heater of the dryer 33 at step 180 and stopping the operation of the fan of the dryer 33 at step 180, the determination process of step 181 is executed until the movable contact 51a of the power switch 51 is turned off. Continue to stop the dishwasher operation. If the control circuit 50 is executing the waiting process of steps 104 to 108 (FIG. 3) before the dishwasher starts washing, it is based on the notification flag HOF being “1” in step 106. If YES is determined, the program proceeds to step 113, and the determination process of step 113 is continuously executed until the movable contact 51a of the power switch 51 is turned off, and the operation of the dishwasher is stopped.

When the "interrupt program" is started again in such a state, the control circuit 50 causes the timer flag TM set to "1" in step 191.
Based on F, the determination is “YES” and the program proceeds to step 202. The control circuit 50 again determines in step 202 whether or not the 30-second timer for abnormal drainage has finished counting the time of 30 seconds. If the 30-second timer has not finished counting the time of 30 seconds, the control circuit 50 makes a “NO” determination at step 202 to continue operating the drainage pump 37 by the processing at step 203. This allows
Since the drainage pump 37 continues to operate for 30 seconds after the occurrence of the abnormality, the wash water is prevented from overflowing from the wash water tank 27 to the outside. When the 30-second timer finishes measuring the time of 30 seconds, the control circuit 50 determines “YES” in step 202 and sets the program in steps 205 and 2.
Proceed to 06. In step 205, drainage pump 3
7 is stopped, and in step 206, the timer flag
TMF is initialized to "0". As a result, drainage by the drainage pump 37 is completed. Next, as described above, the control circuit 50 determines in step 194 whether or not the movable contact 51a of the power switch 51 is off. still,
If the movable contact 51a continues to be turned on, the control circuit 50 determines "YES" at the switch 194, and advances the program to the switch 195 and the subsequent steps described above.

On the other hand, when the user notices an abnormality in the dishwasher and manually turns off the movable contact 51a of the power switch 51, the steps 113, 154, 1 are executed.
While executing the determination process of 56, 158, 160, 162 or 164, the control circuit 50 causes the steps 113, 15
No. 4, 156, 158, 160, 162 or 164 determines “YES”, and the program proceeds to step 103.
Return to (Fig. 3). Since the control circuit 50 controls the display 53 to be turned off in step 103, the display of the abnormality content of the display 53 disappears. The movable contact 5 of the power switch 51
Until 1a is turned on, the control circuit 50 makes a “NO” determination in step 104 to continue executing the determination process of step 104. In this case, in the “interrupt program”, the control circuit 50 determines “NO” in step 194 (FIG. 8), and cancels the abnormal alarm by the alarm device 54 in step 210.

In this state, when the user again turns on the movable contact of the power switch 51 by manual operation, the control circuit 50 determines "YES" in step 104 and executes the program in step 1 through step 105.
Proceed to 06. In this case, the notification flag remains set to "1". As a result, the control circuit 50 determines “YES” in step 106 and advances the program to step 113. In step 113, the control circuit 50 continues to determine “NO” and continues to execute the determination process of step 113 until the movable contact of the power switch 51 is manually turned off as described above. On the other hand, at this time, when the "interrupt program" is executed,
As described above, the control circuit 50 determines “YES” in step 194 (FIG. 8) and executes the program in step 1
Proceed to 95, 196, 207, 209. As a result, by the processing of steps 207 and 209, an abnormality notification is made to notify the overflow abnormality or the temperature abnormality of the dryer 33.

As described above, when an overflow water abnormality or a dryer temperature abnormality occurs during the operation of the electric control device, the control circuit 5
In 0, the operation of water supply, washing, drainage, rinsing, and the like of the tableware 22 is stopped, and an abnormality is informed by the display 53 and the alarm 54. Then, when the movable contact 51a of the power switch 51 is switched off, the abnormality notification is canceled. In this state, the movable contact 5 of the power switch 51
When 1a is switched on, an abnormality is notified, but since the dishwasher is not returned to the operating state, the dishwasher is not operated in an unstable state.

