JPH05332549A - Heating cooker - Google Patents

Abstract

PURPOSE:To obtain a heating cooker in which an automatic cooking can be conducted in a best state by correcting a detecting error of a weight sensor. CONSTITUTION:A heating cooker has a heating chamber 5 to be heated therein by a heat source to heat and cook an article to be heated and introduced into the chamber 5, and comprises a weight sensor 7 for detecting a weight of the article to be heated in the chamber 5, weight sensor detecting error deciding means S23 for comparing a detecting error of the sensor 7 with a reference value to be previously known as a detected value S22 of a reference weight S22 to decide it, a memory for holding a stored content by a backup power source, and detecting error memory means S25 for storing the error decided by the means S23. When heating conditions of the article to be heated are set based on the detected value of the sensor 7, a value corrected from the detected value based on the error stored in the means S25 is used to be set.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating cooker such as a microwave oven or a microwave oven, and more particularly to correction of an error of a sensor for detecting the weight of an object to be heated.

[0002]

2. Description of the Related Art FIG. 6 is a front view of a heating cooker, in which 1 is a box, 2 is a door, 3 is a handle provided on the door, and 4 is an operation panel. The operation panel 4 is provided with a display unit 4a, a menu key preset with a cooking menu in advance, a manual cooking key, various keys 4b such as a cooking start key, and a knob 4c for setting cooking time, temperature and the like. There is. 5 is a heating chamber, the inside of which is heated by a heating source. Reference numeral 6 is a turntable provided in the heating chamber for placing an object to be heated. A weight sensor 7 detects the weight of the object to be heated placed on the turntable. Information input by operating the operation panel 4 is transmitted to a microcomputer included in a control circuit (not shown). The microcomputer has a CPU, a memory for storing data and calculation results, and an input / output circuit, and controls the operation of a relay that turns on / off the power supply to the heating source, the control of lighting various lamps, and the temperature sensor. Various operations of the heating cooker are controlled based on a program stored in advance such as inputting the detection signal of. Further, by inputting the detection signal from the weight sensor 7 to the microcomputer, the heating time, the heating temperature, etc. corresponding to the weight of the object to be heated are set, and the heating source (magnetron, electric heater, etc.) is set by this heating condition. It is possible to control and perform automatic cooking.

[0003]

When automatic cooking is performed with the above-described heating cooker, the detection error of the weight sensor is large and an accurate judgment cannot be made, and the finished cooking is too hot or cold. There was a problem that it was not cooked enough.

The present invention has been made to solve the above problems, and an object thereof is to obtain a heating cooker capable of performing automatic cooking in the best condition by correcting the detection error of the weight sensor. ..

[0005]

A heating cooker according to the present invention uses a weight sensor for detecting the weight of an object to be heated placed in a heating chamber and a detection error of the weight sensor as a reference weight detection value. And a weight sensor detection error determining means for comparing and determining with a reference value known in advance, and a detection error storing means including a non-volatile memory for storing the detection error determined by the weight sensor detection error determining means, When the heating condition of the object to be heated is set based on the detection value of the weight sensor, the detection value is corrected based on the detection error stored in the detection error storage means.

Further, it is provided with a detection error storage means composed of a memory whose stored contents are held by a backup power source.

Further, a weight sensor for detecting the weight of the object to be heated placed in the heating chamber and a detection error of the weight sensor are compared with a reference weight detection value and a reference value known in advance. When setting the heating condition of the object to be heated based on the detection value of the weight sensor, which comprises a weight sensor detection error correction means for making a determination and correcting the determined detection error to zero by changing the circuit constant of the electric circuit. Is set using the detection value corrected by the weight sensor detection error correction means.

Furthermore, when the weight sensor for detecting the weight of the object to be heated placed in the heating chamber and the power cord are plugged into the outlet, the detection error of the weight sensor is known beforehand as the detection value of the glass dish. A weight sensor detection error determination means for determining the weight of the glass dish by comparison with a reference value, a detection error storage means for storing the detection error determined by the weight sensor detection error determination means, and a power cord are connected to an outlet. Key reception prohibiting means for prohibiting all key reception until the detection error is stored, and the detection error storage means stores the heating condition of the object to be heated based on the detection value of the weight sensor. The value is set by using a value obtained by correcting the detected value based on the detected error.

