KR101212950B1 - Method for operating of dishwasher - Google Patents

Abstract

The present invention relates to a dishwasher for automatically draining cleaned water after a dishwashing operation is completed when a drainage operation is set and spraying a rinse to the washing tank after the dishwashing operation is completed when the cleaning function is set, And a driving control method
A method of controlling an operation of a dishwasher according to the present invention includes the steps of setting a cleaning reservation mode by setting a cleaning reservation date and time input by an operation of a cleaning reservation selection switch; And displaying a cleaning reservation day screen when the time arrives; displaying the cleaning reservation day screen and draining washing contaminated water stored in the washing tank by turning on a drain pump for a preset time; And supplying the scales to the rinsing tank for a predetermined period of time; driving the heater after supplying the scince rinse to heat and maintain the rinsing water in the rinsing tank at a preset temperature, , Washing the washing tank by pumping heated hot water by driving the rinsing pump after calling the rinsing tank A step of raising the water supply valve while supplying water to the rinsing tank by performing a predetermined number of times to perform a rinsing operation of the rinsing tank by washing the rinsing tank with the hot water, Discharging the rinsing contaminated water contained in the washing tank by draining the rinsing contaminated water while supplying the water supply valve for a predetermined time while draining the rinsing contaminated water, A step of turning off the pump to shut off the drain water, a step of displaying a cleaning still image on the display unit after the drain pump is turned off, and a cleaning completed buzzer sound after displaying the cleaning still image .
In the present invention, when the drainage operation function is set in the resting state of the dishwasher, the washing water is automatically drained after the washing operation is completed so that no water droplets or the like are left in the washing tub, and when the cleaning operation function is set in the resting state, The inside is scaled and automatically cleaned, so that the dishwasher can be conveniently used.

Description

[0001] METHOD FOR OPERATING OF DISHWASHER [0002]

More particularly, the present invention relates to a method of controlling an operation of a dishwasher, and more particularly, to a method and apparatus for controlling the operation of a dishwasher, more specifically, So that the washing tub is scaled. [0003]

As is generally known, a dishwasher for business use is generally made up of a sink (or an avalanche or a so-called 'boiling tank'), a washing tank, and a rinsing tank. In the washing tank, the tableware is washed with water containing one or three kinds of cleaning agents, and the washed tableware is rinsed again with hot water, and then transferred to the rinsing tank to be rinsed secondarily. That is, in a typical washing structure, a washing nozzle and a rinsing nozzle are mounted on upper and lower sides of the upper side, a detachable water level tube is installed on the lower side so that the washing water can always be maintained therein, A washing water tank equipped with a circulation pump is provided, and a hot water tank and a hot water supply pump are installed so as to heat and supply hot water next to the washing water tank.

Therefore, the dishwasher which is washed first in the sink is put in a rack, and the dishwasher is transported to the washing tank and then washed again. At this time, the washing water in the washing water tank is recirculated by the pump.

In addition, after the washing as described above, the pump connected to the rinsing tank is operated to rinse the tableware washed through the rinsing nozzle with the hot water of the rinsing tank. At this time, the supplied rinsing water flows into the washing water tank, The discharge is performed.

On the other hand, in the dishwasher for business use, the role of the washing machine is to immerse the used dishware in the detergent-dissolved water and to perform the avalanche washing, and in order to provide the efficiency and promptness of dishwashing, Detergent is mixed and used.

In general, powder or liquid detergent is soluble in warm water rather than cold water. In general, water is usually used at room temperature rather than using hot water. In addition, washing work is continuously performed The detergent concentration of the washing water contained in the wash water is naturally reduced, so it is necessary to periodically supply the detergent.

However, in the conventional dishwasher, the washing water having been cleaned by the dishwasher is manually drained. When the washing water is not drained, there is a problem that the washing tub is contaminated by the water in the washing tub, There is a problem that it is inconvenient to clean the dishwasher since the washing water is manually drained and then the inside of the washing tank is washed with a sword to remove water and then the washing water is manually supplied.

