KR100354070B1 - Cooking Control Method For a Microwave Oven - Google Patents

Abstract

Disclosed is an automatic cooking control method for a microwave oven. As disclosed, the automatic cooking control method of the present invention comprises the steps of: obtaining a sum of data detected from a sensor every cycle; Calculating the number of times that the sum of the data exceeds a set value in a predetermined period; And adjusting the driving time of the magnetron according to whether the number is greater than or equal to the set number.

Description

Cooking Control Method for a Microwave Oven

The present invention relates to a microwave oven, and more particularly, to an automatic cooking control method of a microwave oven for automatically cooking food according to a data characteristic of a food detected from a sensor.

In general, a microwave oven is a cooking apparatus designed to optimally cook food without damaging the appearance of the food by performing a cooking function by radiating high frequency microwaves generated from the magnetron to the food.

These microwaves are mainly used to cook popcorn. Popcorns that are cooked through a microwave typically classify more than 2.0 ounces of weight as large popcorn and less than 2.0 ounces as small popcorn.

In the conventional method of cooking popcorn in a microwave oven, the user inputs the weight of the popcorn to be cooked to allow the cooking operation to proceed. At this time, the microcomputer (MICOM) in the microwave allows the magnetron to be cooked by driving the magnetron at the cooking time determined by the cooking setting data set corresponding to the input weight.

However, in the conventional microwave oven, since the user must input the weight of the popcorn every time the popcorn is cooked, the inconvenience of use increases, and when the user incorrectly inputs the weight of the popcorn, a malfunction occurs and the popcorn is cooked. There is a problem that is not made properly.

Accordingly, the present invention has been made to solve the above problems, the object of which is to determine the weight of the popcorn according to whether the sum of the data detected from the sensor for a certain time reaches a set value, and adaptive to the weight of the popcorn It is to provide an automatic cooking control method of a microwave oven to perform a cooking function.

1 is a block diagram showing a circuit configuration of a microwave oven to which the automatic cooking control method according to the present invention is applied;

2 is a view showing an example in which the cooking state of the popcorn is measured at each rotation period of the turntable according to the preferred embodiment of the present invention;

3A and 3B are waveform diagrams illustrating cooking characteristics of large popcorn and small popcorn calculated by the sum of data detected from a sensor;

4 is a flowchart illustrating a method for controlling automatic cooking of a microwave oven according to the present invention.

Explanation of symbols on the main parts of the drawings

2: key input, 4: door detection switching unit,

6: Cooking status sensor, 8: Voltage detector,

10: status data memory, 12: microcomputer,

14: high voltage power supply circuit, 16: magnetron driving circuit,

18: magnetron, 20: motor drive,

22: turntable motor, 24: turntable.

According to the present invention for achieving the above object, obtaining a sum of the data detected from the sensor every cycle; Calculating the number of times that the sum of the data exceeds a set value in a predetermined period; There is provided an automatic cooking control method for a microwave oven comprising adjusting a driving time of a magnetron according to whether the number is greater than or equal to a set number.

Preferably, the data is characterized in that the cooking change state of the food is a voltage detected by the sensor.

More preferably, the step of adjusting the driving time of the magnetron is made to terminate the driving of the magnetron if the number is more than the set number, and if the number is less than the set number, the driving time of the magnetron up to a predetermined set period. Is made to extend.

Even more preferably, the period in which data is detected by the sensor is characterized in that the rotation period of the turntable on which food is loaded.

According to the present invention configured as described above, the small popcorn or the medium-sized popcorn is determined according to the number of times that the sum of the data for each rotation period detected from the sensor during the predetermined rotation period of the turntable exceeds the predetermined threshold, and the weight of the popcorn By adaptively adjusting the cooking time of the popcorn, the popcorn can be optimally cooked by only one key input.

Hereinafter, the present invention configured as described above will be described in detail with reference to the accompanying drawings.

