KR0152864B1 - Dish washer - Google Patents

Abstract

The present invention relates to a method of determining the tableware load of a dishwasher. Conventionally, when the initial temperature of the dishwasher is 25 ° C or more, the dishwasher can not detect the dishwasher. There is a problem that affects the rise time. The table load sensing is performed at the beginning of the operation and should be used as an all-stroke control factor such as washing, rinsing, drying, etc. In the conventional case, There is a problem that can not be done in time. Therefore, according to the present invention, by using the water level frequency remaining in the cleaning tube at the time of spraying, the dish load is detected before the washing stroke, which is the main stroke in the dishwasher, is detected. And automatic dishwashing course according to the load of tableware is possible.

Description

How to determine the tableware load of a dishwasher

1 is a schematic view of a general dishwasher.

Figure 2 is an administrative flow chart for washing and rinsing the dishwasher in Figure 1;

Figure 3 also shows the level setting of the dishwasher.

Figure 4 is a water level frequency characteristic of the remaining water quantity over time.

FIG. 5 is a graph of tableware load determination based on the water level frequency of the remaining water.

6 is a flow chart of a method for determining a tableware load of a dishwasher according to the present invention.

7 is a flowchart illustrating an operation of the automatic dishwashing method of the dishwasher.

DESCRIPTION OF THE REFERENCE NUMERALS

10: Cleaning tube 20: Water level sensor

30: upper arm 40: lower arm

50: heater 60: temperature sensor

The present invention relates to a dishwasher for detecting the load of a tableware to be cleaned in an early stage of cleaning, and more particularly, to a tableware dishware for automatically washing the tableware by sensing the load of the tableware using the water level frequency of water remaining in the washing tube The present invention relates to a method for determining a load.

The configuration of the conventional dishwasher includes, as shown in Figs. 1 and 2, a water level sensor 20 for sensing the water level in the water-containing washing tub 10, Upper and lower arms 30 and 40 for spraying washing water to the washing tube 10 through upper and lower nozzles and a heater 50 installed at the lower end of the washing tube 10 to heat washing water A temperature sensor 60 for sensing the temperature of the water supplied to the cleaning tube 10 and driving the heater 50 according to each stroke necessary for cleaning to maintain the set temperature, And a Hall sensor 70 for sensing the rotation of the arm and detecting the state of restraint.

Hereinafter, a conventional technique configured as described above will be described.

The dishwasher is supplied with water (S1) through the water supply valve to the cleaning tube 10, as shown in FIG. 2, before entering the washing process.

When the water level sensor 20 senses the water level of the water supplied to the cleaning tube 10 and reaches the set water level, the water supply is stopped and the pump and the heater 50 are operated (S2).

When the pump operates, the upper and lower arms 30 and 40 are rotated, and the water contained in the cleaning tube 10 is supplied to the nozzles of the upper and lower arms 30 and 40 through the cleaning tube Accordingly, water is injected through the nozzle of the arm.

At the same time, the heater operates and the temperature of the washing water continuously rises.

As described above, the temperature sensor 60 senses the temperature of the wash water in the cleaning tube 10 and controls the heater 50 so that the sensed temperature becomes 60 ° C., which is the set temperature, as the temperature of the wash water rises.

The dishes are washed by the water sprayed through the upper and lower arms 30 and 40. When the water temperature of the washing water reaches 60 DEG C during the washing stroke, the washing stroke is ended and then the upper and lower arms 30 ) 40 rotates to stop the operation of spraying the water (S3) and discharges the soiled water out of the cleaning tube 10.

In the above, in the cleaning step S11, the time T for reaching 60 ° C from the water temperature of 25 ° C of the washing water after the heater operation is measured to detect the table load. In other words, the temperature rise time of the washing water changes depending on the load of the tableware (or the surface area of the tableware).

When the rinse cycle S12 and the drying cycle S13 are performed using the sensed information of the table load, the rinse time and the drying time are adjusted according to the sensed load amount.

However, in the conventional technology as described above, if the water temperature is higher than 25 ° C. when the initial washing water is supplied, it is impossible to detect the dishes, and since the heater has a direct relation to the high and low voltage, And the tableware load sensing is performed at the beginning of the operation and should be used as an all-stroke control factor such as washing, rinsing and drying. In the conventional case, since the loading amount can be judged only after the washing stroke is completed, There is a problem.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method of determining the tableware load of a dishwasher, which automatically detects the amount of tableware load during the initial operation.

