KR950001880Y1 - Air flow-sensing apparatus for a microwave range - Google Patents

Abstract

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Description

Air flow rate sensor of microwave oven

1 is a schematic view showing the configuration of a conventional microwave oven.

2 is a schematic configuration diagram of the airflow detection device of the present invention microwave oven.

3 is a system configuration diagram of the air flow detection device of FIG.

4 is a detailed configuration diagram of the air volume detecting unit of FIG.

FIG. 5 is an output voltage waveform diagram of the airflow sensor according to the airflow rate of the cooling fan of FIG.

6 is an output voltage waveform diagram of the airflow sensor according to the oscillation of the magnetron and the stopping of the cooling fan.

FIG. 7 is an output voltage waveform diagram of the airflow sensor according to the hernia of the cavity of FIG. 2 and rotation of the cooling fan.

8 is an output voltage waveform diagram of the air volume detection with respect to the time until the air volume of the second cooling fan is stabilized.

9 is a signal flow diagram for the operational description of FIG.

* Explanation of symbols for main parts of the drawings

1: heating chamber 2: load driving part

3: turntable motor 4: display unit

5: key operation unit 6: fan motor

7: cooling fan 10: magnetron

13 exhaust temperature detecting unit 16 air volume detecting unit

The present invention relates to the air volume detection of the microwave oven, in particular to check the presence of the microwave oven with the air flow rate of the cooling fan to suppress the operation of the magnetron in the event of an abnormality and to accurately detect changes in the state of the food to improve the cooking performance It is related with the air volume detection apparatus of a range.

In the conventional microwave oven, as shown in FIG. 1 of the accompanying drawings, a key operation unit 5 for outputting key data according to a user's key selection, and key data selected and input from the key operation unit 5 are input. The system controller 8 controls the overall system operation of the microwave oven, the display unit 4 which displays various functional states of the microwave oven by the control signal of the system controller 8, and the system controller 5 In response to the control signal, the input voltage AC is boosted to a high voltage and the load driver 2 outputs the load drive control voltage, and is installed in the cavity 14 and driven by the high voltage of the load driver 2 to generate electromagnetic waves. Driving according to the output voltage of the magnetron 10 for generating a, the heating chamber (1) for heating the food placed on the turntable (15) by the electromagnetic waves generated from the magnetron (10) Is a cooling fan that sucks the outside air by driving the fan motor 6 and the fan motor 6 to cool the magnetron 10 and guide the outside air to the inlet 11 of the heating chamber 1. (7), an exhaust temperature sensing unit (13) for sensing the temperature of the air exhausted through the exhaust port (12) of the heating chamber (1) and inputting it to the system control unit (8), and the output of the load driving unit (2) A turntable motor 3 for driving the turntable 15 by driving a voltage and a thermostat 9 for switching according to the temperature rise in the cavity 14 to cut off the voltage AC input to the load driver 2. )

In the conventional microwave oven configured as described above, when the user first puts food to be cooked on the turntable 15 in the heating chamber 1 and presses the automatic cooking start key through the key control unit 5, the system control unit 8 initially load-drives the unit. By rotating the cooling fan (7) of the fan motor (6) for a predetermined time through the (2), the air temperature of the heating chamber (1) to equilibrium while introducing the outside air into the intake port (11) of the heating chamber (1) Will be maintained. As such, when the air temperature of the heating chamber 1 is maintained at an equilibrium, the system controller 8 inputs a control signal for driving the magnetron 10 to the load driver 2, and the load driver 2 is a system controller. The magnetron 10 is driven by boosting the voltage AC input through the thermostat 9 to the high pressure by the control signal of (8). Accordingly, the magnetron 10 generates electromagnetic waves by the high voltage of the load driving unit 2 to gradually heat food in the heating chamber 1, and the cooling fan 7 has an output voltage of the load driving unit 2. By sucking the outside air to cool the magnetron 10, the air is introduced into the heating chamber (1) through the inlet (11). Since the food is gradually heated by the electromagnetic waves of the magnetron 10, the temperature inside the heating chamber 1 gradually increases, and the exhaust port 12 of the heating chamber 1 together with the air sucked by the cooling fan 7. Exhaust through. At this time, the exhaust temperature detecting unit 13 installed in the exhaust port 12 of the heating chamber 1 detects the air temperature exhausted from the heating chamber 1 and inputs it to the system control unit 8, and the system control unit 8 Compared with the temperature of the input air and the set temperature according to the type of food, if the temperature of the currently detected air is low, the magnetron 10 continues to operate to heat the food, and if it is equal to the currently detected air temperature, the cooling fan for a predetermined time. (7) is driven to complete the cooking, in which case the cavity (6) due to the failure of the fan motor 6 and the cooling fan (7) while operating the microwave oven, that is, the magnetron 10 continues to oscillate If it is impossible to inhale outside air into the 14, the temperature in the cavity 14 is gradually increased by the oscillation of the magnetron 10. When the temperature rises in this way, the thermostat 9 installed around the magnetron 10 changes to the off state due to the elevated temperature after a certain period of time to cut off the input voltage AC and stop the operation of the microwave oven. .