The main feature of the automatic cooking control method of the present invention is that the cooking state detection data of the popcorn is input from the sensor at every rotation period of the turntable when the popcorn is cooked, and the sum of the data detected in one rotation period of the turntable is equal to or greater than a set value. Calculate the value.

In addition, in the present invention, if the sum of data which is equal to or larger than the set value during the predetermined period is calculated to be equal to or greater than the set number, it is determined as a small popcorn and the cooking operation is finished. On the other hand, if the sum of the data more than the set value during the predetermined period is calculated to be less than the set number, it is determined as a large popcorn to extend the cooking time by a preset rotation period.

1 is a block diagram showing a circuit configuration of a microwave oven to which the popcorn cooking control method according to the present invention is applied.

As shown in FIG. 1, in the microwave oven to which the present invention is applied, a key input unit 2 having a single popcorn cooking box for instructing the start of the cooking function of the popcorn and the opening / closing state of the cooking chamber door are sensed and detected. The door detection switching unit 4 for generating a door detection switching signal is configured.

In addition, a cooking state sensor 6 for detecting a cooking state of the popcorn installed in the microwave oven, and a voltage detector 8 for detecting the voltage signal from the cooking state sensor 6 and outputting it as a stabilized voltage. ) Is configured.

Here, the cooking state sensor 6 is preferably installed in the waveguide of the microwave oven and employs an antenna sensor for detecting the magnetic field voltage of the standing wave due to the combination of the incident wave and the reflected wave of the microwave generated from the magnetron 18.

The technique for the antenna sensor employed as the cooking state sensor 6 is disclosed in the patent application No. 98-161026 filed on June 19, 1993, issued by the applicant of the present application on December 15, 1998 Name: high frequency heating device) and Utility Model Publication No. 99-143508 filed on August 11, 1993, issued June 15, 1999 (name of design: high frequency heating device).

On the other hand, the cooking state sensor 6, in addition to the antenna sensor, the infrared sensor and temperature sensor for detecting the cooking temperature of the popcorn, the humidity sensor for detecting the change in the amount of water vapor and gas particles generated by the cooking of the popcorn and It is also possible to employ a variety of sensors such as gas sensors, light emitting devices and light receiving devices for inferring the shape of popcorn.

In addition, in the present invention, the state data memory 10 is configured to store data detected by the cooking state sensor 6 and result data calculated on the detected data.

Then, the microcomputer 12 that calculates the data detected from the cooking state sensor 6, and adjusts the power of the magnetron 18 in accordance with the calculation result is configured.

The microcomputer 12 is provided with a setting data memory 12A in which a control program having power adjustment of the magnetron 18 and a control algorithm for calculating detection data obtained from the cooking state sensor 6 is stored.

In addition, in the present invention, the magnetron driving circuit 16 for driving the magnetron 18 by being driven and controlled by the microcomputer 12 to receive the high voltage formed by the high voltage power supply circuit 14 and the turntable. A motor driver 20 is configured to rotate the turntable motor 22 to rotate 24 at a constant speed.

Here, as shown in FIG. 2, the microcomputer 12 starts a measurement from a predetermined point within a period in which the magnetron 18 is powered on in each rotation period of the turntable 24, and thus, a plurality of measurement points P1. , P2, P3, ... Pn-3, Pn-2, Pn-1, Pn), to collect a plurality of data respectively detected by the cooking state sensor (6).

The microcomputer 12 stores a plurality of pieces of data detected for each rotation period of the turntable 24 in the state data memory 10.

On the other hand, if the cooking state sensor 6 is employed as an antenna sensor for detecting the magnetic field voltage of the standing wave, the detected value of the reflected wave because the absorption of the microwaves generated by the magnetron 18 is larger than that of the small popcorn in the case of the large popcorn. Is less. On the contrary, in the case of small popcorn, since the absorption of microwaves is less than that of large popcorn, the detection value of the reflected wave increases.

3A and 3B are waveform diagrams illustrating cooking characteristics of large popcorn and small popcorn calculated by the sum of data detected from a sensor.

