JPH0246100B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Technical Field> The present invention relates to a heating cooking device that detects water vapor generated as an object to be heated, such as food, is heated and controls the finishing time of the object to be heated. .

<Prior art> Conventionally, in a heating cooking device such as a microwave oven, an absolute humidity sensor is disposed close to the oven exhaust port, and the absolute humidity sensor detects the water vapor generated as the food is heated. There are some that control the heating time. As shown in FIG. 1, this absolute humidity sensor a includes an open type thermistor _R1 exposed to the atmosphere, a closed type thermistor _R2 sealed in dry air, and two resistors _R3 , It has a bridge circuit formed with _R4 . Each midpoint A, B of this bridge circuit
An output voltage V _B is taken out from the sensor, and this is amplified by an amplifier b to obtain an output signal V _AH from the absolute humidity sensor a. By detecting this output signal _VAH , the finishing time during microwave heating is automatically controlled. That is, when food is heated with microwaves, water vapor is generated from the food as the heating time u elapses. When this water vapor is detected by the absolute humidity sensor a, as shown in FIG. 2, a fluctuation occurs in the output voltage _VAH . Therefore,
Reference level of output voltage V _AH of absolute humidity sensor a
If V _AHO is determined in advance, the heating time u ₁ from the start of heating until the level of the output voltage V _AH reaches the reference level V _AHO can be controlled. In this manner, when heating with microwaves, the output time of the food is automatically controlled by detecting the level change of the output voltage _VAH of the absolute humidity sensor a as an absolute humidity detection signal. On the other hand, when heating with a heater, it is necessary to detect the temperature of the heating atmosphere in the oven in which the food is placed and automatically control the finishing temperature of the food. For this reason, in conventional apparatuses, a means for detecting the temperature of the heating atmosphere is separately provided in addition to the above-mentioned absolute humidity sensor, so that the food is optimally heated in both cases of heater heating and microwave heating. However, if the absolute humidity sensor and the temperature detection means are provided separately, there are problems in that not only does the cost of the product increase, but also the circuit configuration becomes complicated, which may lead to failure.

<Purpose> The present invention has been made in view of the above problems, and provides a part of the output signal from the bridge circuit of the absolute humidity sensor as an ambient temperature detection signal to a control circuit that turns on and off the heater. This eliminates the problems of conventional methods by allowing the object to be heated to be cooked under the best conditions even when the type of heating is different using a single absolute humidity sensor without providing a separate means for detecting temperature. The purpose of this invention is to provide a heating cooking device with a high temperature.

<Example> Hereinafter, an example in which the configuration of the present invention is applied to a microwave oven will be described based on FIGS. 3 to 6.

FIG. 3 is a front view of the microwave oven, and FIG. 4 is a schematic sectional view thereof. An operation panel 2 on the front side of the microwave oven 1 is provided with heating keys 3 and 4 for microwave heating and heater heating, respectively. Also,
Exhaust port 6 formed in oven 5 of microwave oven 1
An absolute humidity sensor 7 is disposed adjacent to.
Reference numeral 8 denotes food as an object to be heated, and 9 a door for taking the food 8 into and out of the oven 5. FIG. 5 is a circuit diagram of this microwave oven 1. Absolute humidity sensor 7
are open type thermistor _R1 and closed type thermistor
A first series circuit consisting of R ₂ and two resistors R ₃ ,
It includes a bridge circuit 10 formed by connecting a second series circuit made of _R4 in parallel, and an operational amplifier 11. The output terminal of the bridge circuit 10 at the midpoint B on the side of the resistors R ₃ and R ₄ is connected to the positive phase input terminal of the operational amplifier 11 . Also, thermistors R ₁ , R ₂
The output terminal of the middle point A on the side is branched into two, one is connected to the negative phase input terminal of the operational amplifier 11, and the other is connected to the analog-to-digital converter 12 and the heater 20 and magnetron 22 via the interface 14. It is connected to a control circuit 16 that controls on/off. Further, the output terminal of the operational amplifier 11 is similarly connected to the control circuit 16 via the analog-to-digital converter 18 and the interface 14.
21 is a DC power supply for the absolute humidity sensor 7, and Rs is a current limiting resistor. Further, 24 and 26 are relays that respectively turn on and off the power to the heater 20 and magnetron 22. Further, 28 is a control circuit 1 which transmits a heating signal by operating the heating keys 3 and 4.
This is an input section to be given to 6.

Next, the heating control operation of the heated object in the above configuration will be explained.