However, in the conventional microwave oven, when the external motor cannot be sucked into the cavity due to a failure of the fan motor and the cooling fan during food cooking, the surge cat installed around the magnetron operates after a certain time to cut off the input voltage and the microwave oven. Will shut down.

In other words, by checking the abnormality of the fan motor which cools the electronics and extends the life after a certain period of time, an unreasonable result of that time is generated, and the life of the magnetron is shortened, There is a problem in that it is not possible to accurately detect the change in the state of the food due to the heat source is not delivered in a short time to adversely affect the cooking state.

Therefore, the purpose of the present invention is to check the presence of abnormalities in the microwave oven with the air flow rate of the cooling fan to suppress the operation of the magnetron as soon as the occurrence of the abnormality and to accurately detect the change in the state of the food according to the air volume to improve the cooking performance of the microwave oven. An air volume detecting device is provided.

The purpose of the present invention is to detect the air volume change sucked by the drive of the fan motor during food heating, and to change the electrical signal corresponding to the air flow rate detection means, the voltage and the air flow in the steady state obtained from the air flow rate detection means It is achieved by comparing the voltage set with respect to the system control means for stopping the driving of the heat source generating means and displaying the cause of the air volume change on the display means, according to the present invention in detail based on the accompanying drawings The explanation is as follows.

2 is a schematic configuration diagram of the airflow sensor of the present invention, and FIG. 3 is a system configuration diagram of the airflow sensor of FIG. 2. As shown in FIG. 2, a key operation unit for outputting key data according to a user's key selection ( 5) and the system control unit 8 for controlling the overall operation of the microwave oven according to the key data selected and inputted from the key operation unit 5, and the control signal of the system control unit 8 to A display unit 4 for displaying various functional states, a load driver 2 for boosting the input voltage AC to a high voltage according to a control signal of the system controller 5, and outputting a load driving control voltage; A magnetron 10 installed in the cavity 14 and driven by a high voltage of the load driver 2 to generate electromagnetic waves, and placed on the turntable 15 by electromagnetic waves generated from the magnetron 10. The magnetron (10) sucks outside air by driving the heating chamber (1) for heating the plant, the fan motor (6) driven according to the output voltage of the load driving unit (2), and the fan motor (6). ) Is cooled and the cooling fan 7 for guiding the outside air to the inlet 11 of the heating chamber 1 and the change in the amount of air sucked by the cooling fan 7 is changed into an electrical signal corresponding thereto. Air flow rate sensing unit 16 inputted to the system control unit 8 and the exhaust temperature sensing unit sensing the temperature of the air exhausted through the exhaust port 12 of the heating chamber 1 and inputting it to the system control unit 8 ( 13), a turntable motor 3 which is driven by the output voltage of the load driver 2 and rotates the turntable 15, and is switched in response to a temperature rise in the cavity 14 and input to the load driver 2. It consists of a thermostat (9) to cut off the voltage (AC).

As shown in FIG. 4, the air volume detecting unit 16 is connected in parallel with the resistors R2 and R3 for stepping down the voltage of the power supply terminal V _DD and the resistors R2 and R3. The thermistor 16a for changing the stepped down voltage by the resistance value change according to the contact of the amount of air sucked by the cooling fan 7 and the voltage above a predetermined level changed by the thermistor thermistor 16a are cut off to remove noise. It consists of the diode D1 and the capacitor C1 input to the system control part 8, and, in the figure, reference numeral R1 is a resistor.

When described in detail with reference to Figures 2 to 9 the operation, effects of the present invention configured as described above.

