KR100533278B1 - A heating energy control method of inverter microwave oven - Google Patents

Abstract

The present invention relates to a heating energy control method of an inverter microwave oven. According to the present invention, the heating energy is simultaneously controlled in the microwave in the microwave mode and the convection mode, and the heating energy output is turned off in the convection mode, and only the microwave having the maximum heating energy is output alone in the refrigerator. can do. As a result, the heating energy output in the microwave mode and the convection mode is output as the maximum output energy, and the heating is effectively performed in a short time, thereby minimizing nutritional loss and deformation of the food.

Description

A heating energy control method of inverter microwave oven

The present invention relates to a microwave oven, and more particularly, to a heating energy control method of an inverter microwave oven for improving the efficiency of the heating time by the simultaneous output of the microwave mode and the convection mode.

A typical microwave oven is a device that generates microwaves by applying an electric current, induces microwaves into a cavity that is a heating space, and heats food by irradiating a heating object. These microwave ovens have various functions due to the diversification of the required heating characteristics, and are equipped with a heater to heat food at a higher temperature.

Therefore, in the microwave oven, a cooking process is performed by a microwave according to the driving of the magnetron, a cooking process is performed by the generated output of the heater, or a cooking process is performed by the simultaneous driving of the magnetron and the heater. .

In using the microwave oven as described above, in order to use more widely and conveniently, many keys are kept in the microwave oven. For example, a cooking key such as automatic cooking, manual cooking, thawing, warming, etc. is configured, and one-touch cooking keys such as popcorn cooking, steamed egg custard, sensing boil, and pizza cooking are configured as sub-functions of the automatic cooking. . Accordingly, when the user inputs the cooking key of the one-touch type, heating energy is output at the cooking time set in the controller (not shown). At this time, the heating energy output into the high outputs the generation output of the microwave or the heater as described above, or may also output the generation output of the microwave and the heater.

Looking at the heating energy control method of the microwave oven according to the prior art as follows.

1 is a heating energy output state diagram of a microwave oven according to the prior art.

In the prior art, when the user selects the auto cooking mode, the microcontroller controls the microwaves according to the heating mode and the magnetron driving according to the convection mode according to the auto cooking signal input by the user.

That is, the generation output of the heater is turned on / off at predetermined time intervals according to the convection mode. The microwave wave is always on and outputs a certain amount of heating energy in the furnace. In this way, heating energy is output in the furnace to heat food.

The generation output of the heater according to the convection mode and the heating energy output process of the microwave according to the magnetron driving are described in detail as follows.

In the process of outputting the generated output of the heater part according to the convection mode, the output of heating energy is on-off according to the value measured by the temperature sensor (not shown) in the oven of the microwave oven. Is controlled.

The heating energy output according to the convection mode and the heating energy output according to the magnetron drive have different current limit values. And the current limit according to the total heating energy output in the room is 15A.

That is, the maximum output value of heating energy due to the generated output of the heater in the convection mode is 1200W. At this time, the current limit value is 10A. In addition, when only the microwave is output when the generated output of the heater part according to the convection mode is turned off, the heating value of the heating energy of the microwave according to the magnetron driving is 600W. At this time, the current limit value is 5A. However, due to the microwaves driven by the magnetron, the maximum value of the heating energy that can be output in the refrigerator is 1600W. At this time, the current limit value is 13.3A.

The sum of the current limit value 10A of the heating energy due to the generated output of the heater and the current limit value 5A of the heating energy by the microwaves does not exceed 15A. Therefore, it is possible to simultaneously generate the output of the heater and the microwave in the refrigerator. As a result, it is possible to simultaneously output heating energy of 1800 W into the high space within the range in which the generated output of the heater section and the microwave do not exceed the current limit value.

However, even in a state in which the output of the heater is turned off, the microwave output in the refrigerator always outputs 600W heating energy. Therefore, even though there is an extra capacity to output the heating energy of the microwave at 1600W, the heating energy output into the refrigerator does not reach the maximum state, so that the heating does not proceed effectively and the heating time becomes longer. .

As a result, the juice of the food flows out due to prolonged heating, and the taste of the food is reduced, or the shape of the food is deformed.

Accordingly, an object of the present invention is to provide a heating energy control method of an inverter microwave oven which controls the generation output of the microwave and the heater to be output in the refrigerator to achieve simultaneous heating.

