KR100248781B1 - A controller for operating microwave oven - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation control apparatus for a microwave oven, wherein the weight of food and the gas discharged from the cooking chamber are changed by using the capacitance changing according to the weight of the food placed on the turntable in the cooking chamber and the moisture content of the gas discharged from the cooking chamber. The weight of the food and the moisture content of the gas by the weight and gas detection sensor for detecting the moisture content, the duct communicating between the exhaust port of the cooking chamber and the weight and gas detection sensor, and the output signal of the weight and gas detection sensor It is configured to include a control unit for controlling the operation of the microwave oven, by detecting the moisture content of the gas discharged to the outside through the exhaust port of the cooking chamber by a weight sensor for detecting the weight of food placed on the turntable of the microwave oven By controlling the operation of the oven, the number of microwave components The structure becomes simple, and at the same time effects that can reduce the production cost of the microwave oven.

Description

Microwave Oven Control Device

The present invention relates to an operation control apparatus for a microwave oven, and more particularly, by sensing a moisture content of a gas discharged to the outside through an exhaust port of a cooking chamber by a weight sensor for detecting a weight of food placed on a turntable of a microwave oven. The present invention relates to an operation control apparatus for a microwave oven that controls the operation of a microwave oven.

In general, a microwave oven is microwaved by applying high-pressure electricity to a microwave oscillation tube called magnetron, unlike a conventional external heating type cooking utensil using heat conduction and heat radiation to heat and cook food.

That is, the microwave oven uses the principle that when the microwave is applied to the food, the molecules constituting the food rub together to generate frictional heat, and the food is heated and cooked by the heat.

FIG. 1 is a schematic configuration diagram of a general microwave oven, and in FIG. 1, some elements such as a key input unit, a door sensor, a high voltage transformer, and a back pressure circuit, which are basic components of the microwave oven, are omitted.

As shown in FIG. 1, a conventional microwave oven reciprocates a cooking chamber 3 equipped with a turntable 2 for placing food 1 and a turntable 2 up and down. Rotating turntable motors 4-1 and 4-2, a magnetron 6 that generates microwaves and supplies them to the cooking chamber 3 through the waveguide 5, and blows external cold air to the magnetrons 6 to magnetrons. (6) a cooling fan (7) for cooling, a weight sensor (8) for sensing the weight of the food (1) placed on the turntable (2), an exhaust port (9) installed outside the exhaust port (9) of the cooking chamber (3) The gas sensor 10 and the resistance change according to the moisture content of the gas discharged through the), the turntable motor (4) and the magnetron (6) and according to the output of the weight sensor (8) and gas sensor (10) It comprises a control unit 15 for controlling the operation of the blowing fan 7 to perform the thawing and cooking function There.

In the microwave oven configured as described above, the control unit 15 reads the resistance value of the gas sensor 10 installed outside the exhaust port 9 of the cooking chamber 3 and determines the cooking time according to the resistance value. It is intended to perform cooking.

That is, the gas sensor 10 is a kind of ceramic sensor in which the resistance value of the sensor drops sharply when exposed to moisture, alcohol, or the like at a predetermined concentration. When cooking food in a microwave oven, moisture generated from food heated by microwaves is detected. As the back is discharged through the exhaust port 10 of the cooking chamber 3, the gas sensor 10 acts to lower the resistance of the gas sensor 10.

The controller 15 determines the remaining cooking time by reading the resistance value of the gas sensor 10 to determine the amount of food or water content being cooked.

Referring to the operation control process of the microwave oven made as described above in more detail as follows.

When the user inputs a cooking course through a key input unit (not shown), for example, warming, frozen food, thawing, cooking strength / weakness, reservation time, type of food, weight of food, and the like, The key signal is input to the controller 15.

Then, when the user operates the cooking start key (not shown) of the key input unit, an electric key signal corresponding thereto is input to the control unit 15, and the control unit 15 turns the table according to the cooking course selected through the key input unit. The motor 4, the magnetron 6, and the blowing fan 7 are driven to start the cooking operation.