It is an object of the present invention to provide an operation control method of a dishwasher which automatically drains washing water after the dishwashing operation is completed and automatically cleans the inside of the dishwasher when the drainage and cleaning mode is set for solving the above- .

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According to another aspect of the present invention, there is provided a method of controlling an operation of a dishwasher including setting a cleaning reservation mode by setting a cleaning reservation date and time input by an operation of a cleaning reservation selection switch, Displaying a cleaning reservation day screen when a cleaning reservation date and time are reached in a rest state, displaying a cleaning reservation day screen, draining wash contaminated water stored in the washing tank by turning on a drain pump for a predetermined time after displaying the cleaning reservation day screen, And supplying the scales to the rinsing tank for a predetermined period of time while draining the washing water; and supplying the scum rinse to the rinsing tank by driving the heater to heat and maintain the rinsing water in the rinsing tank at a preset temperature, A step of calling the rinsing tank after the rinsing tank is called, A step of rinsing the washing tank by a predetermined number of times by supplying cold water by turning on the water supply valve while washing the washing tank with the hot water; A step of discharging the rinsing contaminated water contained in the washing tank by stopping the pumping of the rinsing pump and turning on the drain pump, supplying the water supply valve for a preset time while draining the rinsing contaminated water, A step of turning off the drain pump to shut off the drain water, a step of displaying a cleaning still image on the display unit after turning off the drain pump, and a step of generating a cleaned buzzer sound after displaying the cleaning still image . ≪ / RTI >

In the present invention, when the drainage operation function is set in the resting state of the dishwasher, the washing water is automatically drained after the washing operation is completed so that no water droplets or the like are left in the washing tub, and when the cleaning operation function is set in the resting state, The inside is scaled and automatically cleaned, so that the dishwasher can be conveniently used.

1 is a block diagram of an apparatus for controlling operation of a dishwasher according to an embodiment of the present invention.
FIG. 2 is a flowchart showing a control flow for draining operation according to an embodiment of the present invention.
3A and 3B are flowcharts of a control flow for a cleaning operation according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be noted that the embodiments of the present invention described below are only for explaining the spirit of the present invention to a person skilled in the art, and a detailed description of known functions and configurations of the present invention which may unnecessarily obscure the gist of the present invention It should be noted that it is omitted.

1 is a block diagram of an apparatus for controlling operation of a dishwasher according to an embodiment of the present invention.

A key operation panel unit 10 for generating a stand-by operation, a run operation, a washing mode and a cleaning mode, and a drain mode selection command,

A drain operation mode or a cleaning operation mode is set by a key operation signal of the key operation panel unit 10 to perform a drain operation or a cleaning operation so as to display an operation control state, A display section 14 for displaying an operation state under the control of the main control section 12 and a display section 14 for displaying a driving operation state under the control of the main control section 12. [ A buzzer 18 for generating a buzzer sound for terminating the drain operation or the cleaning operation under the control of the main control unit 12, a buzzer 18 for counting the set time during the current time and the operation, A memory 20 for storing a program for drainage operation and cleaning operation of the present invention, a communication interface 24 for receiving a driving control command from the main control unit 12 and interfacing with the timer 20, A sub control unit 30 for receiving operation control commands inputted through the communication interface 24 and outputting various load driving commands, a water level sensor 32 for sensing the level of the wash water installed in the cleaning tank, A temperature sensing unit 34 for sensing the temperature of the washing water; a load driving circuit 36 for receiving the various load driving commands outputted from the sub-control unit 30 to drive the corresponding loads; A washing pump 38 connected to the upper and lower nozzles 36 to supply washing water to the upper and lower nozzles, a water supply valve 40 connected to the load driving circuit 36 to supply cold / hot water, A drain pump 42 connected to the load driving circuit 36 for pumping and discharging contaminating washing water by driving the load driving circuit 36 and discharging the washing water in the rinsing tank by a heater 48 A salting pump 46 for supplying heated heme water to the upper and lower nozzles, It is configured.