Next, the case where the above-mentioned abnormality occurs while the operation of the dishwasher is stopped before the start of the water supply process or after the end of the drying process will be described. In this case, power switch 5
Since the movable contact 51a of No. 1 is turned off, the control circuit 5
0 continues to execute the determination process of step 104. on the other hand,
In the "interrupt program", the control circuit 50
Is various flags consisting of steps 191 to 206 described above
After setting the ISF, KSF, HOF, and TMF and draining the wash water in the wash water tank 27, at step 194 (FIG. 8), “N
When it is determined to be “O”, the alarm by the alarm device 54 is canceled in step 210. Further, in this case, the above step 194
By the determination of “NO” in step 195, 196,
Since the processes of 207 and 209 are not executed, the display 53
The contents of the abnormality are not displayed, and the abnormality alarm is not issued by the alarm device 54. Therefore, when the dishwasher is stopped, the overflow of water or the dryer 34
When the temperature abnormality occurs, the control circuit 50 stores the abnormality occurrence and discharges the wash water in the wash water tank 27, but does not notify the abnormality.

In this state, when the movable contact 51a of the power switch 51 is manually turned on, the control circuit 50 makes a "YES" determination at step 106 to advance the program to step 113, where the power switch 51 is turned on. The determination process of step 113 is continuously executed until the movable contact 51a of 1 is turned off. On the other hand, in the “interrupt program”, the control circuit 50 determines “YES” in step 194, and determines in steps 195, 196, 20.
The processing of 7,209 is executed. As a result, in this case, the control circuit 50 prohibits the operation of the dishwasher, but notifies the abnormality.

[Brief description of drawings]

FIG. 1 is a vertical sectional side view schematically showing a dishwasher according to an embodiment of the present invention.

FIG. 2 is a block diagram of an electric control device for the dishwasher.

FIG. 3 is a flowchart of a “main program” executed by the control circuit of FIG.

FIG. 4 is the first half of the flowchart showing the standard course and the intensive course of FIG.

5 is the second half of the flowchart showing the standard course and the intensive course of FIG.

6 is a flowchart showing a drying routine of FIG.

FIG. 7 is the first half of the flowchart of the “interrupt program” executed by the control circuit of FIG.

8 is the second half of the flowchart of the "interrupt program" executed by the control circuit of FIG.

[Explanation of Codes] 20 ... Wash Tank, 22 ... Tableware, 24, 25 ... Wash Nozzle,
26 ... Circulation pump, 27 ... Wash water tank, 32 ... Water supply valve, 33 ... Dryer, 34 ... Temperature switch, 37 ... Drain pump, 38 ... Sub tank, 41 ... Reference water level switch, 4
2 ... flood switch, 50 ... control circuit (microcomputer), 51 ... power switch, 52 ... relay switch,
53 ... Indicator, 54 ... Alarm device.

Claims (2)

[Claims] 1. An electric control device for a dishwasher, which starts operation of a dishwasher by turning on a power switch which is provided in an electric power supply path and which is switched by a manual operation, in order to automatically wash dishes. Abnormality detection means for detecting an abnormality of the dishwasher, stop control means for stopping the operation of the dishwasher in response to the abnormality detection, informing means for informing the abnormality in response to the abnormality detection, the abnormality Abnormality storage means for storing that an abnormality is detected in response to the detection, notification prohibition means for prohibiting the abnormality notification by the notification means when the power switch is in an off state, and the dishwasher in the abnormality storage means And an operation prohibiting means for prohibiting the operation of the dishwasher when it is memorized that the abnormality is detected. 2. The electric control device for a dishwasher according to claim 1, further comprising drainage control means for draining washing water in the dishwasher in response to the abnormality detection. Electric control unit for dishwasher.