[0009]

In the present invention, the weight sensor detection error determination means determines the detection error of the weight sensor, the detection error storage means stores the determined detection error, and the object to be heated is stored based on the detection value of the weight sensor. When the heating condition is set, it is set using a value obtained by correcting the detected value based on the stored detection error, so that the accurate heating condition corresponding to the weight of the object to be heated can be set.

The weight sensor detection error correction means determines the detection error of the weight sensor, corrects the determined detection error to zero by changing the circuit constant of the electric circuit, and detects the detection error corrected to zero. Since the heating conditions are set using the values,
Accurate heating conditions corresponding to the weight of the object to be heated can be set.

Further, the weight sensor detection error determining means is
When the power cord is turned on, the detection error is determined by detecting the weight of the glass dish, the detection error storage means stores the determined detection error, and the key reception prohibition means does not store the detection error at all. Since the key reception is prohibited, the detection error is always determined and stored by turning on the power cord, and the accurate heating condition corresponding to the weight of the object to be heated can be set.

[0012]

【Example】

Example 1. This Example 1 detects the weight by placing a reference weight having an accurate weight on a turntable at the time of production in a factory of a heating cooker, for example, a microwave oven,
The detection error is determined by comparing this detection value with an accurate output value (hereinafter referred to as a reference value) at the weight of the reference weight which is known in advance as the characteristic of the sensor. The determined detection error is stored in the non-volatile memory. When the microwave oven actually cooks over the consumer's hand, the detected value detected by the weight sensor is corrected based on the stored error, and the object to be heated is heated using this corrected value. Set the conditions. Then, the heating source is controlled so as to satisfy this heating condition.

FIG. 1 is a flow chart for explaining the determination and storage operation of the weight sensor detection error in the first embodiment.
Hereinafter, description will be given according to this flowchart. First, a reference weight having an accurate weight is placed on the turntable 6 (step S1). Then, by turning on the microwave oven, the weight sensor 7 generates an output signal (step S2). The microcomputer of the control circuit (hereinafter referred to as the microcomputer) determines the detection error of the weight sensor 7 (step S3). This is a turntable 6
The judgment is made by comparing the detected value of the reference weight put on the table with a preset reference value. Next, the determined detection error is transferred to a non-volatile memory, for example, E ² PROM (Electric).
cal Erasable Programmable
The data is stored in Read Only Memory) (step S4). The stored detection error is confirmed (step S5), and when confirmed, the work of determining the detection error of the weight sensor is terminated. If step S5 is NO, it will return to step S2 and the determination of a detection error will be performed again. As described above, the determination of the detection error of the weight sensor at the time of production in the factory and the storage operation of the determined error are completed. The operations of steps S2 to S5 described above are controlled by the microcomputer of the control circuit based on a program stored in advance.

Example 2. The second embodiment is different from the first embodiment in that the detection error of the weight sensor is stored in the non-volatile memory, but the detection error is stored in the memory in which the stored contents are held by the backup power source, but other Is the same as in Example 1.

FIG. 2 is a flow chart for explaining the determination and storage operation of the weight sensor detection error in the second embodiment.
Hereinafter, description will be given according to this flowchart. First, a reference weight having an accurate weight is placed on the turntable 6 (step S21). Then, by turning on the microwave oven, the weight sensor 7 generates an output signal (step S22). The microcomputer of the control circuit determines the detection error of the weight sensor 7 (step S23). This is determined by comparing a reference weight detection value placed on the turntable 6 with a preset reference value. next,
The microcomputer confirms the determined detection error (step S24). If step S24 is NO, step S2
Returning to 2, if the step S24 is YES, the microcomputer stores the detection error (step S25). Next, the backup power supply is turned on (step S26). As described above, the determination of the detection error of the weight sensor at the time of production in the factory and the storage operation of the determined error are completed. A lithium battery, for example, is used as the backup power source. The operations of steps S22 to S26 described above are controlled by the microcomputer of the control circuit based on a program stored in advance. Since the second embodiment has a backup power source,
It goes without saying that the stored contents will not be lost even if the power cord is unplugged. Further, the backup power supply can also store the cooking mode and the remaining cooking time in the event of an instantaneous power failure.