When the user puts food to cook on the turntable 15 in the heating chamber 1 and presses the automatic cooking start key through the key control unit 5, the system control unit 8 initially loads the load driving unit 2 for a predetermined time. The fan motor 6 and the cooling fan 7 are rotated to keep the air temperature of the heating chamber 1 in equilibrium, while introducing the outside air into the inlet 11 of the heating chamber 1, and the introduced air. To be exhausted through the exhaust port 12. At this time, when the outside air sucked by the rotation of the cooling fan 7 comes into contact with the surface of the thermistor 16a configured in the air volume sensing unit 16, the thermistor 16a changes the resistance value according to the amount of air or heat to be contacted. The input voltage is input to the system controller 8 by changing the voltage input from the power supply terminal V _DD to the changed resistance value. That is, as shown in FIG. 5, when the cooling fan 7 is not rotated, since the amount of meat contacting the thermistor 16a is small, the resistance value becomes small, and thus the thermistor 16a and the resistors R2 and R3. Since the total parallel resistance of is increased relatively, the voltage input from the power supply terminal (V _DD ) is not bypassed to the ground through the thermistor 16a and the resistors R2 and R3. The load A is applied with the voltage V2 as shown in FIG. On the contrary, when the cooling fan 7 rotates normally, the resistance value increases because the amount of air contacting the thermistor 16a is relatively large. Is relatively small so that the load A is subjected to the same voltage VO as in FIG.

In addition, when the cooling fan 7 rotates normally and the cavity 14 is peeled off, the thermistor 16a of the air volume detecting unit 16 is smaller than the amount of air generated when the cooling fan 7 is normal. By being in contact with, the load A of the air volume detecting unit 16 is subjected to a voltage V1 smaller than the voltage V2 at the normal state as shown in FIG. In this way, the voltage obtained by the resistance value change of the thermistor 16a of the air volume detecting unit 16 is cut off by a voltage or above a predetermined level through the diode D1, and the noise is removed through the capacitor C1 to the system controller 8. Is entered. The system controller 8 detects whether the input voltage is detected from the air volume detector 16 and whether the input voltage is the voltage VO in the normal state. If the system controller 8 is the abnormal voltage V2 or the voltage V1, the display unit 4 The failure of the cooling fan 7 or the peeling-off error of the cavity 14 is indicated, and the normal voltage VO is applied at the time t1 at which the air volume is stabilized as shown in FIG. 8 from the airflow rate sensing unit 16 above. When input, a control signal for driving the magnetron 10 is input to the load driver 2, and the load driver 2 is a voltage input through the thermostat 9 by a control signal of the system controller 8. The magnetron 10 is driven by boosting the AC to a high pressure. Accordingly, the magnetron 10 generates electromagnetic waves by the high voltage of the load driving unit 2 to gradually heat food in the heating chamber 1, and the cooling fan 7 has an output voltage of the load driving unit 2. By sucking the outside air to cool the magnetron 10, the air is introduced into the heating chamber (1) through the inlet (11). Since the food is gradually heated by the electromagnetic waves of the magnetron 10, the temperature rises to the temperature inside the heating chamber 1, and together with the air sucked by the cooling fan 7, the exhaust port 12 of the heating chamber 1 is opened. Is exhausted through. As such, when the microwave oven cannot be sucked into the cavity 14 due to a failure of the fan motor 6 and the cooling fan 7 while the microwave oven is operating, that is, in the state where the magnetron 10 is oscillating, the cavity 14 The temperature in) increases gradually due to the oscillation of the magnetron 10. In this way, when the temperature rises, the resistance value of the thermistor 16a configured in the air volume detecting unit 16 becomes the minimum, so that the system controller 8 increases the voltage higher than the abnormal voltage V2 as shown in FIG. (ΔV) is input. Accordingly, the system controller 8 controls the load driver 2 to stop the operation of the microwave oven. When the fan motor 6 is in the normal state, the system control unit 8 checks the cooking state change of the food through the exhaust temperature sensing unit 13 installed in the exhaust port 12 of the heating chamber 1 to prepare the cooking state. If is good, the magnetron 10 is turned off through the load driving unit 2 to complete the cooking.

As described in detail above, the present invention checks the presence of an abnormality of the microwave oven with the airflow of the cooling fan to suppress the operation of the magnetron as soon as the occurrence of the abnormality, and to detect the state change of the food according to the airflow precisely, food cooking performance Not only is this improvement improved, but it is possible to prevent the burnout of the magnetron depending on the heat source.

Claims (2)

When the food is heated, the air flow rate sensing means for detecting a change in the air flow rate sucked by the drive of the fan motor and converting it into an electric signal corresponding to the air flow rate, compares the voltage obtained from the air flow rate sensing means with the voltage set for the steady state air flow rate. And a system control means for stopping driving of the heat source generating means and displaying the cause state of the air volume change on the display means according to the result. The air flow rate detecting means further comprises a resistor (R2) (R3) for stepping down the voltage of the power supply terminal (V _DD ) and a volume of the air flow sucked by the cooling fan in parallel with the resistor (R2) (R3). A thermistor 16a for changing the stepped voltage with a change in resistance according to a contact, a diode D1 for blocking a voltage of a predetermined level or more changed by the thermistor 16a, removing noise, and inputting it to a system control means; A wind volume detection device for a microwave oven, characterized by comprising a capacitor (C1).