KR20190090234A - Method for controlling microwave range - Google Patents

Abstract

The present invention relates to a method for controlling a microwave oven, capable of quickly and correctly determining whether food exists in a cavity. According to the present invention, the method for controlling a microwave oven comprises the following steps: measuring induced electromotive force by a standing wave in a waveguide; demodulating a signal measured in a sensor; recording demodulated data (Xn) at a predetermined cycle; dividing Xn into a plurality of sections and calculating an average (An) of each section; calculating an average (B) of the predetermined number of values from an initial value (A1) among Ans; dividing An again into a plurality of sections and calculating an average (Cn) for each section; calculating the difference (Sn) between the Cn and B; determining whether Sn is within a preset reference range; calculating the difference between Sn and an initial value (S1) of Sns when the Sn is within the reference range; and determining that food exists in a cavity when Dn is maintained at a reference value or less for a preset time.

Description

[0001] METHOD FOR CONTROLLING MICROWAVE RANGE [0002]

The present invention relates to a method of controlling a microwave oven, and more particularly, to a method of controlling a microwave oven for determining whether food is present in a cavity.

A microwave oven is a cooking device that heats food using the properties of a microwave. The microwave oven utilizes a phenomenon in which heat is generated by vibrating molecules in a high frequency electric field. At this time, some of the microwaves are absorbed by the food and some of the microwaves are reflected. If the microwave oven is operated with no food, the amount of the reflected microwaves is excessively increased, thereby deteriorating the magnetron or the high voltage transformer.

In consideration of the fact that the humidity of the cavity is increased when the food is heated, a method of judging whether or not the food is present based on the change of the humidity of the cavity has been proposed. However, it is difficult to make an immediate judgment because the moisture of the food should be evaporated before the change of humidity can be detected. If the sealed container is used, there is a problem that the humidity of the cavity is not raised, have.

In order to solve the above problem, it is an object of the present invention to provide a control method of a microwave oven capable of promptly and accurately judging whether or not there is food in a cavity.

A control method of a microwave oven according to the present invention is a microwave oven control method including a cavity for accommodating food, a magnetron for emitting microwaves, and a waveguide for guiding the microwaves of the magnetron to the cavity, demodulating the signal measured by the sensor by the step of measuring the induced electromotive force according to the standing wave on the waveguide, a diode, a capacitor and the envelope detector comprising a variable resistor, the data demodulated by the envelope detector (X _n) Calculating a mean value A _n of each interval by dividing X _n into a plurality of intervals, calculating an average B _n of predetermined values from the initial value A ₁ of A _n , ), Dividing the A _n into a plurality of intervals, calculating an average (C _n ) for each interval Calculating a difference (S _n ) between the C _n and the B, determining whether or not the S _n is within a predetermined reference range; if the S _n is within the reference range, the S _n and when calculating the difference (D _n) of the first value (S ₁₎ of said S _n, comparing the with D _n predetermined reference value, the D _n is maintained at or below for a predetermined time, said reference value, Determining that there is food in the cavity, and determining that there is no food in the cavity if D _n is greater than the reference value.

If it is determined that there is no food in the cavity, the microwave oven may further include a step of stopping operation of the microwave oven or notifying the user of the operation.

If the S _n is outside the reference range, the variable resistance of the envelope detector may be adjusted and then returned to the initial stage.

Further, if the S _n is below the reference range, the variable resistance of the envelope detector can be adjusted to a greater extent.

Further, if S _n is above the reference range, the variable resistance of the envelope detector can be adjusted to be smaller.

And determining that the microwave oven is operating abnormally if X _n is less than a predetermined voltage.

Further, if it is determined that the microwave oven is operating abnormally, it may further include stopping the operation of the microwave oven or notifying the user of the operation of the microwave oven.

The control method of a microwave oven according to the present invention determines whether there is food in the cavity, and if it is judged that there is no food, the operation of the microwave oven is stopped or the user is notified of the operation to increase the durability of the microwave oven.

At this time, it is possible to obtain a certain level of accuracy regardless of the relative positions of the food and the sensor, by judging based on the induced electromotive force due to the standing wave caused by the incident wave and the reflected wave on the waveguide.

Further, by judging the variable resistance of the envelope detector according to a predetermined condition, the accuracy can be further increased.

1 is a schematic diagram of a microwave oven to which a method of controlling a microwave oven according to an embodiment of the present invention can be applied.
2 is a circuit diagram of an envelope detector that can be used in a method of controlling a microwave oven according to an embodiment of the present invention.
3 is a flowchart of a method of controlling a microwave oven according to an embodiment of the present invention.
FIGS. 4 to 6 illustrate aspects of demodulation according to the time constant of the envelope detector.

