JP2538650B2 - Cooking device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Means for Solving the Problems) The present invention relates to a cooker provided with a gas sensor.

(Prior Art) Some cookers, such as microwave ovens, include a gas sensor for detecting gas in the heating chamber, and perform automatic cooking according to the output of the gas sensor.

In the case of such a microwave oven, in order to avoid the influence of residual gas from the previous cooking during continuous cooking, a certain cleaning time (for example, 16 seconds) is secured in advance at the start of cooking, and the actual cooking is performed after the cleaning time. I'm trying to get started. An example is shown in FIG.

In FIG. 3, reference numeral 1 is a heating chamber, and a table 2 for placing the food F is provided in the heating chamber 1.

A magnetron 3 is provided above the side wall of the heating chamber 1, and an antenna 3a of the magnetron 3 is introduced into the heating chamber 1. The magnetron 3 is connected to the commercial AC power source 5 via the high voltage transformer 4 and the relay contact 13a.

Further, the gas sensor 6 is attached to the upper side wall of the heating chamber 1,
The gas sensor 6 is connected to the control unit 10.

Furthermore, a fan 7 for cooling the magnetron is provided, and a drive motor for the fan 7 is connected to a power source 5 via a relay contact 14a.
Connected to

The control unit 10 controls the entire microwave oven, and includes a microcomputer and its peripheral circuits. The operation unit 11, the display unit 12, and the relays 13 and 14 are connected to the control unit 10.

That is, the food F is stored in the heating chamber 1 and the door (not shown) is closed. Then, the operation section 11 performs a cooking start operation.

Then, the control unit 10 energizes the relay 14 for a fixed cleaning time, for example, 16 seconds.

When the relay 14 is energized, the fan 7 operates to supply cooling air to the magnetron 3, and the air that has passed through the magnetron 3 is introduced into the heating chamber 1. The introduced wind is discharged to the outside from an exhaust port (not shown) along with the residual gas and steam in the heating chamber 1. That is, cleaning is performed.

When 16 seconds have elapsed, the control unit 10 further energizes the relay 13 while energizing the relay 14. When the relay 13 is energized, the magnetron 3 oscillates to irradiate the heating chamber 1 with high frequency radio waves, and the food F is overheated. That is, cooking is actually started.

During this cooking, the control unit 10 applies a voltage to the heater of the gas sensor 6 and maintains the element of the gas sensor 6 at a steady temperature. As a result, the gas generated from the food F is detected by the gas sensor 6, and the detection output is the control unit.
Supplied to 10.

The control unit 10 controls the oscillation operation of the magnetron 3 via the relay 13 based on the detection output of the gas sensor 6 and the cooking program stored in advance.

(Problems to be Solved by the Invention) In the case of the microwave oven as described above, even if the effect of residual gas can be removed by ensuring the cleaning time, the gas (mainly water vapor) attached to the gas sensor is also removed. However, there is a problem in that the sensitivity of the gas sensor is reduced and cooking quality is deteriorated.

In order to deal with this, for example, as shown in Japanese Patent Publication No. 61-526, there is a method of lengthening the cleaning time, but this causes a new problem that the cooking time becomes long.

The present invention has been made in view of the above circumstances, and the cooker according to claim 1 can avoid the influence of the residual gas due to the previous cooking, and can extend the cooking time of the gas attached to the gas sensor. It is possible to remove it without inviting it, and it is an object to always enable good-quality cooking.

The cooker according to claim 2 can avoid the influence of the residual gas due to the previous cooking, and can reliably remove the gas adhering to the gas sensor without extending the cooking time, and further the life of the gas sensor. The purpose is to improve the quality of food and to always cook it in good condition.

[Structure of the Invention] (Means for Solving the Problems) The cooker according to claim 1 secures a cleaning time at the start of cooking, a means for counting the elapsed time from the end of the previous cooking, and a start of cooking. And a means for applying a high voltage to the heater of the gas sensor during the cleaning time if the count time is within a fixed time.

The cooking device according to claim 2, wherein a means for ensuring a cleaning time at the start of cooking, a means for counting an elapsed time from the end of the previous cooking, and a cleaning time during the start of cooking if the count time is within a certain time And a means for applying a high voltage to the heater of the gas sensor, and a means for changing the fixed time in accordance with the execution time of the previous cooking.

(Operation) In the cooking device according to claim 1, at the start of cooking, if the elapsed time from the end of the previous cooking is within a certain time, a high voltage is applied to the heater of the gas sensor during the cleaning time, and the temperature of the element of the gas sensor is increased. Is greatly increased to forcibly remove the gas adhering to the element.

