KR20020022304A - Method for controlling heater position in microwave oven - Google Patents

Abstract

PURPOSE: A method for controlling heater position of a microwave oven is provided to obtain the optimal food according to a user request about each heater cooking, by variously controlling the heater position. CONSTITUTION: A method for controlling heater position of a microwave oven comprises the step of: detecting whether a key signal for heater driving is inputted; varying the heater position while the key signal for heater driving is inputted, when cooking is manual cooking and is not in progress; and performing the selected cooking at the controlled heater position. Thereby, the optimal food is able to be obtained.

Description

Method for controlling heater position in microwave oven

The present invention relates to a heater position control method of a microwave oven, and more particularly, to a heater position control method of a microwave oven capable of adjusting the position of the heater by manual control.

A microwave oven is an electronic cooking apparatus which performs cooking by microwave waves or cooking by a heater using electricity as a driving source. In the early stages of microwave development, cooking was done only by microwaves generated by the magnetron. However, in recent years, various methods of cooking have been provided, including a heating source such as a heater in addition to the magnetron, and cooking by circulating the generated heat of the heater, or cooking by driving the magnetron.

In addition, the functions of the microwave oven, which are recently released, include various automatic dishes including pizza, popcorn, steamed food, manual cooking by user setting, and basic cooking functions such as thawing and warming. Doing.

Such various dishes are divided into microwaves driven by the magnetron, cooked by the oscillation heat of the heater, and cooked by the simultaneous driving of the magnetron and the heater. .

1 is a cross-sectional view showing the position of a heater when cooking a heater of a conventional microwave oven.

The heater 13a is provided in the inside one side wall side of the cavity 19 in which cooking is performed. Although the heater 13a shown is provided in the side wall side of a cavity, there is also the model provided in the upper part. And 16 is a turn table on which dishes are placed.

The position of the heater 13a installed in this way is adjustable as shown. That is, the heater is adjusted to the position of 13a or the position of 13b and the position of 13c according to the algorithm set according to each automatic dish.

At this time, the position adjustment of the heater is not possible for the user to arbitrarily adjust, and is adjusted by a predetermined algorithm according to the heater cooking. In the microwave operating mode, the heater 13a moves to the position of 13a.

By the way, in the case of the cooking of the heater of the microwave oven, a difference occurs in the speed and amount of heat generated by the heater according to the position of the heater to the food. Therefore, the cooking time and the cooking state are determined according to the position of the heater. In the conventional microwave oven, the position control of the heater is limited to only three. Therefore, it was impossible to adjust the position of the heater according to each cooking characteristic.

In addition, the heater position control of the conventional microwave oven cannot be arbitrarily set by the user, and is controlled to the preset position only by the algorithm set for each dish. Therefore, the user can not directly control the heater position, it was impossible to obtain the optimum cooking according to the user's requirements.

Accordingly, an object of the present invention is to provide a heater position control method of a microwave oven which can freely adjust the position of the heater by a manual operation according to a user's selection.

1 is a cross-sectional view showing a heater position of a conventional microwave oven,

2 is a circuit diagram for a heater position control of a microwave oven according to the present invention;

3 is an operation flowchart for the heater position control of the microwave oven according to the present invention.

Explanation of symbols on the main parts of the drawings

20: key for driving the heater 23: switch

26 connector 30 microprocessor

33: motor 36: power

39: transistor 40: relay

A heater position control method of a microwave oven according to the present invention for achieving the above object comprises the steps of: monitoring whether a key signal for driving a heater is input; Changing the position of the heater while the cooking is manual and the key for driving the heater is input; And performing the selected dish at the regulated heater position.

Hereinafter, a heater position control method of a microwave oven according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a heater position control circuit diagram of the microwave oven according to the present invention.

The microwave oven of the present invention includes a heater driving key for adjusting the position of the heater. The heater driving key is installed to be manually selected by a user, and the position of the heater is continuously moved while the heater driving key is pressed. The heater driving key 20 is provided at one side of the electric part of the microwave oven so that the user can select from the outside.

The heater driving key 20 is connected to the VCC power supply terminal and the input terminal I1 of the microprocessor 30 through the connector 26. Therefore, when the user presses the heater driving key 20, the key switch 20a is switched to the on state by the pressing force. When the key switch 20a is switched on, the high state voltage supplied from the VCC power supply terminal is input to the input terminal I1 of the microprocessor 30 through the key switch 20a. In this operation, the microprocessor 30 detects whether the heater driving key 20 is selected.

In addition, a switch 23 for monitoring whether the heater is located at the initial position (position 13a shown in FIG. 1) is connected to the VCC power supply terminal and the input terminal I2 of the microprocessor 30. Therefore, when the position of the heater reaches 13a, the switch 23 is switched to the on state by a mechanical operation, and the high state is input to the input terminal I2 of the microprocessor 30 by the on operation of the switch 23. Signal is input. At this time, the microprocessor 30 recognizes that the heater is located at the initial position 13a.

In addition, a motor 33 driven to control the position of the heater is provided, and the motor 33 is connected to the power supply terminal 36 and the heater driving relay 40. The relay 40 is configured to be controlled by the microprocessor 30. That is, a transistor 39 is connected between the relay and the ground potential, and the operation of the transistor 39 is controlled by the microprocessor 30. That is, when the microprocessor 30 outputs a high signal for driving the transistor 39, the current path of the relay 40 is formed while the transistor 39 is switched on. At this time, the relay 40 is excited, and power is supplied to the motor 33.