Embodiment 3. In the third embodiment, at the time of production in a heating cooker, for example, a microwave oven factory, a reference weight having an accurate weight is placed on a turntable to detect the weight, and the detected value and the characteristics of the sensor are known in advance. The detection error is judged by comparing with the reference value. Next, the detection error is corrected to be zero. This correction is performed by the output signal V _OUT of the weight sensor 7 as shown in FIG.
The semi-fixed resistor R is adjusted so that is a previously known reference value. In FIG. 3, IC is a charge / discharge circuit for obtaining an electric output as a weight sensor, and in this specification, the IC is also referred to as a weight sensor.
Reference numeral 7a is a sensor in which the capacitance of the counter electrode changes according to the weight. When the microwave oven is actually cooked by the consumer, the detection value detected by the weight sensor is corrected so as not to include an error, so that cooking can be performed in the best condition.

FIG. 4 is a flow chart for explaining the work of correcting the weight sensor detection error of the third embodiment. Hereinafter, description will be given according to this flowchart. The work of correcting the detection error of the weight sensor is started, and a reference weight having an accurate weight is placed on the turntable 6 (step S41). After that, the weight sensor 7 is turned on by turning on the microwave oven.
Generates an output signal (step S42). The microcomputer of the control circuit determines the detection error of the weight sensor 7 as in the first embodiment (step S43). Next, the semi-fixed resistor R is adjusted and corrected so that the error becomes zero (step S44). The microcomputer confirms that the error has become zero (step S45). If YES, the work of correcting the detection error is ended, and if NO, the process returns to step S42. As described above, the determination of the detection error of the weight sensor at the time of production in the factory and the correction work thereof are completed. Step S4 above
The operations of 2 to S45 are controlled by the microcomputer of the control circuit based on a program stored in advance. The variable resistor R is attached to a printed circuit board that constitutes a control circuit. The printed circuit board is arranged inside the operation panel 4.

Example 4. In the fourth embodiment, when the user of the microwave oven inserts the power cord into the outlet, the detection error of the weight sensor is determined and stored. This work is done using the glass dish attached to the microwave oven as a reference weight. Also,
It is performed every time the outlet is turned on. When the user turns on the power cord and places the attached glass dish on the turntable, the microcomputer in the control circuit detects the weight of the glass dish, and the detected value and the reference value of the sensor for the weight of the glass dish are used. To determine the detection error.
The determined detection error is stored in the memory of the microcomputer.
In addition, the reception of all keys is prohibited until the determination and the storage of the detection error are completed, so that the microwave oven cannot be used even if the key is pressed. Therefore, when the user plugs the power cord into the outlet, the detection error is always judged and stored. The stored contents (detection error) are retained unless the power cord is pulled out. Even if the power cord is unplugged, it will be stored again the next time it is cooked, so the detection error is always stored when cooking.

When cooking, the weight of the material at that time is corrected based on the error stored in the detected value detected by the weight sensor, and the corrected value is used to heat the object to be heated. To set. Then, the heating source is controlled so as to satisfy this heating condition.

FIG. 5 is a flow chart for explaining the work of determining and storing the weight sensor detection error in the fourth embodiment. Hereinafter, description will be given according to this flowchart. The user plugs the power cord into an outlet (step S5
1) Place the glass plate on the turntable 6 (step S52). The microcomputer of the control circuit confirms the glass dish (step S53) and, if the glass dish is not inserted, prompts the user to insert the glass dish by blinking a lamp or the like. If the glass dish is inside, the weight sensor 7 generates an output signal (step S54). The microcomputer determines the detection error of the weight sensor 7 (step S55). This is determined by comparing the detection value of the glass plate placed on the turntable 6 with the reference value of the weight sensor for the preset weight of the glass plate. Next, the microcomputer confirms the detection error (step S56). If NO, the process returns to step S54, and if YES, the determined detection error is stored (step S57). When the storage is completed, key reception is started (step S58). In step S58, any key reception is prohibited until the key reception is started, so the microwave oven cannot be used even if the key is pressed. In addition,
The key reception includes not only the key but also the time setting by the knob and the like.

As described above, when the power cord of the microwave oven is plugged into the outlet, the detection error of the weight sensor 7 is always determined and stored. The memory disappears when the power cord is pulled out, but the detection error is determined and the memory is executed when the power cord is reconnected. Note that the above steps S53 to S
The operation of 58 is controlled by the microcomputer of the control circuit based on the program stored in advance.

[0022]

As described above, according to the present invention, the weight sensor detection error determination means determines the detection error of the weight sensor, and the detection error storage means composed of a non-volatile memory stores the determined detection error. When setting the heating condition of the object to be heated based on the detected value of, the value is set using the value that is corrected based on the stored detection error. You can set various heating conditions. Therefore, there is an effect that cooking can be performed in the best condition.