First, a microwave oven 10 to which a microwave oven control method according to an embodiment of the present invention can be applied will be briefly described.

1 is a schematic diagram of a microwave oven 10 to which a method of controlling a microwave oven according to an embodiment of the present invention can be applied.

1, the microwave oven 10 includes a cavity 11, a magnetron 12, a waveguide 13, a sensor 14, an envelope detector (not shown), and a controller (not shown).

The cavity 11 is a space for accommodating food.

The magnetron 12 emits microwaves and the waveguide 13 serves to guide the microwaves to the cavity 11. At this time, a part of the microwaves of the magnetron 12 are absorbed by the food, and the other part of the microwaves is reflected and propagates to the waveguide 13 again. A standing wave can be formed on the waveguide 13, and the standing wave ratio depends on whether the cavity 11 has food or not.

Meanwhile, the sensor 14 is installed on the waveguide 13 to measure the induced electromotive force according to the standing wave on the waveguide 13.

The envelope detector comprises a diode, a capacitor, and a variable resistor, as shown in FIG. 2, to demodulate the signal measured by the sensor 14. The configuration including the diode, the capacitor, and the resistor, and the operation itself are the same as those known in the art, so a detailed description thereof will be omitted.

The control unit determines whether there is food or not in the cavity 11 based on the data demodulated by the envelope detector, and the method will be described.

3 is a flowchart of a method of controlling a microwave oven according to an embodiment of the present invention.

3, the sensor 14 measures the induced electromotive force corresponding to the standing wave on the waveguide 13 (S11), the envelope detector demodulates the signal measured by the sensor 14 (S12) And records the data at a constant cycle (S13).

The envelope detector demodulates the signal measured by the sensor 14 so that uniformity can be imparted to the data.

Hereinafter, the data demodulated by the envelope detector is referred to as X _n , and X ₁ , X ₂ , X ₃ , X ₄ ... .

Next, it is determined whether or not X _n is equal to or higher than a predetermined first voltage (S21). Here, the first voltage is set to a value corresponding to the minimum value that can be detected when the microwave oven 10 is operating. However, the figures are not specific because they may vary depending on the design of the individual microwave oven.

If X _n is less than the first voltage, it is determined that the microwave oven 10 is not operating. If X _n is greater than or equal to the first voltage, it is determined that the microwave oven 10 is operating once.

Then, it is determined whether or not X _n is higher than the first voltage by a predetermined second voltage or higher (S22). Here, the second voltage may be a value corresponding to a value that can be normally detected when the microwave oven 10 is normally operating, and may be set to, for example, about 0.1V. Of course, this also depends on the design of the individual microwave ovens.

If X _n is equal to or higher than the first voltage but less than the second voltage, it is determined that the magnetron 12 and other components are damaged and the microwave oven 10 is operating abnormally. Therefore, the operation of the microwave oven 10 can be forcibly stopped or the user can be informed that the microwave oven 10 is operating abnormally.

On the other hand, if X _n is equal to or higher than the second voltage, it is determined that the microwave oven 10 is operating normally.

Next, when a predetermined first time elapses, X _n is divided into a plurality of intervals, and an average of the intervals is calculated and stored (S 31). Here, the first time may be a time for reaching the stabilizer to some extent after the microwave oven 10 starts operating, for example, it may be set to about 3 seconds to 5 seconds.

Also, the interval may be determined to correspond to a time required for the stirrer fan of the microwave oven 10 to rotate once. For example, if example stirrer fan is the accumulated total of 17 data (X _n) for the rotating time ₁ X 1 ~ X ₁₇ region of the interval of X ₁₈ ~ X _34, the section of _{X 35 ~ X 51, X 52} ~ X ₆₈ , etc. to calculate the average of each section.

As described above, when the average of X _n is used without using X _n , the influence of the temporarily bouncing data can be reduced as much as possible, thereby improving the accuracy and stability of the present control method.

Hereinafter referred to as the average of each section A _n, and then A ₁ average (i.e. X ₁ ~ X ₁₇ average), A ₂ (i.e. the average of _{X 18 ~ X 34), A} 3 ( i.e., X ₃₅ ~ X ₅₁ ), A ₄ (ie the average of X ₅₂ to X ₆₈ ) ... .

Also, an average of a predetermined number of values from A ₁ of A _{n, that} is, an average of some initial values, is calculated and stored (S32). For example, the average of A ₁ to A ₃ can be calculated. Of course, the number may vary as needed.

Hereinafter, this is referred to as B.

