KR100204228B1 - Cognition method of existence of cover and quantity for microwave oven - Google Patents

Abstract

The present invention to improve the quality of cooking by controlling the cooking of food according to the presence and the amount of the cover (cover) by accurately recognizing the presence or absence of the lid and the amount of food in the WRAP or container when cooking control of the microwave oven. The present invention relates to a method for recognizing the presence or absence of a cover during cooking control of a microwave oven.

In the conventional cooking control method, it is difficult to determine whether the cover is accurate or not because the change of the ambient temperature, humidity, etc. is not taken into consideration. Especially, when the humidity is severely changed, the area ratio is calculated because the graph slope of the resistance ratio is changed. Since the area ratio is different from the actual one, a problem arises in that it is more difficult to determine whether the correct cover is present.

In the present invention, in order to solve the problems as described above, by configuring the sensing means to sense the surrounding environment to detect the environmental change of the surrounding, and to compensate for the detected environmental change, by calculating the correct area ratio The determination of the presence or absence of the cover is to be made.

Description

Cover presence and quantity recognition method in cooking control of microwave oven.

The present invention to improve the quality of cooking by controlling the cooking of food according to the presence and the amount of the cover (Cover) by accurately recognizing the presence or absence of the lid and the amount of food in the cooking (WRAP) or container during cooking control of the microwave oven The present invention relates to a method for recognizing the presence or absence of a cover during cooking control of a microwave oven.

1 illustrates a configuration of a general microwave oven. Referring to FIG. 1, a configuration for cooking a conventional microwave oven will be described below.

The heating chamber 1, the turntable 2 on which the food in the heating chamber 1 is placed, the motor 3 for rotating the turntable 2, the high pressure generator 4 for generating high pressure, and high pressure generation. The magnetron 5 outputs microwaves to heat the food placed on the turntable 2 by receiving the high pressure generated from the unit 4, and the microwaves output from the magnetron 5 are transferred into the heating chamber 1. A waveguide (6), a waveguide (6) for delivering outside air into the heating chamber (1), a fan (7) configured for delivering outside air into the heating chamber (1), and a fan (7). A suction inlet 8 for sucking the outside air into the heating chamber 1 by rotation of the gas, and a discharge hole 9 formed at a position corresponding to the suction opening 8 to discharge steam, gas, etc. generated in the heating chamber 1, and the like. And, the sensor 10 for detecting the water vapor, gas, etc. discharged from the outlet 9, the motor 3 and high pressure generation A drive means 11 for driving the unit 4, the fan 7 and the like, a sensor signal processing means 12 for reading the sensing signal read from the sensor 10 and outputting cooking progress information, and a sensor Recognition processing means 13 for recognizing the state and load of food according to the cooking progress information input from the signal processing means 12 and outputting the cooking progress method accordingly, and the user's input from the key input unit 14. The controller 15 is configured to control the cooking of food by controlling the driving means 11 by receiving a cooking signal input from the control signal and the recognition processing means 13.

In a typical microwave oven including such a component, the control unit 15 controls the driving means 11 to cook food according to a user's key input signal input through the key input unit 14,

2 is a flowchart showing a cooking control procedure different from the presence and quantity of a microwave oven in a conventional microwave oven. Referring to FIG. 2, the operation of the prior art will be described.

When the user selects a menu through the key input unit 14 and then enters a cooking start, the control unit 14 recognizes this and rotates the turntable 2 through the driving means 11, and the high pressure generating unit 4. To drive the microwaves from the magnetron (5).

As the microwave is output as described above, the food placed on the turntable 2 starts to be heated.

At this time, the sensor 10 formed on the outlet 9 side detects water vapor, gas, etc. discharged to the outlet 9, and the signal detected by the sensor 10 is read by the sensor signal processing means 12. Cooking progress information is transmitted to the recognition processing means (13).

The recognition processing means 13 determines the current state of the food in the heating chamber 1 according to the cooking progress information read from the sensor signal processing means 12 and transmits it to the control unit 15.

The control unit 15 is to proceed with cooking by controlling each part by the output of the sensor 10 transmitted from the above,

The controller 15 measures the initial value Ro of the sensor 10 when the heating is started, and continuously measures the output of the sensor 10 as the continuous heating is performed (Rs).