Therefore, microwaves are generated in the magnetron 6, and the microwaves are radiated from the antenna of the magnetron 6 through the waveguide 5 into the cooking chamber 3, and the food 1 is caused by the dielectric heating action of the microwaves. Moisture and the like generated on the surface of the heated food being heated are discharged to the outside through the exhaust port 9 of the cooking chamber 3.

When water is discharged to the outside through the exhaust port 9 of the cooking chamber 3 in this manner, the resistance value of the gas sensor 10 provided outside the exhaust port 9 starts to change.

When the magnetron 6 operates as described above, the initial resistance value of the gas sensor 10 is measured (S4), and the reference resistance value is calculated based on the initial resistance value, and the reference resistance value is the initial resistance value. 75% of the time.

Subsequently, the resistance value of the gas sensor 10 is continuously measured until the resistance value of the gas sensor 10 becomes smaller than the reference resistance value, and when the resistance value of the gas sensor 10 becomes smaller than the reference resistance value, the gas sensor The time taken for the resistance value of (10) to become smaller than the reference resistance value is measured.

Then, the remaining cooking time of the food is calculated according to the time measured as described above, the cooking is further performed by the calculated remaining cooking time, and then the operation is terminated.

That is, the controller 15 reads the resistance value of the gas sensor 10 at the initial stage of operation of the microwave oven, and sets this value as an initial resistance value, and the moisture of the gas sensor 10 due to moisture generated as the microwave oven operates. The time taken until the resistance value decreases to 75% of the initial resistance value (hereinafter referred to as measurement time) is calculated, and according to the measurement time, the controller 15 recognizes the amount of food and the remaining cooking afterwards. You can decide the time.

In other words, since the measurement time is determined according to the humidity of the air discharged through the exhaust port 9 of the cooking chamber 3, when the measurement time is short, the food is relatively high in amount of food or high in water content. The control unit 15 recognizes that the time should be long, and thus lengthens the cooking time after the measurement time.

However, as the conventional microwave oven detects gas using a gas sensor, the number of microwave component parts increases and the structure of the microwave becomes complicated. In particular, since the gas sensor is expensive, the price of the microwave oven increases. There was a problem letting.

Accordingly, the present invention is to solve the above-mentioned conventional problems, the moisture content of the gas discharged to the outside through the exhaust port of the cooking chamber by the weight sensor for sensing the weight of the food placed on the turntable of the microwave oven It is to provide an operation control device for a microwave oven to control the operation of the microwave.

In the microwave oven control apparatus for achieving the above object, in the microwave oven is provided with a weight sensor for sensing the weight of the food by using a capacitance to convert according to the weight of the food placed on the turntable in the cooking chamber,

A duct communicating between the exhaust port of the cooking compartment and the weight sensor and the weight of food by the output signal of the weight sensor, while the moisture content of the gas discharged to the weight sensor through the exhaust port of the cooking chamber It characterized in that it comprises a control unit for controlling the operation of the microwave oven by detecting the moisture content of the gas using the capacitance of the weight sensor changes according to.

1 is a schematic configuration diagram of a general microwave oven,

2 is a block diagram of a driving control apparatus for a microwave oven according to the present invention;

3 is a schematic configuration diagram of a microwave oven according to the present invention;

Figure 4 is a detailed view of the weight and gas detection sensor of the microwave oven according to the present invention.

<Explanation of symbols for the main parts of the drawings>

21: power supply 22: relay

23: high voltage transformer 24: double voltage circuit

25: magnetron 26; Key input section

27: door sensor 28: weight and gas sensor

30 display unit 31 buzzer

32: turntable motor 33: blowing fan motor

34: fan motor for moisture removal 35: control unit

40: duct

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a schematic block diagram of a microwave oven control apparatus according to the present invention, Figure 3 is a schematic block diagram of a microwave oven control apparatus according to the present invention, the operation control apparatus of the microwave oven according to the present invention, Supply unit 21, relay unit 22, high voltage transformer 23, double voltage circuit 24, magnetron 26, key input unit 26, door sensor 27, weight and gas sensor 28 And a display unit 30, a buzzer 31, a turntable motor 32, a blowing fan motor 33, a fan motor 34 for removing moisture, and a control unit 35.