As shown in FIGS. 3A and 3B, the sum value (ie, sum of detection voltages) of data detected from the cooking state sensor 6 for each rotation period of the turntable 24 is a predetermined set value, for example, 35 ( In other words, it can be seen that the number of detected values of 35V or more) is larger than that of the large popcorn.

That is, the sum of data detected for each rotation period up to the six rotation cycles of the turntable 24 is, for example, two or more than 35 set values or more, whereas in the case of large popcorn, the sum of detection data that is more than or equal to the set values. It is calculated that the number of is 1 or less.

Next, the operation of the present invention made as described above will be described in detail with reference to the flowchart of FIG. 4.

First, when the popcorn cooking of the key input unit 2 is keyed while the popcorn is loaded in the cooking chamber, the microcomputer 12 drives the magnetron driving circuit 16 to supply the high pressure from the high voltage power supply circuit 14. Thereby generating microwaves in the magnetron 18. At the same time, the microcomputer 12 drives the motor driving unit 20 so that the turntable motor 22 rotates the turntable 24 at a constant speed (step S10).

In this state, the microcomputer 12 performs the plurality of measurement points P1, P2, P3, ... Pn-3, Pn-2, Pn-1, Pn at every rotation period of the turntable 24. The plurality of pieces of data detected by the cooking state sensor 6 are combined and stored in the state data memory 10.

On the other hand, the microcomputer 12 determines whether the sum of data detected in one rotation period of the turntable 24 is equal to or greater than a set value, for example, 35 or more (step S11).

As a result of the determination, when it is determined that the sum value of the data detected in one rotation period of the turntable 24 is equal to or greater than the set value, the microcomputer 12 increases the number of data (a) that is equal to or greater than the set value to increase the state data memory. (10) (step S12).

Then, the microcomputer 12 determines whether the turntable 24 has been rotated by a first set rotation period, for example, six rotation cycles (step S13).

As a result of the determination, when it is determined that the turntable 24 is rotated by, for example, six rotation cycles, the microcomputer 12 determines that the number of data detected in each rotation cycle is equal to or greater than a set value of 35, for example, a set number, for example, 2. It is determined whether or not there are more than pieces (step S14).

As a result of the determination, when it is determined that the sum of the data detected in every rotation period up to six rotation cycles of the turntable 24 is two or more, for example, 35 or more, it is determined that the cooked popcorn is a small popcorn and the cooking operation is performed. End (step S15).

On the other hand, if it is determined in the determination result of step S14 that the sum of the detection data is less than two, for example, 35 or more, the microcomputer 12 determines that the cooked popcorn is a large popcorn and cooks it. The operation is continued (step S16).

Then, the microcomputer 12 determines whether or not the turntable 24 has been rotated by a second set rotation period, for example, 10 rotation periods (step S17).

As a result of the determination, when it is determined that the turntable 24 is rotated by 10 rotation cycles, the microcomputer 12 ends the cooking operation of the large popcorn (step S18).

According to the present invention made as described above, it is possible to properly cook the small popcorn or large popcorn by only one key input by the user, thus eliminating the possibility of malfunction caused by the conventional user incorrectly input the popcorn weight, The convenience of the effect is doubled.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes are intended to fall within the scope of the claims set forth.

Claims (5)

In a microwave oven having a cooking state sensor for sensing the cooking state of the food and outputting a signal, and a microcomputer for calculating the data detected from the cooking state detection sensor, and controls the operation of the magnetron according to the operation result, (a) obtaining a sum of data detected from the cooking state sensor at every rotation period of the turntable on which the food is loaded; (b) calculating the number of times that the sum of the data is equal to or larger than a set value in a predetermined rotation period of the turntable; And (c) terminating the driving of the magnetron when the number is greater than or equal to the set number, and driving the magnetron until a set rotation period when the number is less than the set number. The method of claim 1, wherein the cooking state of the cooking change of the food is a voltage detected by the cooking state detection sensor. delete delete delete