At this time, as the food is continuously heated, the generated water vapor, gas, etc. are discharged through the outlet 9, the output of the sensor 10 is changed in proportion to the temperature increase of the water vapor, gas, etc. discharged, the third As shown in the figure, it can be seen that the resistance ratio of the sensor 10 is increased, and it can be seen that the slope of the waveform is different in the case of wrapping and not covering.

As the output waveform of the sensor 10, the recognition processing means 13 continuously calculates the resistance ratio ΔG = Rs / Ro of the sensor 10 since the heating is started, and thus the resistance ratio ( When ΔG reaches the area calculation reference point ΔGa that calculates the area ratio, the area ratio is calculated, and when the output resistance ratio ΔG of the sensor 10 reaches a constant value (a sensing point) during the cooking process. The time at that time is calculated as the sensing time (Ts).

4 shows the area ratio of the sensor signal, the magnetron starts to oscillate and the output waveform of the sensor appears. The measurement is continuously performed to calculate the resistance ratio ΔG as described above. When G) reaches the area ratio calculation reference point ΔGa, the resistance ratio ΔGa of the advantage becomes a reference value for calculating the area ratio calculated to determine the presence or absence of the cover.

At this time, Ts means the time when the output waveform of the sensor reaches the sensing point (△ Gs) and calculates the total heating time based on this.

Here, the area ratio refers to the sensor until the output waveform of the sensor signal reaches a constant? G when the total time taken for the output waveform of the sensor signal to reach a constant? Ga is a total area. The output waveform of a signal divided by the total area divided by time.

Subsequently, it is determined whether the output resistance ratio of the sensor reaches the sensing point (ΔGs) during cooking, and at the same time, whether the output resistance ratio of the sensor reaches the area ratio calculation reference point (ΔGa), and does not reach the area ratio calculation reference point (ΔGa). If not, the above process is repeated, and if it is reached, the process of determining whether the cover is present is performed.

The area ratio obtained in the above process is compared with the reference area ratio set through experiments to determine the presence or absence of the cover.

If the area ratio is less than the reference area ratio, it is determined that there is a cover. If the area ratio is larger than the reference area ratio, it is determined that there is no cover, and the amount is determined by comparing each reference value with the sensing time (Ts) as follows.

When the area ratio is less than the reference area ratio, the sensing time (Ts) is compared with the reference time of the cover 1,2 servings, and when the sensing time (Ts) is less than the standard time of the cover 1,2 servings, it is determined as one cover. If the sensing time Ts is less than or equal to the reference time of 2 or 3 covers, the cover is judged to be 2 servings. If the sensing time Ts is less than or equal to the standard time of 3 or 4 covers, the cover is 3 servings. If the sensing time Ts is less than the reference time of 4 or 5 servings, the cover is determined to be 4 servings. If the sensing time Ts is greater than the standard time of the 4 or 5 servings, the serving is determined to be 5 servings. Will be done.

If the sensing time Ts is less than or equal to the standard time of 1, 2 covers, the no cover is determined as 1 cover, and the sensing time Ts is no cover 2 and 2, respectively. If it is less than the standard time of 3 servings, it is judged as 2 no-covers, and if the sensing time (Ts) is less than the standard time of 3 or 4 servings of no-cover, it is judged to be 3 servings of no-cover, and the sensing time (Ts) If the no-cover 4 or 5 servings are less than the reference time, it is determined as 4 no-covers, and if the sensing time Ts is greater than the no-cover 4 or 5 servings, the no-cover 5 servings is determined.

As described above, the presence or absence of the cover is determined using the area ratio, and the sensing time (Ts) is compared with the reference time according to the presence or absence of the cover to determine the quantity of each cover, and when the determination is completed as described above, The proportional constant (K) for calculating the total heating time is determined according to the amount of each cover.

When the proportional constant (K) is determined as described above, the total heating time (T) is calculated using this, and the cooking time is determined by comparing the total heating time with the current cooking progress time.

However, in the conventional cooking control method, the area ratio at the time determined based on the presence or absence of the lid and the quantity determination is calculated, and the coverage ratio and the quantity determination are executed as the criteria for determining the area ratio. By calculating the K) value, the total heating time is calculated, and heating is performed at the same output power during the calculated total heating time.