The heating energy control method of the inverter microwave oven according to the present invention for achieving the above object comprises the steps of: inputting an automatic cooking signal so that the heating energy of the heater and the magnetron is output in the interior; If the heating energy of the heater is output in the furnace, controlling the heating energy of the microwave to be output in the furnace within the rated range of the product; If the heating energy of the heater is not output in the interior, it comprises a step of controlling the heating energy of the microwave output to the maximum heating energy.

In the heating energy control method of the inverter microwave oven according to the present invention, the rating of the product is characterized in that it has a current limit value of 15A with an output of 1800W.

In the heating energy control method of the inverter microwave oven according to the present invention, the heating energy of the microwave is characterized in that the heating energy of the microwave has a current limit value of 5A with an output of 600W.

In addition, in the heating energy control method of the inverter microwave oven according to the present invention, the heating energy of the microwave is characterized in that the heating energy of the microwave has a current limit value of 13.3A with an output of 1600W.

In the heating energy control method of the inverter microwave oven according to the present invention, the heating energy of the heater is characterized by having a current limit value of 10A with an output of 1200W.

Hereinafter, the heating energy control method of the inverter microwave oven according to the present invention will be described in detail.

2 is a control block diagram for controlling the heating energy output of the inverter microwave oven according to the present invention.

As shown in the drawings, the present invention provides a power supply unit 50 for supplying power to a product, a signal input unit 10 for inputting a cooking signal for cooking food in the refrigerator, and a cooking signal input by a user. A heater 30 for outputting a generation output, a magnetron 40 for irradiating microwaves according to a cooking signal input by the user, and a microcontroller for controlling the heater output and the microwaves to be simultaneously output in the interior of the refrigerator ( 20).

The microcontroller 20 outputs heating energy, and the microcontroller controls the driving of the heater unit 30 and the magnetron 40 such that the heating energy is simultaneously output instead of an alternating output.

The Americas, etc. in which the inverter microwave oven according to the present invention is used use a rated power supply of 120V. The inverter controls the generation output of the heater unit 30 and the heating energy amount of the microwave output in the refrigerator. Thereby, it becomes possible to appropriately adjust the amount of heating energy so that the generated output of the heater section and the microwaves are simultaneously output in the refrigerator.

A brief description of the operation process according to the control configuration is as follows.

First, a rated power of 120 V is applied to the microwave oven main body. Then, the user puts food to be cooked in the kitchen and inputs a cooking signal through a signal input unit (key panel, dial, etc.) 10.

The cooking signal input by the user is transmitted to the microcontroller 20. At this time, when the cooking signal input by the user is an automatic cooking signal, the microcontroller 20 controls the heater unit 30 and the magnetron 40 to be driven simultaneously.

That is, under the control of the microcontroller 20, the generation output of the heater unit 30 in the interior and the microwave 20 in response to the magnetron 40 driving is output to the interior. In addition, the heating energy output in the refrigerator is output while being controlled on-off at the same time until the cooking process of the food in the refrigerator is completed.

Hereinafter, the generation output of the heater unit 30 according to the convection mode and the heating energy output process of the microwave according to the driving of the magnetron 40 will be described in detail.

3 is a state diagram showing the heating energy output of the inverter microwave oven according to the present invention.

In the present invention, as shown in the figure, the output of the heater unit 30 and the microwave is output at the same time in the interior, the food in the interior is heated. That is, the generation output of the heater unit 30 in the convection mode is output on-off at predetermined time intervals. The microwave outputs the inside of the refrigerator by controlling the magnitude of the heating energy differently at predetermined time intervals.

That is, if the generated output of the heater unit 30 according to the convection mode is turned on with the size of 1200W, the microwave wave is also output to the interior of the 600W size. In addition, when the generated output of the heater unit 30 in the convection mode is in an off state, the microwave wave is independently output in the furnace with a heating energy of 1600 W. In this way, the generated output and the microwave wave of the heater part 30 are output in the inside of a refrigerator, and the food in the inside of a refrigerator is heated.

In the process of outputting the generated output of the heater unit 30 in the convection mode as described above, the output of the heating energy according to the value measured through a temperature sensor (not shown) in the oven of the microwave oven On-off control.