Further, the weight sensor detection error determination means determines the detection error of the weight sensor, and the detection error storage means including a memory in which the stored contents are held by the backup power supply stores the determined detection error, and the weight sensor detection error determination means stores the determined detection error. When setting the heating condition of the object to be heated based on the detected value, the value is set using the value obtained by correcting the detected value based on the stored detection error, so that the accurate value corresponding to the weight of the object to be heated is set. The heating conditions can be set. Therefore, there is an effect that cooking can be performed in the best condition. The backup power supply also has the effect of being able to store the cooking mode and remaining cooking time in the event of an instantaneous power failure.

The weight sensor detection error correction means determines the detection error of the weight sensor, corrects the determined detection error to zero by changing the circuit constant of the electric circuit, and detects the detection error corrected to zero. Since the heating conditions are set using the values,
Accurate heating conditions corresponding to the weight of the object to be heated can be set. Therefore, there is an effect that cooking can be performed in the best condition.

Further, the weight sensor detection error determining means is
When the power cord is turned on, the detection error is determined by detecting the weight of the glass dish, the detection error storage means stores the determined detection error, and the key reception prohibition means does not store the detection error at all. Since the key reception is prohibited, the detection error is always determined and stored by turning on the power cord, and the accurate heating condition corresponding to the weight of the object to be heated can be set. Therefore, there is an effect that the heating cooker can be produced in the best condition.

[Brief description of drawings]

FIG. 1 is a flowchart illustrating a first embodiment of the present invention.

FIG. 2 is a flowchart illustrating a second embodiment of the present invention.

FIG. 3 is an explanatory diagram illustrating correction of a detection error of the weight sensor according to the third embodiment of the present invention.

FIG. 4 is a flowchart illustrating a third embodiment of the present invention.

FIG. 5 is a flowchart illustrating a fourth embodiment of the present invention.

FIG. 6 is a front view showing an outline of a heating cooker.

[Explanation of symbols]

 1 Box 2 Door 3 Handle 4 Operation Panel 5 Heating Cabinet 6 Turntable 7 Weight Sensor

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[Procedure amendment]

[Submission date] August 19, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Title of invention Heating cooker

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating cooker such as a microwave oven or a microwave oven, and more particularly to correction of an error of a sensor for detecting the weight of an object to be heated.

[0002]

2. Description of the Related Art FIG. 5 is a front view of a heating cooker, in which 1 is a box, 2 is a door, 3 is a handle provided on the door, and 4 is an operation panel. The operation panel 4 is provided with a display unit 4a, a menu key preset with a cooking menu in advance, a manual cooking key, various keys 4b such as a cooking start key, and a knob 4c for setting cooking time, temperature and the like. There is. 5 is a heating chamber, the inside of which is heated by a heating source. Reference numeral 6 is a turntable provided in the heating chamber for placing an object to be heated. A weight sensor 7 detects the weight of the object to be heated placed on the turntable. Information input by operating the operation panel 4 is transmitted to a microcomputer included in a control circuit (not shown). The microcomputer has a CPU, a memory for storing data and calculation results, and an input / output circuit, and controls the operation of a relay that turns on / off the power supply to the heating source, the control of lighting various lamps, and the temperature sensor. Various operations of the heating cooker are controlled based on a program stored in advance such as inputting the detection signal of. Further, by inputting the detection signal from the weight sensor 7 to the microcomputer, the heating time, the heating temperature, etc. are set according to the weight of the object to be heated, and the heating source (magnetron, electric heater, etc.) is set according to this heating condition. It is possible to control and perform automatic cooking.

[0003]

When automatic cooking is performed with the above-described heating cooker, the detection error of the weight sensor is large and an accurate judgment cannot be made, and the finished cooking is too hot or cold. There was a problem that it was not cooked enough.

The present invention has been made to solve the above problems, and an object thereof is to obtain a heating cooker capable of performing automatic cooking in the best condition by correcting the detection error of the weight sensor. ..

[0005]

A heating cooker according to the present invention uses a weight sensor for detecting the weight of an object to be heated placed in a heating chamber and a detection error of the weight sensor as a reference weight detection value. And a reference value that is known in advance to determine the weight sensor detection error determination means and a memory that holds the stored contents by a backup power supply, and stores the detection error determined by the weight sensor detection error determination means. When setting the heating condition of the object to be heated based on the detection value of the weight sensor, a value obtained by correcting the detection value based on the detection error stored in the detection error storage means is used. To set.