It is difficult to determine whether the cover is correct or not because it does not take into account changes in the ambient temperature and humidity.In particular, when the humidity is severely changed, the slope of the resistance ratio changes, so the calculated area ratio is different from the actual one. Since the problem occurs, it becomes more difficult to determine whether the correct cover is present.

In the present invention, in order to solve the problems as described above, by configuring the sensing means to sense the surrounding environment to detect the environmental change of the surrounding, to compensate for the detected environmental change, calculate the correct area ratio to cover the normal Determination of the presence and quantity of the judgment is to be made.

1 is a block diagram showing a general configuration of a conventional microwave oven.

Figure 2 (Fig. 2A, Fig. 2B) is a flow chart showing the execution process of the presence of the cover and the amount recognition method during cooking control of a conventional microwave oven.

Figure 3 is a graph showing the output of the sensor signal over time in the presence and volume detection method of cooking control of a conventional microwave oven.

4 is a view showing the area ratio in the sensor signal output waveform in the conventional cooking method of the cooking control of the microwave oven and the amount of cover.

Figure 5 (Fig. 5A, Fig. 5B) is a flow chart showing the execution process of the cover presence and quantity recognition method during cooking control of the microwave oven of the present invention.

Figure 6 is a waveform diagram of a humidity sensor output signal that changes with time in the presence or absence of the cover and the amount recognition method during cooking control of the present invention.

First, in order to execute the presence or absence of the cover and the amount recognition method in the cooking control of the present invention, in the conventional technical configuration, constitute a sensing means capable of measuring the surrounding environment, the steam, gas discharged from the discharge means It is characterized in that the processing of the sensor signal processing means for processing the output signal of the sensing means for detecting the like to obtain the cooking progress information by recognizing the surrounding environment,

The present invention is a process of calculating the resistance ratio by setting the initial value of the sensor and the value of the data converted as the cooking proceeds, and the environmental value (temperature, humidity) by sensing the external environment (temperature, humidity, etc.) with a sensor Etc.), a process of calculating the area ratio when the resistance ratio of the sensor reaches a predetermined reference value, which is the area ratio calculation reference point, a process of setting the time when the resistance ratio value of the sensor reaches the sensing point, Compensating the area ratio calculated by comparing the external environment value recognized in the process with the standard environment value, and comparing the area ratio compensated in the process with the reference area ratio to determine the presence or absence of a cover; Determining the amount according to the presence or absence of the cover by using the reference set value and the sensing time according to the presence or absence of the cover, and the ratio according to the presence or absence of the cover determined in the process The process of determining the case constant (K), the process of determining the optimum output according to the presence or absence of the cover determined in the process, and the total heating time based on the sensing time depending on the presence or absence of the cover determined in the process, respectively Bar is characterized in that consisting of the execution procedure of the process of controlling the cooking by the calculated heating time,

The sensing means configured to sense the surrounding environment is configured as a humidity sensor to compensate for the change in the area ratio changed by the detected humidity so that accurate cover presence and quantity determination can be made. As an embodiment of the invention, the implementation and operation of the present invention will be described.

Measuring the initial value of the sensor, calculating the resistance ratio ΔG as the output of the sensor continues,

When the calculated resistance ratio ΔG reaches the area ratio calculation reference point ΔGa, the process of calculating the area ratio,

Measuring the ambient humidity value from the humidity sensor,

When the output resistance ratio ΔG of the sensor reaches a constant value ΔGs, calculating the sensing time Ts;

Determining whether the output resistance ratio (ΔG) of the sensor reaches the sensing point (ΔGs) while cooking, and at the same time, whether the output resistance ratio (ΔG) of the sensor reaches the area ratio calculation reference point (ΔGa);

Compensating the area ratio calculated by comparing the environmental humidity value and the standard humidity value measured in the above process according to the comparison value,

As a result of the process determination, when the output resistance ratio (ΔG) of the sensor reaches a sensing point and reaches the area ratio calculation reference point (ΔGa), the presence or absence of the cover is determined by comparing the compensated area ratio and the reference area ratio set in the process. Process,

If it is determined that the process is a no cover, the process of determining the amount of the no cover to determine the amount of the no cover by comparing the standard sensing time and the set sensing time (Ts) set for each amount for the no cover;

If it is determined that there is a cover, the process of determining a quantity of the cover for comparing the reference sensing time set for each quantity with the set sensing time Ts for the cover and determining the quantity of the cover;

Determining the proportionality constant (K) by the quantity of the cover determined by the presence or absence of the cover and determining the amount of the cover;

Selecting the optimum output according to the presence or absence of the cover determined in the process to calculate the total heating cooking time, and comparing the total heating cooking time calculated in the process with the current cooking time to determine whether to finish cooking Process,

The determination of the presence or absence of the cover in the process of determining the presence or absence of the cover is characterized in that if the area ratio is less than the reference area ratio to determine as the no cover.

In addition, when the sensing time Ts is less than the reference time of the cover 1,2 servings, the determination process for the cover is determined as one cover, and the sensing time Ts is the reference time of the cover 1,2 servings. If it is larger than the step of comparing the reference time of two or three servings,

As a result of the comparison, if the sensing time Ts is less than the reference time of 2 or 3 people, it is judged as 2 covers, and if the sensing time Ts is greater than the standard time of 2 or 3 people, 3 or 4 people Comparing with the reference time of,

As a result of the comparison, if the sensing time Ts is less than the reference time of 3 or 4 people, it is judged as 3 covers, and if the sensing time Ts is greater than the standard time of 3 or 4 people, 4 or 5 people Comparing with the reference time of,

As a result of the comparison, if the sensing time Ts is less than the reference time of 4 or 5 people, the cover is judged as 4 people, and if the sensing time Ts is greater than the standard time of 4 or 5 people, the cover is 5 people. To do so,

The amount determination process for the no cover,

If the sensing time (Ts) is less than the reference time for the no-cover 1,2 servings, it is determined as the no-cover 1 serving. If the sensing time (Ts) is greater than the nominal time for the no-cover 1,2 servings, the no-cover 2, Comparing the reference time with three servings,

As a result of the comparison, when the sensing time Ts is less than or equal to the reference time of 2 or 3 servings, it is judged to be 2 servings, and when the sensing time Ts is greater than the standard time of 2 or 3 servings, the cover is no. Comparing the reference time with 3 or 4 servings,

As a result of the comparison, if the sensing time (Ts) is less than the reference time of 3,4 servings of no-cover, it is judged as 3 servings of no. If it is larger than the standard time of 5 servings, the step of comparing with the standard time of 4,5 servings of no-cover,

As a result of the comparison, if the sensing time (Ts) is less than the standard time of 4,5 servings of no-cover, it is judged to be 4 servings. It is made up of five servings,

In the process of calculating the total heating cooking time, when it is determined that the cover is no, it is characterized by calculating the total heating cooking time with the additional heating time according to the selected optimal power level output.

In the cooking control of the microwave oven according to the execution procedure as described above, the presence or absence of the quantity recognition method calculates the area ratio by using the resistance ratio obtained from the output of the sensor, and determines the presence or absence of the cover by using the calculated area ratio. To calculate the total heating cooking time according to the state of the determined cover,

6 is a view showing the output waveform of the humidity sensor according to the change of time, as shown in FIG. 6, in the case of the cover (wrap) in the standard humidity conditions and the case of the non-wrap in the high humidity conditions It can be seen that the slope of the waveform with and without wrapping is small overall.

Therefore, the resistance ratio is changed according to the humidity conditions and acts as a factor for changing the area ratio, so that the humidity is detected and compared with the standard humidity to compensate for the area ratio according to the comparison result.

When the user selects a menu and starts heating, the control unit measures the initial value Ro of the sensor. As the heating continues, the output of the sensor is continuously measured (Rs) and the resistance ratio (Rs) is measured. / Ro).

At this time, while the resistance ratio is calculated, the humidity sensor measures the external environmental humidity, and the measured humidity acts as a compensation for the area ratio calculated thereafter.

When the resistance ratio Rs / Ro calculated as described above reaches the area calculation reference point ΔGa, the area ratio is calculated, and when the output resistance ratio of the sensor reaches a constant value (a sensing point) during the cooking process, then Calculate the time as the sensing time (Ts).

Then, it is determined whether the output resistance ratio of the sensor reaches the sensing point (ΔGs) during cooking, and at the same time, it is determined whether the output resistance ratio of the sensor reaches the area ratio calculation reference point (ΔGa) and fails to reach the area ratio calculation reference point (ΔGa). If it is, the above process is repeated, and when it reaches, the process of determining the presence or absence of the cover is performed.

