JPH0350933B2 - - Google Patents

Description

Detailed Description of the Invention <Industrial Application Field> The present invention relates to a microwave oven that measures the weight of an object to be heated and automatically controls heating time, high frequency output, heating style, etc. according to the weight. .

<Prior art> Microwave ovens are known that have a built-in microcomputer in a control device and control the operating state of a high-frequency oscillator, that is, heating time, high-frequency output, heating style, etc., depending on the cooking content. Some products have been commercialized that control the operating state of high-frequency oscillators by detecting the weight of the heated object, and there is a tendency for various products with similar functions to be developed in the future. For example, a piezoelectric element is used as a means for detecting the weight of the object to be heated, and attempts have been made to convert the voltage obtained according to the weight into A/D and process it with a microcomputer.

<Problems to be Solved by the Invention> When reading the output voltage from a piezoelectric element with a microcomputer, it is common to sample the output voltage and read it once every 10 to 20 msec, for example. It is not always the case that the peak value, which is considered to most accurately correspond to the excessive output of the element, especially the weight of the heated object, will be read; in fact, there is usually a greater probability that a voltage other than the peak value will be read. be. Therefore, there is a problem in that measurement accuracy is low and it is difficult to properly control heating according to the weight of the object to be heated.

The present invention has been made with the object of solving these problems and improving the accuracy of weight measurement.

<Means for Solving the Problems> In order to achieve the above-mentioned problems, the microwave oven of the present invention is configured as follows. That is, a weight detecting means for detecting the weight of the object to be heated placed on a placing table in the heating chamber, a signal holding means for maintaining the peak value of the output signal of the weight detecting means for a certain period of time, and a signal holding means. The apparatus also includes a control section that detects the weight of the object to be heated from the thus maintained signal and controls the operating state of the high-frequency transmitter according to the weight.

<Function> Since the peak value of the output signal of the weight detection means is maintained by the signal holding means, the peak value can be read by the control unit, improving the accuracy of weight measurement and performing appropriate heating control. You will be able to do this.

<Example> Hereinafter, an example of the present invention will be described based on the accompanying drawings.

2 to 4, 1 is a heating chamber, 2 is a mounting table, 3 is a support roller that rotatably supports the mounting table 2, 4 is a roller arm with a support roller 3 attached to its tip; 5 is a turntable motor, 6 is an object to be heated, and 7 is a bottom plate 1 of heating chamber 1.
This is a piezoelectric element attached to the back side of a. The roller arm 4 has, for example, a Y-shape having three arms, and as shown in FIG.
and the motor 5 via the detachable coupling ring 8.
A mounting table 2 rotated and supported by
Rotate. In FIG. 3, 3a indicates a rotation locus of the support roller 3, and the piezoelectric element 7 is mounted so as to be located directly below this locus 3a. In the figure, 9 is a magnetron, 10 is a waveguide, 1
1 is a door, and 12 is a motor mounting angle. Note that the roller arm 4 is not used and the mounting table 2 is
It is also possible to have a structure in which support rollers 3 are attached to the table 2 and the table 2 is directly rotated by the motor 5.

FIG. 1 shows an example of a control circuit, in which 15 is a control section using a microcomputer, 16 is a control relay, 17 is a fuse, and 18 is a control circuit.
is a heating switch, and 19 is a high voltage transformer. 21 is a noise filter consisting of a resistor R ₁ and a capacitor C ₁ ; 22 and 23 are amplifiers; 24 is an integrating circuit consisting of a diode D and a capacitor C ₂ ;
25 is a transistor.

Now, when the support roller 3 moves on the rotation trajectory 3a and passes the part where the piezoelectric element 7 is attached, the bottom plate 1a of the heating chamber 1 is is deformed,
The piezoelectric element 7 generates an output voltage V ₁ as shown in FIG. V ₁ in FIG. 1 indicates this voltage, which is passed through a noise filter 21 to an amplifier 2.
2 to obtain a voltage V ₂ , which is then integrated by an integrating circuit 24 to obtain a voltage V ₃ . and,
By applying negative feedback to this voltage V ₃ and amplifying it with the amplifier 23, the output of the amplifier 23 is
A voltage V ₄ is obtained whose peak value is maintained as it is. This voltage V ₄ is applied to the control unit 15 via a resistor R ₅ .
The control unit 15 converts this into A/D as appropriate.
Convert and read, after reading, transistor 2
Turn on 5 to reset. If this reading operation is performed, for example, three times in a row and the average value is determined, it is possible to obtain an accurate weight in which the deviation of the heated object 6 is corrected.

In reality, if the circuit configuration is as shown in FIG. 6, bias power is applied to the (-) input of the amplifier 23, so that the output of the amplifier 23 can be varied.
It is also possible to adjust the voltage V ₄ within the input voltage range of the control unit 15.

Inputs A ₁ and A ₂ of the control unit 15 are made measurable by lowering the input voltage value by dividing the voltage V 4 with resistors R ₁₂ and R ₁₃ when the level of the voltage V ₄ is very large. . In this way, by providing multiple inputs as A ₁ and A ₂ , it is possible to measure with good resolution in the input voltage range that can be measured with input A ₁ , and with input A ₂ , the resolution is lower but it is possible to measure large loads. It is also possible to measure against

In FIG. 5, t ₁ , t ₂ , . . . indicate the times at which the above reading is performed, and the interval T is the sampling interval. In the case shown in the figure, the peak value of high pressure occurs between time t ₃ and time t ₄ ,
This peak value cannot be read with a method of directly reading the output voltage V ₁ , but in this embodiment, the peak value is converted into a maintained voltage V ₄ and read at time t ₄ .

The control unit 15 controls the heated object 6 detected in this way.
The on/off control of the relay 16 is performed according to the weight of the magnetron 9 and, if necessary, the detected values from various sensors related to other control elements such as the temperature of the heated object 6 and the moisture in the exhaust gas, and the operation of the magnetron 9 is controlled. situation,
That is, the heating time, heating style, high frequency output, etc. are controlled according to the selected cooking content, and cooking suitable for the object to be heated 6 is automatically performed.

<Effects of the Invention> The microwave oven of the present invention is provided with a signal holding means to maintain the peak value of the output signal of the weight detection means for a certain period of time, and during that time, the control unit reads the signal to detect the weight of the object to be heated. Therefore, it is possible to always read the peak value of the output signal, improving the accuracy of weight measurement and appropriately controlling the heating according to the weight.

[Brief explanation of drawings]

The drawings illustrate one embodiment of the invention,
Fig. 1 is a control circuit diagram, Fig. 2 is a schematic longitudinal side view, Fig. 3 is a schematic plan view of the heating chamber with the table removed, Fig. 4 is an enlarged sectional view of the main parts, 5
The figure is a waveform diagram of the output voltage, and FIG. 6 is a circuit diagram showing another embodiment of the control circuit. DESCRIPTION OF SYMBOLS 1... Heating chamber, 2... Placement table, 3... Support roller, 6... Heated object, 7... Piezoelectric element, 9
...Magnetron, 15...Control section, 23...Amplifier, 24...Integrator circuit.

Claims (1)

[Claims] 1. Weight detection means for detecting the weight of the object to be heated placed on the mounting table in the heating chamber, an integration circuit for integrating the waveform output signal detected from the weight detection means, and an integration circuit for integrating the output signal processed by the integration circuit. A signal holding means for maintaining the peak value for a certain period of time; and a control section for calculating the weight of the object to be heated from the hold signal maintained by the signal holding means and controlling the operating state of the high frequency transmitter according to the calculated weight. A microwave oven characterized by comprising: