JPH06188072A - Microwave oven - Google Patents

Abstract

PURPOSE:To improve safety, and facilitate detection of a trouble by providing a control means with a memorizing means for a reference voltage level in accordance with a trouble at each part, and controlling a circuit and displaying the trouble based on comparison with a detection voltage level of the circuit. CONSTITUTION:When a relay L2 is put on, a cooling fan motor is actuated, and a voltage VB in accordance with a current is generated at a current transformer 3 to be inputted to a CPU 1. When a motor 7 is failed, the current stops to flow, and the voltage at the transformer 3 becomes zero. The CPU 1 reads this voltage to be compared with a trouble determination reference voltage VB1 which is a little lower than the voltage VB preliminarily memorized in a memorizing device 1-1, and when it is lower, it determines that the motor 7 is failed, where it keeps a relay L off to prevent start of heating, and displays the trouble in an operation panel 11. By thus memorizing plural reference voltages in accordance with troubles at different parts in the device 1-1, a circuit can be controlled, and the part having the trouble can be displayed. Safey of a microwave oven can thus be improved, and detection of the trouble can be facilitated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of a microwave oven which controls a circuit based on detection of an abnormal current in the circuit due to a failure.

[0002]

2. Description of the Related Art As a means for detecting an abnormal state of a microwave oven,
Although there are various methods, a conventional example in which the circuit is controlled based on detection of an abnormal current in the circuit due to a failure of the cooling fan of the magnetron will be described.

FIG. 3 is a block diagram of an example thereof. A transformer T is connected in series to the power source AC, and a cooling fan motor 7 and a turntable motor 9 which are blowing means are connected in parallel. The magnetron 2 and the diode 5 which are high frequency heating means are connected to the secondary side of the transformer T. The cooling fan motor 7 is opened / closed by the relay L ₂ controlled by the CPU 1 which is the control means, and the main current passing through the transformer T is opened / closed by the relay L ₁ controlled by the CPU 1. A current transformer 3 is also provided in the main current path on the transformer T side by the cooling fan motor 7, and its output is digitized by the A / D converter 4 via the rectifier circuit 8 and supplied to the CPU 1. A memory circuit 1-1 is connected to the CPU 1, and further connected to the operation panel 11.

A thermocut 6 is provided in a part of the circuit to shut off the magnetron drive circuit when the magnetron 2 overheats.

When the relay L ₁ is turned on by the microcomputer control, a current is applied to the magnetron 2. At this time
As shown in, the magnetron 2 oscillates and a current flows after a delay of several seconds actually from the relay L ₁ ON. This current is captured by the current transformer 3, a voltage proportional to the current is induced across the transformer, the induced voltage is converted to a DC voltage by the rectifier circuit 8, and the DC voltage is transmitted to the CPU 1 via the A / D converter 4. It

When the magnetron 2 is oscillating normally,
V in FIG.₀Indicates a voltage value such as. But Magnetro
2 is out of order, or high voltage parts such as diode 5
There is an obstacle, or the thermocut 6 is cut
Then, almost no current flows or near zero.
Drastically decrease. Therefore, the rated voltage V₀Slightly lower V ₁
Is set in the memory circuit 1-1 in advance, and the
V₁If the voltage is below, the CPU 1 of the operation panel 11
Error signal is displayed on the display device, and relay L ₁OF
F and stop heating and take measures in case of failure
It was

FIG. 5 is a front view of an example of the operation panel 11. The display device 12 is provided with a heating start button 13 so that an error display such as E-1 can be displayed and the display device 12 can be started as needed.

The thermocut 6 connected to the circuit in FIG. 3 is a device for protecting the magnetron 2 in addition to the circuit interruption by the relay L ₁ . By any chance
If the magnetron 2 cannot be cooled, for example, if the cooling fan motor 7 fails and does not rotate, the magnetron 2
The temperature rises until it breaks down. This magnetron 2
In order to protect the destruction of the magnetron 2, the thermocut 6 is arranged in the vicinity of the magnetron 2, and when the temperature of the magnetron 2 reaches a certain temperature or higher, the thermocut 6 operates and the magnetron 2
The current supply to is stopped.

[0009]

In the circuit shown in FIG. 3, the magnetron 2 is heated when the relay L ₁ is ON.
The fault detection circuit below the rectifier circuit 8 operates only when a current is flowing through. For example, even if the cooling fan motor 7 is out of order, its rated current is smaller than the oscillation current of the magnetron 2 and its induced voltage is also low. Even if it does, the failure of the cooling fan motor 7 cannot be detected because the signal sent to the CPU 1 does not fall below the abnormal level V ₁ . Further, even if the level becomes the abnormal level V ₁ or less, it is not known which part the failure is caused by. The error display is simply displayed on the operation panel 11.

[0010]

In the microwave oven of the present invention, the control means is provided with a storage means for the reference voltage level corresponding to the failure of each part, and the signal level detected by the current detection means provided in the circuit and the reference. Compare the voltage level of
Controlled the circuit.

[0011]

Since the storage means provided in the control means stores a plurality of reference voltage levels corresponding to the respective defective portions of the microwave oven, the signal level detected by the current detection means and the reference voltage level are compared. By doing so, the control of the circuit and the display of the failed portion can be performed.