2 is a control flowchart for draining operation according to an embodiment of the present invention.

The drain operation control operation of the present invention will be described in detail with reference to FIGS. 1 and 2. FIG.

In step 101, the main control unit 12 checks whether the drain operation selection switch is turned on from the key operation panel unit 10, and proceeds to step 102 when the drain operation selection switch is turned on. In step 102, the main control unit 12 sets a drain operation mode and proceeds to step 103. [ In step 103, the main control unit 12 determines whether the vehicle is in a rest state, and if not, it proceeds to step 104 to perform the corresponding operation and returns to step 103. [ However, if it is determined in step 103, the main control unit 12 displays a drain operation screen on the display unit 14 and proceeds to step 106. [ In step 106, the main control unit 12 outputs a drain pump-on signal through the communication interface 24. [ Then, the sub-control unit 30 receives the drain pump-on signal through the communication interface 24 and outputs a drain pump driving signal to the load driving circuit 36. The load driving circuit 36 opens the drain pump 42 to drain the contaminated water from the dishwasher to the washing tank to the outside sewer pipe. Then, in step 107, the main control unit 12 outputs a water supply valve-on signal through the communication interface 24. [ Then, the sub control unit 30 receives the water supply valve on signal through the communication interface 24 and outputs the water supply valve driving signal to the load driving circuit 36. The load driving circuit 36 opens the water supply valve 40 and blows cold water into the washing tank through the nozzle to wash the inside of the washing tank. Thereafter, in step 108, the main control unit 12 checks whether the set time (for example, 5 seconds) has elapsed. If the set time has elapsed, the main control unit 12 proceeds to step 109. Although the set time is 5 seconds, it is arbitrarily adjustable. In step 109, the main control unit 12 outputs a water supply valve off signal through the communication interface 24. Then, the sub control unit 30 receives the water supply valve off signal through the communication interface 24 and outputs the water supply valve shutoff signal to the load driving circuit 36. The load drive circuit (36) blocks the water supply valve (40) to prevent the cold water from being supplied into the washing tank. Then, in step 110, the main control unit 12 outputs a drain pump-off signal through the communication interface 24. Then, the sub control unit 30 receives the drain pump off signal through the communication interface 24 and outputs the drain pump shutoff signal to the load driving circuit 36. The load driving circuit 36 disconnects the drain pump 42. Fig. Then, in step 111, the main control unit 12 displays the drain operation completion screen on the display unit 14, and proceeds to step 112. [ In step 112, the main control unit 12 causes the buzzer 18 to generate the drain operation completion sound five times, for example, and then ends the program.

3A and 3B are control flowcharts for a cleaning operation according to an embodiment of the present invention.

The cleaning operation control operation of the present invention will be described in detail with reference to FIGS. 1 and 3. FIG.

In step 201, the main control unit 12 checks whether the cleaning reservation selection switch is turned on from the key operation panel unit 10, and proceeds to step 202 when the cleaning reservation selection switch is turned on. In step 202, the main control unit 12 sets a cleaning reservation and proceeds to step 203. In step 203, The cleaning schedule is set by selecting a desired date and time for cleaning. In step 203, the main controller 12 determines whether the vehicle is in the rest state. If the vehicle is not in the rest state, the main controller 12 proceeds to step 204 and performs the corresponding operation. In step 203, the main controller 12 determines whether the cleaning reservation time has been reached. If the cleaning reservation time has been reached, the main controller 12 proceeds to step 206. In step 206, the main control unit 12 displays a cleaning reservation screen on the display unit 14, and proceeds to step 207. In step 207, In step 207, the main control unit 12 checks whether a switch-on signal is input from the key operation panel unit 10. If a switch-on signal is input, the process proceeds to step 208. If no switch-on signal is input, In step 207, when the main control unit 12 receives a key signal from the key operation panel unit 10, the main control unit 12 deletes the cleaning reservation day screen displayed on the display unit 14 in step 208, Go ahead. In step 209, the main controller 12 outputs a drain pump-on signal through the communication interface 24. Then, the sub-control unit 30 receives the drain pump-on signal through the communication interface 24 and outputs a drain pump driving signal to the load driving circuit 36. The load driving circuit 36 opens the drain pump 42 to drain the contaminated water from the dishwasher to the washing tank to the outside sewer pipe. The drainage time can be drained, for example, for 30 seconds. After completing drainage for 30 seconds, drain pump 42 is turned off, and in step 210 main controller 12 outputs a scale rinse valve on signal via communication interface 24. Then, the sub-control unit 30 receives the scale-up valve-on signal via the communication interface 24 and outputs a scale-rinse valve drive signal to the load drive circuit 36. The load driving circuit 36 opens the scale rinse valve 46 to supply the scale rinse into the rinse tank. The scale rinse feed is, for example, supplied and stopped for about 12 seconds. Then, in step 211, the main control unit (12) outputs the heater driving control signal through the communication interface (24). Then, the sub-control unit 30 receives the heater driving control signal through the communication interface 24 and outputs the heater driving signal to the load driving circuit 36. The load driving circuit 36 drives the heater 48 to heat the body of the rinsing tank. Then, in step 212, the main control unit 34 checks whether the set temperature (for example, 80 ° C) of the washing water is sensed from the temperature sensing unit 34 installed in the rinse tank, and proceeds to step 213 when the set temperature is sensed. In step 213, the main control unit 120 outputs a heater interruption control signal through the communication interface 24. Then, the sub control unit 30 receives the heater interruption control signal through the communication interface 24 and outputs the heater interruption signal to the load driving circuit 36. The load driving circuit 36 blocks the driving of the heater 48. Then, in step 214, the main control unit 12 checks whether the set time (for example, 10 minutes) has elapsed. If the set time has not elapsed, the process returns to step 215 and the rinsing tank is called hot water. However, if the time set in step 214 has elapsed, the flow advances to step 216 to output a rinse pump-on signal through the communication interface 24. Then, the sub control unit 30 receives the salting pump ON signal through the communication interface 24 and outputs the salting pump driving signal to the load driving circuit 36. The load driving circuit 36 drives the rinsing pump 44 to clean the inside of the cleaning tank with heated hot water. In step 217, the main control unit 12 outputs a water supply valve-on signal through the communication interface 24. Then, the sub control unit 30 receives the water supply valve on signal through the communication interface 24 and outputs the water supply valve driving signal to the load driving circuit 36. The load driving circuit 36 opens the water supply valve 40 to wash the inside of the rinse tank and the washing tank with cold water into the rinse tank. In step 218, the main control unit 12 returns to step 217 and continues to supply cold water if the low level is detected from the level detection unit 32 through the sub control unit 30. If the low level is not detected, In step 219, the main control unit 12 checks whether a high level is sensed by the level sensing unit 32 through the sub control unit 30. If the high level is sensed, the main control unit 12 proceeds to step 220. In step 220, The sub control unit 30 receives the water supply valve off signal through the communication interface 24 and outputs the water supply valve shutoff signal to the load driving circuit 36. [ The load driving circuit 36 prevents the interrupted cold water from being supplied to the water supply valve 40. Thereafter, in step 221, the main control unit 12 checks whether the number of times of rinsing has been set (for example, four times) The main controller 12 outputs a rinse pump off signal through the communication interface 24 in step 222. In step 222, the main controller 12 outputs a rinse pump off signal through the communication interface 24. The sub control unit 30 receives the rinse pump off signal through the communication interface 24 and outputs a rinse pump shutoff signal to the load driving circuit 36. The load driving circuit 36 drives the rinse pump 44 The main control unit 12 outputs the drain pump on signal through the communication interface 24 in step 223. The sub control unit 30 receives the drain pump on signal through the communication interface 24, And outputs a drain pump driving signal to the driving circuit 36. The load driving circuit 36 drives the drain pump 42 to discharge the rinse washing water in the washing tank to the external drain pipe. The main control unit 12 outputs a water supply valve ON signal through the communication interface 24. The sub control unit 30 receives the water supply valve ON signal through the communication interface 24 and outputs the water supply valve ON signal to the load driving circuit 36 The load driving circuit 36 opens the water supply valve 40 so that the cold water is sprayed through the nozzle to the cleaning tank to clean the cleaning tank. After the supply valve 40 is turned on, in step 225, the main control unit 12 checks whether the set time (for example, 5 seconds) has elapsed. If the set time has elapsed, the main control unit 12 proceeds to step 226. Although the set time is 5 seconds, it is arbitrarily adjustable. In step 226, the main controller 12 outputs a water supply valve off signal through the communication interface 24. Then, the sub control unit 30 receives the water supply valve off signal through the communication interface 24 and outputs the water supply valve shutoff signal to the load driving circuit 36. The load drive circuit (36) blocks the water supply valve (40) to prevent the cold water from being supplied into the washing tank. Then, in step 227, the main control unit 12 outputs a drain pump-off signal through the communication interface 24. Then, the sub control unit 30 receives the drain pump off signal through the communication interface 24 and outputs the drain pump shutoff signal to the load driving circuit 36. The load driving circuit 36 stops driving the drain pump 42. [ Then, in step 228, the main control unit 12 displays the cleaning stop screen on the display unit 14 and proceeds to step 229. [ In step 229, the main control unit 12 causes the buzzer 18 to generate a clean completion tone five times, for example, and ends the program.