Further, a weight sensor for detecting the weight of an object to be heated placed in the heating chamber and a detection error of the weight sensor are compared with a reference weight detection value and a reference value known in advance. When setting the heating condition of the object to be heated based on the detection value of the weight sensor, which comprises a weight sensor detection error correction means for making a determination and correcting the determined detection error to zero by changing the circuit constant of the electric circuit. Is set using the detection value corrected by the weight sensor detection error correction means.

Further, when the weight sensor for detecting the weight of the object to be heated placed in the heating chamber and the power cord are connected to the outlet, the detection error of the weight sensor is known beforehand as the detection value of the glass dish. A weight sensor detection error determination means for determining the weight of the glass dish by comparison with a reference value, a detection error storage means for storing the detection error determined by the weight sensor detection error determination means, and a power cord are connected to an outlet. Key reception prohibiting means for prohibiting all key reception until the detection error is stored, and the detection error storage means stores the heating condition of the object to be heated based on the detection value of the weight sensor. The value is set by using a value obtained by correcting the detected value based on the detected error.

[0008]

According to the present invention, the weight sensor detection error determination means determines the detection error of the weight sensor, and the detection error storage means formed of a memory in which the stored contents are held by the backup power supply stores the determined detection error, When setting the heating condition of the object to be heated based on the detection value of the weight sensor, it is set using the corrected value of the detection value based on the stored detection error. Accurate heating conditions can be set.

The weight sensor detection error correction means determines the detection error of the weight sensor, corrects the determined detection error to zero by changing the circuit constant of the electric circuit, and detects the detection error corrected to zero. Since the heating conditions are set using the values,
Accurate heating conditions corresponding to the weight of the object to be heated can be set.

Further, the weight sensor detection error determination means is
When the power cord is turned on, the detection error is determined by detecting the weight of the glass dish, the detection error storage means stores the determined detection error, and the key reception prohibition means does not store the detection error at all. Since the key reception is prohibited, the detection error is always determined and stored by turning on the power cord, and the accurate heating condition corresponding to the weight of the object to be heated can be set.

[0011]

EXAMPLES Example 1. This Example 1 detects the weight by placing a reference weight having an accurate weight on a turntable at the time of production in a factory of a heating cooker, for example, a microwave oven,
The detection error is determined by comparing this detection value with an accurate output value (hereinafter referred to as a reference value) at the weight of the reference weight which is known in advance as the characteristic of the sensor. The determined detection error is stored in the memory whose stored contents are held by the backup power supply. When the microwave oven actually cooks over the consumer's hand, the detected value detected by the weight sensor is corrected based on the stored error, and the object to be heated is heated using this corrected value. Set the conditions. Then, the heating source is controlled so as to satisfy this heating condition.

FIG. 1 is a flow chart for explaining the determination and storage operation of the weight sensor detection error in the first embodiment.
Hereinafter, description will be given according to this flowchart. First, a reference weight having an accurate weight is placed on the turntable 6 (step S21). Then, by turning on the microwave oven, the weight sensor 7 generates an output signal (step S22). The microcomputer of the control circuit determines the detection error of the weight sensor 7 (step S23). This is determined by comparing a reference weight detection value placed on the turntable 6 with a preset reference value. next,
The microcomputer confirms the determined detection error (step S24). If step S24 is NO, step S2
Returning to 2, if the step S24 is YES, the microcomputer stores the detection error (step S25). Next, the backup power supply is turned on (step S26). As described above, the determination of the detection error of the weight sensor at the time of production in the factory and the storage operation of the determined error are completed. A lithium battery, for example, is used as the backup power source. The operations of steps S22 to S26 described above are controlled by the microcomputer of the control circuit based on a program stored in advance. Since the second embodiment has a backup power source,
It goes without saying that the stored contents will not be lost even if the power cord is unplugged. Further, the backup power supply can also store the cooking mode and the remaining cooking time in the event of an instantaneous power failure.