[0012]

FIG. 1 is a block diagram of an embodiment of the present invention. Although it is almost the same as the embodiment of FIG. 3, the voltage stored in the memory circuit is different in the case of FIG. In addition, the current transformer 3 uses a power supply AC so that the drive current of the magnetron 2 and the current of the cooling fan motor 7 can be detected.
Place it closer to.

FIG. 2 is a voltage graph for explaining the operation of the circuit. First, it will be described that when the relay L ₁ is turned off and the relay L ₂ is turned on, the failure of the cooling fan motor 7 can be detected and the magnetron 2 can be protected without the thermocut 6. Turn on relay L ₂ first
Then, a voltage is applied to the cooling fan motor 7 to start it. The current required for the cooling fan motor 7 is usually about 0.5 A, and the corresponding voltage V _B is the current transformer 3
Generated through the rectifier circuit 8 and the A / D converter 4,
A signal corresponding to the voltage V _B is input to the CPU 1.

If the cooling fan motor 7 fails (coil wire breakage, connector disconnection, etc.), no current flows even though the relay L ₂ is ON, and the voltage becomes zero. Therefore, the CPU 1 reads the voltage value when the relay L ₁ is OFF and the relay L ₂ is ON, and the storage device 1-1 is set in advance.
If the voltage is lower than the voltage V _B1 stored in the memory, which is slightly lower than V _B and is defined as a failure determination standard, the CPU 1 determines that this is a defect of the cooling fan motor 7, and the relay L ₁ is turned off so as not to start heating. Keep in the state. Further, the display device 12 of the operation panel 11 is caused to display an error signal (for example, E-0) indicating that the cooling fan motor 7 is defective. Then, no matter how the heating start button 13 of the operation panel 11 is pressed, the CPU 1 does not turn on the relay L ₁ , so that the voltage is not applied to the magnetron 2. Therefore, the magnetron 2 does not work when the cooling fan motor 7 does not rotate, and the circuit is safe and does not fail without thermal runaway. Although the levels of the voltages V _B and V _B1 are small, the levels are such that they can be sufficiently discriminated.
There is no need to change the constants of the rectifier circuit or separately provide an amplifier circuit.

Next, after the relay L ₂ is turned on, the relay L
The state when ₁ is turned on and heated is described. If the magnetron 2 operates normally, the current on the primary side of the current transformer 3 is 10 A in the range of 500 W, for example.
A current flows to some extent and the rectified voltage becomes V ₀ . But,
When various abnormalities such as short circuit of the diode 5 or short-circuit or open of the filament of the magnetron 2 occur, conventionally, as shown in FIG. 4, an error signal is uniformly output when the current decreases to V ₁ or less. Was there.

In the case of the present invention, this current value is the failure mode.
Pay attention to the difference due to
Voltage V_D, The filament of magnetron 2 is open
If it is a short circuit, voltage V_MSince the voltage value will be
In advance, the reference level V as shown in FIG._M1And set this
It is stored in the memory circuit 1-1. Luck of magnetron 2
What is the voltage value of the failure detection circuit below the rectifier circuit 8 during operation?
The CPU 1 determines whether or not the level is supported.
Voltage is V₁Below V_M1Above this is a diode
5 is judged to be defective, and an error (for example, E
-9) Send a signal and relay L₁Turn off and stop heating
It Similarly, the detection level is V_M1Below V _B1Above
For example, open or short the magnetron 2 filament.
Is determined by the CPU 1. In this way, different
The voltage value corresponding to the faulty part can be subdivided and judged.
With, it is possible to accurately display the failure mode.

Since the turntable motor 9 consumes very little power and the flowing current is negligible compared to the other parts, it is difficult to detect the fluctuation of the voltage level, but the current transformer 3 and the rectifier circuit 8 are provided. It can be handled by increasing the accuracy of

[0018]

According to the present invention, the control for judging whether or not the current of the cooling fan motor is flowing makes thermocutting unnecessary and reduces the cost. Since the voltage is not applied when the magnetron or the cooling fan motor is not operating, it is possible to obtain a safe and reliable microwave oven that does not damage the magnetron and has a long life. Further, since the failed portion can be displayed accurately, the efficiency of maintenance and inspection is improved.

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention.

FIG. 2 is a voltage graph for explaining the operation of the circuit of FIG.

FIG. 3 is a block diagram of an example of a conventional circuit.

4 is a voltage graph for explaining the operation of the circuit of FIG.

FIG. 5 is a front view of an operation panel.

[Explanation of symbols]

1 CPU 2 Magnetron 3 Current Transformer 4 A / D Converter 5 Diode 6 Thermo Cut 7 Cooling Fan Motor 8 Rectifier Circuit 9 Turntable Motor 11 Operation Panel L ₁ , L ₂ Relay T Transformer

Claims (3)

[Claims] 1. A high-frequency heating means, a blowing means for cooling the high-frequency heating means, a current detecting means when the circuits of the high-frequency heating means and the blowing means are closed, and a reference voltage level corresponding to a failure of each part. And a control means provided with a storage means for controlling the circuit by comparing the signal level detected by the current detection means with a reference voltage level. 2. The microwave oven according to claim 1, wherein heating of the high frequency heating means is stopped and an abnormal state is displayed based on a signal from the current detecting means when the circuit of the blowing means is closed. 3. The microwave oven according to claim 1, wherein during operation of the high frequency heating means, a failure mode corresponding to the level of the detection signal of the current detection means is displayed.