The discharge operation completion sound or the cleaning completion sound is generated five times, for example, but it is adjustable in the range of 2 to 15 times.

In the embodiment of the present invention, the water to be cleaned is discharged using the drainage pump 42 during the drainage. However, the drainage valve may be used instead of the drainage pump 42 to drain the cleaned and contaminated water to the external discharge pipe. have.

10: key operation panel part 12: main control part
14: display section 16: LED driving section
18: Buzzer 20: Memory
22: timer 24: communication interface
30: sub-control unit 32:
34: temperature sensing unit 36: load driving circuit
38: Wash pump 40: Water supply valve
42: Drain pump 44: Rinse pump
46: Scale rinse valve 48: Heater

Claims (4)

delete delete In the operation control method for a dishwasher,
Setting a cleaning reservation mode by setting a cleaning reservation date and time input by an operation of a cleaning reservation selection switch;
Displaying a cleaning reservation date screen when a cleaning reservation date and time are reached in a rest state after setting the cleaning reservation mode,
Displaying the cleaning reservation day screen and then turning on a drain pump to drain washing water stored in the washing tank for a set time;
Supplying a scaling rinse to a rinse tank for a predetermined period of time while discharging the rinse water;
A step of driving the heater after supplying the screed rinse to cause the rinse tank to heat the rinse tank at a predetermined temperature so that the rinse tank is allowed to stand for a set time;
Washing the washing tank by pumping heated hot water by driving the rinsing pump after calling the rinsing tank,
Performing a hagum operation of the washing tank by a predetermined number of times by supplying cold water by turning on the water supply valve while washing the washing tank with the hot water,
Discharging the rinsing contaminated water contained in the washing tank by turning on the drain pump after stopping pumping of the rinsing pump after performing the rinsing operation for the predetermined number of times,
And supplying the water supply valve for a predetermined time while draining the rinsing contaminated water to clean the washing tank, and then stopping the operation of the drain pump.
The method of claim 3,
Displaying a cleaning stop screen on the display unit after stopping the driving of the drain pump;
Further comprising the step of generating a cleaned buzzer sound after displaying the cleaning stop screen.

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