The power supply unit 21 supplies the commercial AC power applied from the outside to the high voltage transformer 23 through the relay unit 22, and simultaneously transforms and rectifies the commercial AC power to drive power of the controller 35. do.

The high voltage transformer 23 converts and outputs commercial AC power input through the relay unit 22 into a high voltage for driving a magnetron, and the double voltage circuit 24 includes a high voltage capacitor and a high voltage diode. The high voltage output from the high voltage transformer 23 is rectified and back-pressured and input to the magnetron 25.

The magnetron 25 receives a high voltage of direct current through the back pressure circuit 24 to oscillate microwaves, and emits the oscillated microwaves into the cooking chamber 3 through the antenna and the waveguide 5.

The key input unit 26 is for a user to select a cooking course of food and input a cooking start key. When the user manipulates the key input unit 26, an electric key signal corresponding to the key input unit 26 is input to the controller 35. Is entered.

The door sensor 27 inputs an electrical signal corresponding to the control unit 35 when the door of the microwave oven is opened, and the weight and gas detection sensor 28 is connected to the weight of the food 1 placed on the turntable 2. The duct 40 detects the weight of the food 1 by using the capacitance changed accordingly and inputs an electrical signal corresponding thereto to the control unit 35, and communicates with the exhaust port 9 of the cooking chamber 3. Input an electrical signal corresponding to the moisture content of the gas discharged through the control unit 35.

The control unit 35 receives data necessary for cooking or thawing food from the key input unit 26 or various sensors 27 and 28 as described above, and controls the relay unit 22 to control the magnetron 25 and the turntable. The driving of the motor 32 and the blowing fan motor 33 is controlled to cook or thaw the food 1.

In addition, the control unit 35 informs the user of the current state of the microwave oven through the display unit 30 and the buzzer 31.

In this case, the weight and gas sensor 28, as shown in Figure 4, comprises a support bracket 52, a printed circuit board 54 and a movable electrode plate 56, the printed circuit board An upper copper foil surface 58 is formed on the upper surface of the 54, and the movable electrode plate 56, which acts according to the weight of the food 1 placed on the turntable 2, has the printed circuit board 54. The ground is fixed to the support bracket 52 while maintaining a constant distance.

In addition, the gas discharged during cooking of the food 1 through the duct 40 which communicates the exhaust port 9 of the cooking chamber 3 with the weight and the gas sensor 28 is connected to the printed circuit board 54. Flowing between the upper copper foil surface 58 and the movable electrode plate 56, the moisture removing fan motor 34 is operated by the control of the control unit 35 to remain in the weight and gas sensor 28 It is designed to remove moisture.

Referring to the operation and effect of the operation control device of the microwave oven according to the present invention configured as described above in detail.

When the user manipulates the key input unit 26 and inputs a cooking course, for example, warming, frozen food, thawed cooking, cooking strength / weakness, reservation time, type of food, weight of food, etc. The key signal is input to the control unit 35.

Next, when the user starts cooking by operating the cooking start key of the key input unit 26, an electric key signal corresponding thereto is input to the control unit 35, and the control unit 35 is selected through the key input unit 26. The relay unit 22 is controlled according to the cooking course to drive the magnetron 25, the turntable motor 32, and the blowing fan motor 33 to start cooking or thawing the food 1.

That is, when the control unit 35 controls the relay unit 22 to supply commercial AC power input from the power supply unit 21 to the first stage of the high voltage transformer 23, the high voltage transformer 23 may control the relay unit ( 22) transforms and outputs the commercial AC power input through the high voltage to drive the magnetron, and the double voltage circuit 24 rectifies and backs up the high voltage output from the high voltage transformer 23 to the magnetron 25. do.