In the process of judging the presence or absence of the cover, the area ratio is compared with the set standard area ratio.

First of all, the external humidity value detected in the process is compared with the set standard humidity value, and the compared value compensates the area ratio calculated in the process.

As a result of the comparison between the compensated area ratio and the reference area ratio according to the humidity conditions, it is determined that the cover is a no cover when the area ratio is less than the reference area ratio, and it is determined that there is a cover when the area ratio is larger than the reference area ratio.

When the presence or absence of the cover is determined as described above, each volume determination step is performed according to the determined state of the cover.

If it is determined that there is a cover, it is compared with the sensing time (Ts) and the reference time of the cover 1,2 servings, and if the sensing time (Ts) is less than the reference time of the cover 1,2 servings, it is determined as one cover. If the sensing time Ts is less than or equal to the reference time of 2 or 3 covers, the cover is judged to be 2 servings. If the sensing time Ts is less than or equal to the standard time of 3 or 4 covers, the cover is 3 servings. If the sensing time Ts is less than the reference time of 4 or 5 people, the cover is determined to be 4 servings. If the sensing time Ts is greater than the standard time of 4 or 5 people, the cover is 5 servings. Will be done.

If it is determined that the cover is no, when the sensing time Ts is less than or equal to the standard time of 1, 2 covers, it is determined that the cover is 1 serving, and the sensing time Ts is the base time of 2 or 3 covers. In the case of the following, it is judged as two no-covers, and if the sensing time Ts is less than or equal to the reference time of three or four no-covers, it is judged as three no-covers and the sensing time Ts is no-covers 4 and 5 If the reference time is less than the serving time is determined as four no-covers, and if the sensing time (Ts) is greater than the reference time of no-covers 4 and 5 servings, it is determined as five no-covers.

As described above, the presence or absence of the cover is determined according to the result of comparing the sensing time Ts and the calculated area ratio with the reference time and the area ratio reference value according to each quantity, and compares the reference time according to the determined state and quantity of the cover. After determining the amount of each, if the determination is completed as described above, the proportional constant (K) for calculating the total heating time is to be determined according to the amount by the presence or absence of the cover.

When the proportional constant (K) is determined as described above, the total heating time (T) is calculated using Equation 1, and the cooking end is determined by comparing the total heating time with the current cooking progress time. do.

In addition, as another embodiment, the temperature sensor may be configured to proceed with the determination of the presence or absence of the cover as described above according to the comparison result with the external temperature and the standard temperature.

As described above, by compensating the area ratio calculated according to the external environmental conditions, it is possible to determine the correct cover presence and quantity through the area ratio calculation, to provide the user with the optimum cooking according to the determined quantity It is effective.

Claims (3)

Calculating a resistance ratio by setting the initial value of the sensor and the value of the converted data as the cooking proceeds, Sensing the external environment with a sensor to recognize environmental values; Calculating the area ratio when the resistance ratio of the sensor reaches a predetermined reference value that is the reference point for calculating the area ratio; Setting a time when the resistance ratio value of the sensor reaches a sensing point; compensating for the area ratio calculated by comparing the external environment value recognized in the process with a standard environment value; Determining the presence or absence of the cover by comparing the area ratio compensated in the above process with the reference area ratio; Determining a quantity according to the presence or absence of the cover by using the reference setting value and the sensing time according to the presence or absence of the cover determined in the above process; Determining a proportional constant (K) according to the presence and quantity of the cover determined in the above process, The process of determining the optimum output according to the presence or absence of the cover determined in the above process, and controlling the cooking by the heating time calculated by calculating the total heating time based on the sensing time based on the presence or absence of the cover determined in the process Cover presence and quantity recognition method in the cooking control of the microwave oven, characterized in that the execution of the process. The method according to claim 1, wherein in the external environment detection process, the presence of a cover during cooking control of the microwave oven is characterized in that the sensor senses the humidity to compensate for the area ratio according to the comparison result with the standard humidity. And volume recognition method. The method according to claim 1, wherein in the external environmental sensing process, the temperature is sensed by the sensing means to compensate for the area ratio according to the comparison result with the standard temperature. And volume recognition method.