On the other hand, the output of the heating energy in accordance with the convection mode and the output of the heating energy in accordance with the driving of the magnetron 40 has a different current limit value. At this time, the current limit value according to the maximum heating energy output in the refrigerator is 15A.

That is, the maximum output value of the heating energy output in the furnace is 1200W by the generated output of the heater unit 30 in the convection mode. At this time, the current limit value is 10A. On the other hand, with the microwaves driven by the magnetron 40, the maximum output value of the heating energy output in the refrigerator is 1600W. The current limit is 13.3A.

That is, when the generated output of the heater unit 30 according to the convection mode is output at 1200W, the microwave wave is output at the same time in a 600W size. At this time, the current limit value of the microwave wave of 600W size is 5A.

However, when the microwave is output alone in the state in which the generated output of the heater unit 30 according to the convection mode is turned off, the output value of the heating energy of the microwave according to the driving of the magnetron 40 is 1600W. to be. At this time, the current limit value is 13.3A.

Therefore, when the generation output of the heater part 30 and the microwave are output simultaneously, the sum of the current limit value 10A of the heating energy by the generation output of the heater part 30 and the current limit value 5A of the heating energy by the microwave is high. The current limit value 15A of the total heating energy output into the circuit does not exceed.

In addition, even when only the microwave is output in the refrigerator while the heater output is turned off, the current limit value 13.3A of the heating energy by the microwaves does not exceed the current limit value 15A of the total heating energy output into the refrigerator. do.

Therefore, the generated output of the heater unit 30 and the microwave can be output at the same time, or only the microwave can be output at the maximum heating energy in the furnace. As a result, it is possible to output the heating energy into the refrigerator within the range in which the generated output of the heater unit 30 and the microwave do not exceed the current limit value. In addition, as described above, the heating energy is output to the interior of the refrigerator to stably cook the cooking process. In the past, when only microwaves are output to the interior of the refrigerator alone, the maximum energy is controlled to output 600W and 5A of heating energy. However, the microwave oven currently on the market has a spare of the maximum rating to be able to output up to 1600W, heating energy up to 13.3A when the microwave alone outputs. Therefore, the present invention heats the inside of the furnace at a maximum rated value of 1600W and 13.3A when the microwave is heated alone. As described above, the present invention simultaneously outputs the generated output of the microwave and the heater. It is a basic technical idea to control so that the microwaves are output to the maximum inside the refrigerator when the generated output of the heater unit is turned off so that the food in the refrigerator is heated for a short time.

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The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

Therefore, the following effects can be expected due to the heating energy control method of the microwave oven according to the present invention.

When the output of the heater and the microwave are output at the same time in the furnace, and the output of the heater is turned off, as the microwave is output at the maximum heating energy in the furnace, the amount of heating energy output in the furnace increases, resulting in a short time. The food can be heated.

As a result, it becomes possible to heat the food in a short time, thereby reducing the nutritional state of the food, and minimizing the deformation of the food.

1 is a state diagram showing the heating energy output of the microwave oven according to the prior art.

Figure 2 is a control configuration for controlling the heating energy output of the inverter microwave oven according to the present invention.

Figure 3 is a state diagram showing the heating energy output of the inverter microwave oven according to the present invention.

          Explanation of symbols on the main parts of the drawings

10: signal input unit 20: microcontroller

30: heater 40: magnetron

50: power supply

Claims (5)

Inputting an automatic cooking signal such that heating energy of the heater and the magnetron is output in the refrigerator; If the heating energy of the heater is output in the furnace, controlling the heating energy of the microwave to be output in the furnace within the rated range of the product; And controlling the heating energy of the microwave to be output as the maximum heating energy when the heating energy of the heater is not output in the furnace. The method of claim 1, The rating of the product, the heating energy control method of the inverter microwave oven, characterized in that having a current limit value of 15A with an output of 1800W. The method of claim 2, When the heating energy of the heater is in the on state, the heating energy of the microwave heating energy control method of the inverter microwave oven, characterized in that has a current limit value of 5A with an output of 600W. The method of claim 2, And when the heating energy of the heater is off, the heating energy of the microwave has a current limit value of 13.3 A with an output of 1600 W. The method of claim 2, The heating energy of the heater is a heating energy control method of the inverter microwave oven, characterized in that the current limit value of 10A at an output of 1200W.