The magnetron 25 receives a high voltage of direct current through a back pressure circuit 24 to oscillate microwaves, and radiates the oscillated microwaves through an antenna and a waveguide 5 into the interior of the cooking chamber, and the microwave heating action As a result, the food 1 placed on the turntable 2 of the cooking chamber 3 is heated.

At this time, before heating and cooking the food 1, the weight and gas sensor 28 is a movable electrode plate 56 and the printed circuit that acts in accordance with the weight of the food (1) placed on the turntable (2) The capacitance changed by the distance between the upper copper foil surface 58 of the substrate 54 is converted into a frequency signal through the RC resonant circuit and input to the controller 35, and the controller 35 according to the frequency signal. It controls the operation of the microwave by setting the operating time of the microwave by sensing the weight of food.

In addition, when the food 1 in the cooking chamber 3 begins to heat as described above, gas containing moisture generated on the surface of the food 1 being heated is discharged through the exhaust port 9 of the cooking chamber 3. In addition, the gas is connected to the upper copper foil surface 58 of the printed circuit board 54 through a duct 40 which communicates the exhaust port 9 of the cooking chamber 3 with the weight and gas sensor 28. It flows in between the movable electrode plates 56.

When a gas containing moisture or the like flows into the weight and gas sensor 28 as described above, the dielectric constant between the upper copper foil surface 58 and the movable electrode plate 56 of the printed circuit board 54 is varied. As the dielectric constant changes as described above, the capacitance formed by the upper copper foil surface 58 and the movable electrode plate 56 of the printed circuit board 54 changes.

As described above, when the capacitance formed by the upper copper foil surface 58 and the movable electrode plate 56 of the printed circuit board 54 changes, the weight and humidity sensor 28 changes the capacitance into the RC resonant circuit. Through converting into a frequency signal through the input to the control unit 35, the control unit 35 detects the moisture content of the gas in accordance with the frequency signal, determines the remaining cooking time according to the detected moisture content to perform cooking or , End cooking.

In addition, the control unit 35 drives the fan motor 34 for removing moisture at the start of the cooking to remove moisture remaining in the weight and the gas sensor 28 so as to generate the weight of the food and the gas generated from the food during cooking. Make sure the moisture content of the sample can be measured accurately.

That is, the capacitance (C) can be obtained by the formula C = ε A / d, as shown in the above formula, the capacitance (C) is proportional to the area (A) and the dielectric constant (ε) of the positive electrode plate, By using the principle inversely proportional to the distance (d) of the positive electrode plate, the weight of food and the water content of the gas is measured.

In the above formula, C is the capacitance, ε is the dielectric constant, A is the area of the positive plate, d is the distance of the positive plate.

As described above, according to the present invention, by controlling the operation of the microwave by detecting the moisture content of the gas discharged to the outside through the exhaust port of the cooking chamber by a weight sensor for detecting the weight of the food placed on the turntable of the microwave oven. Accordingly, the number of microwave component parts is reduced to simplify the structure of the microwave oven, and at the same time, there is an effect of reducing the manufacturing cost of the microwave oven.

Claims (2)

In the microwave oven is provided with a weight sensor for sensing the weight of the food by using a capacitance that converts according to the weight of the food placed on the turntable in the cooking chamber, A duct communicating between the exhaust port of the cooking compartment and the weight sensor and the weight of food by the output signal of the weight sensor, while the moisture content of the gas discharged to the weight sensor through the exhaust port of the cooking chamber And a control unit for controlling the operation of the microwave oven by sensing the moisture content of the gas by using the capacitance of the weight sensor to change according to the operation control device of the microwave oven. The method of claim 1, A moisture removing fan motor is further provided to remove moisture by blowing air to the weight sensor, while the controller operates the fan motor for moisture removal during initial operation of the microwave oven to remove moisture remaining in the weight sensor. The operation control apparatus of the microwave oven characterized by being removed.

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