A first step of calculating a mean value by reading a water level frequency f during a pump operation time using a water level sensor after finishing the water supply to the set water level according to the present invention; A second step of comparing the read level and the magnitude of the average level frequency when the pump operation time is reached in the first step; A third step of determining the amount of food to be eaten by comparing the average water level frequency obtained in the second step with an arbitrary water level frequency; And a fourth step of setting the washing time, the rinsing time and the drying time according to the amount of the food obtained in the third step.

The configuration of the dishwasher for performing the above-described method is the same as that of the conventional dishwasher, and the operation and effect of the present invention will be described in detail with reference to the accompanying drawings.

If you want to use automatic washing, rinsing and drying process by using the dishwasher, place the dishes you want to clean on the top and bottom shelves, then close the dishwasher door and press the start button. 10).

When water is introduced into the cleaning tube 10, the water level sensor 20 senses the water level. When the sensed water level reaches the set water level, the water supply is stopped and the pump 50 and the heater 50 operate, The water is transferred to the nozzle through the washing pipe of the upper and lower arms 30 and 40 and the temperature of the water in the washing tube 10 is raised by the heater 50. [

In the above, the set level is generally set to a frequency of 23.000 KHz as in FIG. 3, and the reset level (above the air) is set to a frequency of 25.000 KHz.

Therefore, when the water level frequency of 23.000 KHz is detected from the water level sensor 20, the water level has reached the set water level.

As the upper and lower arms 30 and 40 are rotated by the operation of the pump, the water contained in the cleaning tube 10 is sprayed through the nozzles of the arms 30 and 40 to wash the dishes.

As the pump is turned on, the water level sensor 20 senses the remaining water level frequency present below the cleaning tube 10 as it is sprayed through the nozzles of the upper and lower arms 30 and 40, Lt; / RTI >

That is, the frequency of the water level in the washing tub 10 while the pump is on is obtained as shown in FIG. 4, and analysis of the frequency can determine the table load as in FIG.

In FIG. 5, when the water level frequency f2 or less is sensed, if it is detected between the small cooking capacity and the water level frequency f1-f2, it is judged that the water level is larger than the water level frequency f1 .

It is also possible to judge the heating capacity by judging the rising curve of the initial frequency. When the amount of the food is measured in this way, the washing time, the rinsing time, and the drying time are set and the washing is performed.

The operation described so far will be briefly described below with reference to FIG. 6 attached hereto.

When the water reaches the set water level, the water supply is stopped. When the pumping operation is performed using the pump, the water is sprayed from the nozzles of the upper and lower arms 30 and 40 to start washing the dishes.

The water level sensor 20 reads the remaining water level frequency remaining in the cleaning tube 10, and when the pump-on time T is reached, in determining the table load using the read water level frequency, If the frequency is detected to be less than f2, if it is sensed between the cooking capacity and the water level frequency f1-f2, it is judged as the food capacity if the water level frequency f1 or more is detected.

The overall operation of the dishwasher according to the flowchart shown in FIG. 8 with respect to the automatic dishwashing course will be described. First, a first water supply is performed, a rinse operation is performed for one minute, and the washed water is drained.

Here, the primary reason for performing the rinsing operation is to filter the food waste.

Thereafter, the amount of the food is determined through the process described above, and the washing time, the rinsing time and the drying time according to the determined large, middle, and small cooking times are set, and the respective steps are started to be performed for the set time.

As described in detail above, the present invention can detect the load of the tableware before the washing stroke, which is the main stroke in the dishwasher, can be controlled, and it is possible to control the washing load, the rinsing, The dishwashing course is effective.

Claims (2)

A first step of reading a water level frequency f during a pump operation time by using a water level sensor after completion of water supply to a predetermined water level to obtain an average value; A second step of comparing the read level and the magnitude of the average level frequency when the pump operation time is reached in the first step; A third step of determining the amount of food to be eaten by comparing the average water level frequency obtained in the second step with an arbitrary water level frequency; And a fourth step of setting a washing time, a rinsing time, and a drying time according to the amount of food obtained in the third step. The method as claimed in claim 1, wherein, in the third step, when the average frequency is detected to be any water level frequency f2 or less, the detection is performed between small water level frequencies f1 and f2 And when it is determined that the water level frequency f1 is higher than the predetermined water level frequency f1, it is determined that the food weight is large.