Further, A _n is divided into a plurality of intervals, and an average of the intervals is calculated and stored (S 33). For example, the average of each interval can be calculated by subdividing into A ₁ to A ₁₇ , A ₁₈ to A ₃₄ , A ₃₅ to A ₅₁ , and A ₅₂ to A ₆₈ .

Thus, by calculating the average of the first mean (A _n ), that is, the second mean, the accuracy and stability of the present control method can be further improved.

In the average of each section are accordingly referred to as C _n or less, and then C ₁ (i.e., the average of _{A 1 ~ A 17), C} 2 ( i.e., the average of _{A 18 ~ A 34), C} 3 ( i.e., A ₃₅ ~ A ₅₁ ), C ₄ (ie the average of A ₅₂ to A ₆₈ ) ... .

Then, the difference between C _n and B is calculated (S41).

Hereinafter, this is referred to as S _n . That is _{C 1 -B = S 1, C} 2 -B = S 2, C 3 -B = S 3, C 4 -B = S 4 ... .

At this time, it is determined whether or not S _n is within a predetermined reference range (S42).

If S _n is within the reference range, the difference between S _n and S ₁ is calculated (S 51).

Hereinafter, this is referred to as D _n . In other words _{S 2 -S 1 = D 2,} S 3 -S 1 = D 3, S 4 -S 1 = D 4, S 5 -S 1 = D 5 ... .

Next, it is determined whether D _n is equal to or less than a predetermined reference value (e.g., about 5) (S52).

If D _n is maintained below the reference value for a second predetermined time (e.g., about 120 seconds) longer than the first time, it is determined that there is food in the cavity 11.

On the other hand, if D _n exceeds the reference value, it is determined that there is no food in the cavity 11. Therefore, the operation of the microwave oven 10 can be forcibly stopped or the user can be informed that there is no food in the cavity 11.

On the other hand, if S _n is outside the reference range, the variable resistance of the envelope detector is adjusted to compensate for the dispersion of the data and to determine again.

More specifically, if S _n is lower than the reference range, it means that the data changes too slowly as shown in FIG. 4, so that the variable resistance is increased to, for example, about 100 OMEGA And returns to the first step (S61).

On the other hand, if S _n is higher than the reference range, it means that the data is changing too fast as shown in FIG. 6, so that the variable resistance is reduced to, for example, about 100 OMEGA.

The embodiments of the present invention described above and shown in the drawings do not limit the technical idea of the present invention. The scope of protection of the present invention is determined by the matters described in the claims. On the other hand, a person skilled in the art will be able to variously improve or change the technical idea of the present invention. Such modifications and changes are within the scope of the present invention as long as they are obvious to a person skilled in the art.

Claims (7)

A microwave oven control method comprising a cavity for accommodating food, a magnetron for emitting microwaves, and a waveguide for guiding the microwaves of the magnetron to the cavity,
Measuring an induced electromotive force according to a standing wave on the waveguide using a sensor,
Demodulating a signal measured by the sensor using an envelope detector comprising a diode, a capacitor and a variable resistor,
Recording data (X _n ) demodulated by the envelope detector at a constant period,
Dividing the X _n into a plurality of intervals and calculating an average (A _n ) of the intervals,
Calculating an average (B) of a predetermined number of values from the initial value A ₁ of A _n ,
Dividing the A _n into a plurality of intervals, calculating an average (C _n ) for each interval,
Calculating the difference between the C _n and B (S _n),
Determining whether the S _n is within a predetermined reference range,
Calculating a difference (D _n ) between the S _n and an initial value S ₁ of the S _n if the S _n is within the reference range,
Comparing the D _n with a predetermined reference value,
Determining that there is food in the cavity if the D _n is maintained below the reference value for a predetermined time; and
And determining that there is no food in the cavity if D _n is greater than the reference value. The method according to claim 1,
Further comprising the step of stopping the operation of the microwave oven or informing the user of the operation of the microwave oven when it is determined that there is no food in the cavity The method according to claim 1,
And adjusting the variable resistors of the envelope detector to return to the first stage when S _n is outside the reference range. The method of claim 3,
And if the S _n is below the reference range, adjusting the variable resistance of the envelope detector to be greater. The method of claim 3,
And adjusting the variable resistor of the envelope detector to be smaller if S _n is above the reference range. The method according to claim 1,
Further comprising the step of determining that the microwave oven is operating abnormally if X _n is less than a predetermined voltage. The method according to claim 6,
Further comprising the step of stopping the operation of the microwave oven or informing the user of the abnormality if it is determined that the microwave oven is operating abnormally.

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