The following describes the heater position control process of the microwave oven according to the present invention having the above configuration.

3 is an operation flowchart for heater position control of the microwave oven according to the present invention.

When the user selects an arbitrary key for the operation of the microwave, a signal corresponding to the selected key is input to the microprocessor 30 (step 100). When the key selected in step 100 is the heater driving key 20, a high signal is input to the input terminal I1 of the microprocessor 30. Similarly, other key inputs have a signal corresponding to each key input to the microprocessor, and by this operation, the microprocessor recognizes which function the key is for.

Therefore, the microprocessor 30 recognizes the signal corresponding to the key input in the step 100 and determines whether the key signal is input according to the automatic cooking (step 103). If the key input corresponding to the automatic cooking is not performed in step 103, it is determined whether the key signal input corresponds to the manual cooking (step 106).

Step 103 and step 106 are processes for determining a function corresponding to the selected key. That is, when the heater driving key 20 is selected in the 100th step, the condition of the 106th step is satisfied.

If it is determined in step 106 that the key signal corresponding to the manual cooking is input, it is then determined whether the cooking is in progress (step 109).

When the heater driving key 20 is input by the execution up to the step 109, the key corresponding to the manual cooking, and cooking is not in progress, while the heater driving key 20 is selected, The heater drive relay 40 is operated.

That is, a high signal for operating the transistor 39 is output, and a current path of the relay 40 is formed by the high signal. In this operation, while the power is applied to the heater driving motor 33, the position of the heater 13a is adjusted (step 112).

In the position adjustment of the heater in the step 112, in other words, the time for supplying the high signal to the transistor 39 is during the period during which the high signal is input to the input terminal I1. That is, the position of the heater is changed while the motor 33 is driven while the user selects the heater driving key 20 (step 115).

Subsequently, when the user removes the pressing operation of the heater driving key 20, a low state signal is input to the input terminal I1 of the microprocessor 30, and in conjunction with this, the base terminal of the transistor 39 is also connected to the input terminal I1 of the microprocessor 30. A low state signal is applied. The low signal applied in this way switches the transistor 39 to the off state without reaching the turn-on voltage of the transistor 39, so that the power supply of the motor 33 is cut off (step 118).

That is, in steps 100 to 118, after the user selects the heater driving key 20, the user checks whether it is manual cooking, confirms that cooking is not in progress, and then the user presses the heater driving key. This is a process for variably controlling the position of the heater while pressing.

The present invention thus controls the position of the heater in manual cooking, when cooking is not in progress, and while the user selects the heater driving key, to adjust to the heater position required by the user.

Next, if it is determined that the key input in step 100 and step 103 is a key for automatic cooking using the heater as a heating source, the position of the heater is adjusted to a position set according to the selected automatic cooking. At this time, the position adjustment of the heater is performed in the process of supplying power to the heater driving motor 33, but the heater is set by controlling the time for supplying power to the motor 33 differently according to each dish. It may be possible to adjust the position (step 124).

After reaching the set position of the heater according to the automatic cooking by performing the step 124 (step 127), or by varying the position of the heater according to the manual cooking by performing up to the step 118, the selected position is selected. Cooking is performed (step 130).

When cooking is performed according to the cooking time and cooking conditions set or input in step 130, and the cooking is completed while all the cooking conditions are satisfied (step 133), the microprocessor 30 is configured to drive the heater. Control to operate the motor 33 is performed to move the heater to an initial position (13a position in FIG. 1) (step 136).

The control by the step 136 is performed by the process of driving the heater driving motor 33 until the high signal according to the on operation of the switch 23 in the microprocessor 30. As mentioned above, driving of the heater driving motor 33 outputs a high signal to control the transistor 39 to be turned on, thereby forming a current path for the relay 40. Is done.

And the on-operation detection of the switch 22, when the heater driving motor 33 is driven by the above process to arrive at the initial position while the position of the heater is changed, the switch 23 is turned on by mechanical control It is switched to the state. At this time, the VCC supply power is applied to the input terminal I2 of the microprocessor 30 through the switch 23, and the microprocessor 30 detects the movement to the initial position of the heater by the high signal input at this time. . Therefore, when a high signal is input to the input terminal I2, the microprocessor 30 switches the high signal output to turn on the transistor 39 to a low signal to stop the heater driving motor 33.

As described above, the heater position control method of the microwave oven according to the present invention is characterized in that the position of the heater can be variably controlled by a user manual operation. Therefore, the present invention can control the position of the heater in a variety of ways, it is possible to obtain the effect of obtaining the optimum cooking according to the user requirements for each heater cooking.

In addition, the present invention is to control the position of the heater by the user control when the manual cooking, and the cooking can be made only in the state that is not in progress, the risk of fire due to the position of the heater during cooking and cooking is partially completed To prevent them. In particular, the present invention is to limit the position control of the heater by the user control to manual cooking, to disable the position control of the heater in the automatic cooking, so as to maintain the characteristics of the automatic cooking performed by the preset heater position and cooking conditions do.

Claims (1)

Monitoring whether a key signal for driving the heater is input; Changing the position of the heater while the cooking is manual and the key for driving the heater is input; Heater position control method of a microwave oven comprising the step of performing the selected cooking at the adjusted heater position.