Embodiment 2. In the second embodiment, at the time of production in a heating cooker, for example, a microwave oven factory, a reference weight having an accurate weight is placed on a turntable to detect the weight, and the detected value and the characteristics of the sensor are known in advance. The detection error is judged by comparing with the reference value. Next, the detection error is corrected to be zero. This correction is performed by the output signal V _OUT of the weight sensor 7 as shown in FIG.
The semi-fixed resistor R is adjusted so that is a previously known reference value. In FIG. 2, IC is a charge / discharge circuit for obtaining an electrical output as a weight sensor, and in this specification, the IC is also referred to as a weight sensor.
Reference numeral 7a is a sensor in which the capacitance of the counter electrode changes according to the weight. When the microwave oven is actually cooked by the consumer, the detection value detected by the weight sensor is corrected so as not to include an error, so that cooking can be performed in the best condition.

FIG. 3 is a flow chart for explaining the work of correcting the weight sensor detection error of the second embodiment. Hereinafter, description will be given according to this flowchart. The work of correcting the detection error of the weight sensor is started, and a reference weight having an accurate weight is placed on the turntable 6 (step S41). After that, the weight sensor 7 is turned on by turning on the microwave oven.
Generates an output signal (step S42). The microcomputer of the control circuit determines the detection error of the weight sensor 7 as in the first embodiment (step S43). Next, the semi-fixed resistor R is adjusted and corrected so that the error becomes zero (step S44). The microcomputer confirms that the error has become zero (step S45). If YES, the work for correcting the detection error is ended, and if NO, the process returns to step S42. As described above, the determination of the detection error of the weight sensor at the time of production in the factory and the correction work thereof are completed. Step S above
The operations of 42 to S45 are controlled by the microcomputer of the control circuit based on a program stored in advance. The variable resistor R is attached to a printed circuit board that constitutes a control circuit. The printed circuit board is arranged inside the operation panel 4.

Example 3. In the third embodiment, when the user of the microwave oven inserts the power cord into the outlet, the detection error of the weight sensor is determined and stored. This work is done using the glass dish attached to the microwave oven as a reference weight. Also,
It is performed every time the outlet is turned on. When the user turns on the power cord and places the attached glass dish on the turntable, the microcomputer in the control circuit detects the weight of the glass dish, and the detected value and the reference value of the sensor for the weight of the glass dish are used. To determine the detection error.
The determined detection error is stored in the memory of the microcomputer.
In addition, the reception of all keys is prohibited until the determination and the storage of the detection error are completed, so that the microwave oven cannot be used even if the key is pressed. Therefore, when the user plugs the power cord into the outlet, the detection error is always judged and stored. The stored contents (detection error) are retained unless the power cord is pulled out. Even if the power cord is unplugged, it will be stored again the next time it is cooked, so the detection error is always stored when cooking.

When cooking, the weight of the material at that time is corrected based on the error stored in the detected value detected by the weight sensor, and the corrected value is used to heat the object to be heated. To set. Then, the heating source is controlled so as to satisfy this heating condition.

FIG. 4 is a flow chart for explaining the work of determining and storing the weight sensor detection error in the third embodiment. Hereinafter, description will be given according to this flowchart. The user plugs the power cord into an outlet (step S5
1) Place the glass plate on the turntable 6 (step S52). The microcomputer of the control circuit confirms the glass dish (step S53) and, if the glass dish is not inserted, prompts the user to insert the glass dish by blinking a lamp or the like. If the glass dish is inside, the weight sensor 7 generates an output signal (step S54). The microcomputer determines the detection error of the weight sensor 7 (step S55). This is determined by comparing the detection value of the glass plate placed on the turntable 6 with the reference value of the weight sensor for the preset weight of the glass plate. Next, the microcomputer confirms the detection error (step S56). If NO, the process returns to step S54, and if YES, the determined detection error is stored (step S57). When the storage is completed, key reception is started (step S58). In step S58, any key reception is prohibited until the key reception is started, so the microwave oven cannot be used even if the key is pressed. In addition,
The key reception includes not only the key but also the time setting by the knob and the like.

As described above, when the power cord of the microwave oven is connected to the outlet, the detection error of the weight sensor 7 is surely judged and stored. The memory disappears when the power cord is pulled out, but the detection error is determined and the memory is executed when the power cord is reconnected. Note that the above steps S53 to S
The operation of 58 is controlled by the microcomputer of the control circuit based on the program stored in advance.

[0019]

As described above, according to the present invention, the weight sensor detection error determination means determines the detection error of the weight sensor, and the detection error storage means formed of a memory in which the stored contents are held by the backup power source is determined. When the error is memorized and the heating condition of the object to be heated is set based on the detection value of the weight sensor, the detected value is corrected based on the stored detection error. Accurate heating conditions corresponding to the weight of the object can be set. Therefore, there is an effect that cooking can be performed in the best condition. Also,
The backup power supply also has the effect of storing the cooking mode and remaining cooking time in the event of an instantaneous power failure.