In the cooking device according to the second aspect, at the start of cooking, if the elapsed time from the end of the previous cooking is within a certain time, a high voltage is applied to the heater of the gas sensor during the cleaning time to greatly increase the temperature of the element of the gas sensor. Then, the gas adhering to the element is forcibly removed. In this case, the fixed time that serves as a reference as to whether or not to apply the high voltage changes according to the previous cooking execution time, that is, the amount of gas adhered.

(Embodiment) An embodiment of the present invention will be described below with reference to the drawings. In the drawings, the same parts as those in FIG. 3 are denoted by the same reference numerals, and description thereof is omitted.

As shown in FIG. 1, a heater control circuit 20 is connected to the control unit 10.

The heater control circuit 20 controls the voltage applied to the heater of the gas sensor 6 according to a command from the control unit 10, and specifically has the configuration shown in FIG.

That is, the DC voltage Vd is applied to the integrating circuit including the resistor 21 and the capacitor 22.

Connect the cathode of the Zener diode 23 to the output terminal of the integrating circuit, and connect the anode of the Zener diode 23 to the NPN.
It is grounded through the collector and emitter of the type transistor 24.

A resistor 25 is connected between the base and emitter of the transistor 24, and the base is connected to the input terminal IN via the resistor 26.

Further, the cathode of the Zener diode 27 is connected to the output terminal of the integrating circuit, and the anode of the Zener diode 27 is grounded via the collector-emitter of the NPN transistor 28.

A resistor 29 is connected between the base and emitter of the transistor 28, and the base is further connected to the input terminal IN via the resistor 30 and the inverter circuit 31.

Then, the DC voltage Vd is applied to the heater H of the gas sensor 6 through the collector-emitter of the NPN transistor 32, and the base of the transistor 32 is set to the zener diodes 23, 2.
Connect to 7 cathode.

Thus, the control unit 10 has a functional means for ensuring a certain cleaning time at the start of cooking and a functional means for counting the elapsed time Ts from the end of the previous cooking.

Further, the controller 10 has a heater control circuit 20 and a functional means for applying a high voltage to the heater H of the gas sensor 6 during the cleaning time when the cooking time is started and the count time Ts is within the fixed time T ₀ . ing.

 Next, the operation in the above configuration will be described.

The food F is stored in the heating chamber 1 and the door (not shown) is closed. Then, the operation section 11 performs a cooking start operation.

Then, the control unit 10 energizes the relay 14 for a fixed cleaning time, for example, 16 seconds. In addition, the control unit 10
Is counting the elapsed time Ts from the end of the previous cooking by an internal timer. If the count time Ts until the cooking start operation is performed is shorter than a predetermined constant time T ₀ , the heater control circuit 20 High voltage application command (logic "1"
Signal).

When the relay 14 is energized, the fan 7 operates to supply cooling air to the magnetron 3, and the air that has passed through the magnetron 3 is introduced into the heating chamber 1. The introduced wind is discharged to the outside from an exhaust port (not shown) along with the residual gas and steam in the heating chamber 1. That is, cleaning inside the heating chamber 1 is executed.

High voltage application command to heater control circuit 20 (logic "1" signal)
Is supplied, the transistor 24 is turned on, the zener diode 23 is turned on, and the transistor 32 is turned on with the conductivity according to the zener voltage.

In this case, since the Zener voltage of the Zener diode 23 is high, the conductivity of the transistor 32 is high, and thus a voltage higher than the steady state is applied to the heater H of the gas sensor 6.

Thus, by applying a high voltage to the heater H,
The temperature of the element S of the gas sensor 6 greatly rises, and the gas attached to the element S is forcibly removed.

When 16 seconds of cleaning time has elapsed, the control unit 10
Further energizes relay 13 while energizing relay 14. At the same time, a steady voltage application command (logic “0” signal) is supplied to the heater control circuit 20.

When the relay 13 is energized, the magnetron 3 oscillates to irradiate the heating chamber 1 with high frequency radio waves, and the food F is overheated. That is, cooking is actually started.

When a steady voltage application command (logic “0” signal) is supplied to the heater control circuit 20, the transistor 24 is turned off and the transistor 28 is turned on, and the zener diode 27 is turned on instead of the zener diode 23. Therefore, the transistor 32 is turned on with the conductivity according to the Zener voltage of the Zener diode 27 this time.

In this case, since the Zener voltage of the Zener diode 27 is not so high, the conductivity of the transistor 32 does not increase, so that the steady voltage is applied to the heater H of the gas sensor 6.