(a) In the case of microwave heating: First, when the heating key 3 for microwave heating on the operation panel 2 is pressed, a microwave heating signal is input from the input section 28 to the control circuit 16 via the interface 14. . As a result, control circuit 1
6 outputs an ON signal for the relay 26. When the relay 26 is turned on, the magnetron 22
oscillates and the food 8 is heated by the microwave. On the other hand, upon receiving the microwave heating signal from the input section 28, the control circuit 16 simultaneously outputs an absolute humidity detection signal from the operational amplifier 11 of the absolute humidity sensor 7.
Only V _AH is inputted sequentially via analog-to-digital converter 18 and interface 14 . The control circuit 16 is configured so that the absolute humidity sensor 7 is connected to the food 8.
the magnetron 2 until the absolute humidity detection signal V _AH reaches the reference level V _AHO stored in advance in this control circuit 16.
Turn on 2. (See FIG. 2) When the level of the absolute humidity detection signal V _AH from the absolute humidity sensor 7 reaches the reference level V _AHO , the control circuit 16 outputs an off signal for the relay 26 . Therefore, relay 26 is turned off and magnetron 22
generation of microwaves will stop. As a result, the food 8 is heated for a predetermined period of time.

(b) In the case of heating using a heater: In this case, first, when the heating key 4 for heater heating on the operation panel 2 is pressed, a heater heating signal is input from the input section 28 to the control circuit 16 via the interface 14. Ru. As a result, the control circuit 16 outputs an ON signal for the relay 24 . When the relay 24 is turned on, the heater 20 is energized and the food 8 is heated. The control circuit 16 receives the heater heating signal from the input section 28, and at the same time reads a part of the output signal of the bridge circuit 10 forming the absolute humidity sensor 7 from the middle point A of the first series circuit and inputs it. That is, the voltage V _R2 across the sealed thermistor R ₂ as part of the output signal of the bridge circuit 10 is inputted via the analog-to-digital converter 12 and the interface 14 . Note that the operating voltage of the absolute humidity sensor 7 in normal times, that is, the voltage of the DC power supply 21, must be 10V or more, and the bridge circuit 1
The voltage across the sealed thermistor _R2 that constitutes 0
V _R2 is about 4.2 to 5.5V, whereas the input voltage required to read the signal in the control circuit 16 is
It is below 5V. Therefore, sealed thermistor R ₂
The voltage V _R2 across the control circuit 1 can be adjusted without any problem.
6.

By the way, this voltage across both ends V _R2 has a temperature characteristic as shown in FIG. That is, when the ambient temperature T in the oven 5 increases due to heating by the heater 20, the resistance of the thermistor _R2 gradually decreases, and as a result, the level of the voltage V _R2 across the thermistor R2 also decreases. At this time, the atmosphere inside the oven 5 contains water vapor generated from the food 8, but since the thermistor _R2 is a sealed type, it is not affected by water vapor, etc., and the voltage across it is low. The level of V _R2 will certainly decrease in response to the rise in ambient temperature T. Therefore, if a level change of the voltage V _R2 across the terminals is detected, this signal is given to the control circuit 16 as an ambient temperature detection signal. Then, the control circuit 16 converts the level of the voltage V _R2 between both ends into a temperature, and compares it with a set temperature T _O stored in the control circuit 16 in advance. When the level of the ambient temperature detection signal V _R2 reaches the set temperature T _O , the control circuit 16 outputs an off signal for the relay 24 . Thereby, the heater 20 is turned off and heating of the food 8 is completed.

<Effects> As explained above, in the present invention, during microwave heating, the bridge circuit of the absolute humidity sensor controls the magnetron on and off by detecting water vapor generated from the heated object, and
When the heater is heated, a sealed thermistor forming the first series circuit of the bridge circuit detects the ambient temperature, thereby controlling the heater on and off. That is, according to the present invention, unlike the conventional example, there is no need to separately provide an absolute humidity sensor and an ambient temperature detecting means, and the absolute humidity sensor can also be used as an ambient temperature detecting means.

Therefore, not only the number of parts of the device is reduced and the manufacturing cost is reduced, but also the circuit configuration is simplified and failures are reduced, which are excellent effects.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of an absolute humidity sensor installed in a conventional heating cooking device, and FIG. 2 is a characteristic diagram showing changes in output voltage of the absolute humidity sensor depending on heating time.
3 to 6 show embodiments of the present invention, and FIG. 3 is a front view of a microwave oven which is a cooking device;
Figure 4 is a schematic sectional view of the same, Figure 5 is a circuit diagram of the same microwave oven, and Figure 6 is a characteristic diagram showing changes in the voltage across the thermistor, which forms part of the bridge circuit of the absolute humidity sensor, depending on the ambient temperature. be. 1...Microwave oven, 7...Absolute humidity sensor, 1
0... Bridge circuit, 16... Control circuit, 20...
...heater, 22... magnetron, R ₁ ... open type thermistor, R ₂ ... closed type thermistor.

Claims (1)

[Claims] 1. An absolute humidity sensor including a bridge circuit formed by connecting in parallel a first series circuit consisting of at least two thermistors, a closed type and an open type, and a second series circuit consisting of at least two resistors, In a heating cooking apparatus that controls the heating finish of a heated object using an absolute humidity detection signal obtained between each midpoint of a series circuit, the signal from the midpoint of the first series circuit is extracted as an ambient temperature detection signal, and
A heating cooking device characterized in that the ambient temperature detection signal is applied to a control circuit that turns on and off a heater.