The weight sensor detection error correction means determines the detection error of the weight sensor, corrects the determined detection error to zero by changing the circuit constant of the electric circuit, and detects the detection error corrected to zero. Since the heating conditions are set using the values,
Accurate heating conditions corresponding to the weight of the object to be heated can be set. Therefore, there is an effect that cooking can be performed in the best condition.

Further, the weight sensor detection error determining means is
When the power cord is turned on, the detection error is determined by detecting the weight of the glass dish, the detection error storage means stores the determined detection error, and the key reception prohibition means does not store the detection error at all. Since the key reception is prohibited, the detection error is always determined and stored by turning on the power cord, and the accurate heating condition corresponding to the weight of the object to be heated can be set. Therefore, there is an effect that the heating cooker can be produced in the best condition.

[Brief description of drawings]

FIG. 1 is a flowchart illustrating a first embodiment of the present invention.

FIG. 2 is an explanatory diagram illustrating correction of a detection error of the weight sensor according to the second embodiment of the present invention.

FIG. 3 is a flowchart illustrating a second embodiment of the present invention.

FIG. 4 is a flowchart illustrating a third embodiment of the present invention.

FIG. 5 is a front view showing an outline of a heating cooker.

[Explanation of symbols] 1 box 2 door 3 handle 4 operation panel 5 heating cabinet 6 turntable 7 weight sensor

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Correction target item name] All drawings

[Correction method] Change

[Correction content]

[Figure 1]

[Fig. 2]

[Figure 4]

[Figure 5]

[Figure 3]

Claims (4)

[Claims] 1. A heating cooker which has a heating chamber whose inside is heated by a heating source and heats and cooks an object to be heated contained in the heating chamber, wherein the object to be heated contained in the heating chamber is A weight sensor for detecting the weight of an object, a weight sensor detection error determination means for determining a detection error of the weight sensor by comparing a reference weight detection value with a previously known reference value, and a non-volatile memory. And a detection error storage unit that stores the detection error determined by the weight sensor detection error determination unit, and when the heating condition of the object to be heated is set based on the detection value of the weight sensor, A heating cooker characterized by setting using a value obtained by correcting the detection value based on the detection error stored in the error storage means. 2. A heating cooker which has a heating chamber whose inside is heated by a heating source and heats and cooks an object to be heated contained in the heating chamber, wherein the object to be heated contained in the heating chamber is A weight sensor that detects the weight of an object, a weight sensor detection error determination unit that determines the detection error of this weight sensor by comparing a reference weight detection value with a reference value that is known in advance, and a backup power supply that stores the error. A memory for holding contents, and a detection error storage unit for storing the detection error determined by the weight sensor detection error determination unit, and a heating condition of the object to be heated based on a detection value of the weight sensor. The heating cooker is characterized in that, when setting, the detected value is set using a value obtained by correcting the detected value based on the detected error stored in the detection error storage means. 3. A heating cooker which has a heating chamber whose inside is heated by a heating source and heats and cooks an object to be heated contained in the heating chamber, wherein the object to be heated contained in the heating chamber is A weight sensor that detects the weight of an object and the detection error of this weight sensor are judged by comparing the reference weight detection value with a known reference value, and the determined detection error is the circuit constant of the electric circuit. And a weight sensor detection error correction means for correcting to zero to set the heating condition of the object to be heated based on the detection value of the weight sensor. A heating cooker characterized by being set using detected values. 4. A heating cooker which has a heating chamber whose inside is heated by a heating source and heats and cooks an object to be heated contained in the heating chamber, wherein the object to be heated is contained in the heating chamber. The weight sensor that detects the weight of the object and the detection error of the weight sensor when the power cord is plugged into the outlet are compared with the detection value of the glass dish and the reference value of the weight of the glass dish that is known in advance. Weight sensor detection error determination means for determination, detection error storage means for storing the detection error determined by the weight sensor detection error determination means, and all until the detection error is stored after the power cord is inserted into the outlet. Key reception prohibiting means for prohibiting the key reception of, and when setting the heating condition of the object to be heated based on the detection value of the weight sensor, the detection error storage means stores it. Cooking device and sets using a value obtained by correcting the detected value based on the detected error.