In this way, the temperature of the element S of the gas sensor 6 is maintained at a steady temperature, so that the gas generated from the food F is detected by the gas sensor 6. Then, the detection output of the gas sensor 6 is supplied to the control unit 10.

In this case, since the gas attached to the element S has already been removed, the gas sensor 6 is in an initialized state and operates with high sensitivity.

The control unit 10 controls the relay 13 based on the detection output of the gas sensor 6 and the cooking program stored in advance to control the oscillation operation of the magnetron 3. Then, the cooking is finished at the optimum timing according to the quality of the food F.

By the way, at the start of cooking, the count time Ts is a constant time T _0.
If it is longer than this, the gas adhering to the element S of the gas sensor 6 can be sufficiently removed only by the cleaning time, and therefore the control unit 10 does not issue the high voltage application command (logic "1" signal).

In this way, when the cooking is newly started in a state in which a short time has not passed from the end of the previous cooking, the gas attached to the element S of the gas sensor 6 is forcibly removed during the cleaning time. Therefore, in actual cooking, the gas sensor 6 can be operated with high sensitivity.

Therefore, it is possible to always perform good-quality cooking together with the execution of cleaning.

In particular, since it is forcibly removed by applying a high voltage, it is not necessary to extend the cleaning time, and there is no problem that the cooking time is prolonged. Further, since the period of applying the high voltage is only the cleaning time, there is no fear of adversely affecting the life of the gas sensor 6.

In the above embodiment, the case where the fixed time T ₀ is fixed has been described, but a functional means for changing the fixed time T ₀ according to the execution time of the previous cooking may be added to the control unit 10.

In this case, the control unit 10 stores the previous cooking execution time and also stores a plurality of types of constant time T ₀ having different lengths, and if the previous cooking execution time is long, that is, to the element S. If there is a large amount of adhered gas, the longer constant time T ₀ is selected. On the contrary, if the previous cooking execution time is short and the amount of gas adhering to the element S is small, a short fixed time T ₀ is selected.

In this way, by changing T ₀ for a certain period of time in accordance with the amount of attached gas, the gas attached to the element S of the gas sensor 6 can be reliably removed. Moreover, no high voltage is applied even if the gas is not attached, and the life of the gas sensor 6 can be improved.

Besides, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention.

[Effects of the Invention] As described above, according to the present invention, the cooker according to claim 1 secures the cleaning time at the start of cooking, and means for counting the elapsed time from the end of the previous cooking, At the start of cooking, if the count time is within a fixed time, the means for applying a high voltage to the heater of the gas sensor is provided during the cleaning time, so that it is possible to avoid the influence of residual gas from the previous cooking, and The gas adhering to the gas sensor can be removed without prolonging the cooking time, and cooking can always be performed in a good condition.

The cooking device according to claim 2, wherein a means for ensuring a cleaning time at the start of cooking, a means for counting the elapsed time from the end of the previous cooking, and a cleaning time at the start of cooking if the count time is within a fixed time Since a means for applying a high voltage to the heater of the gas sensor and a means for changing the fixed time according to the execution time of the previous cooking are provided therein, the influence of residual gas due to the previous cooking can be avoided. Moreover, the gas adhering to the gas sensor can be reliably removed without extending the cooking time,
Furthermore, the service life of the gas sensor can be improved, and cooking can always be performed in good condition.

[Brief description of drawings]

FIG. 1 is a diagram showing the overall configuration of an embodiment of the present invention,
FIG. 2 is a diagram showing a specific configuration of a heater control circuit in the same embodiment, and FIG. 3 is a diagram showing an overall configuration of a conventional microwave oven. 1 ... Heating chamber, 3 ... Magnetron, 6 ... Gas sensor, 10 ... Control unit, 20 ... Heater control circuit.

Claims (2)

(57) [Claims] 1. A cooking device provided with a gas sensor for detecting gas in a heating chamber, wherein automatic cooking is performed according to the output of the gas sensor, means for ensuring a certain cleaning time at the start of cooking, and from the end of the previous cooking. And a means for applying a high voltage to the heater of the gas sensor during the cleaning time if the counted time is within a fixed time at the start of cooking. 2. A cooking device provided with a gas sensor for detecting gas in a heating chamber and performing automatic cooking according to the output of the gas sensor, means for ensuring a certain cleaning time at the start of cooking, and from the end of the previous cooking. Means for counting the elapsed time, means for applying a high voltage to the heater of the gas sensor during the cleaning time at the start of cooking if the counted time is within a fixed time, and the fixed time is the execution time of the previous cooking. And a means for changing it according to the above.