KR101298001B1 - Cooling fan RPM control method for microwave oven - Google Patents

Abstract

The present invention relates to a cooling fan rotational speed control method of a microwave oven that controls the rotational speed of the cooling fan differently for each cooking method of the microwave oven, the microwave oven is equipped with electrical components for cooking food in the cooking chamber In a cooling fan rotational speed control method of a microwave oven in which a plurality of contacts are provided to adjust the rotational speed of the cooling fan in the cooling fan motor of the cooling fan, and a relay is connected to each contact to turn on the relay to control the rotational speed of the cooling fan. By selectively turning on the relay according to the operation of each electric component according to the cooking method for the food, the rotation speed of the cooling fan is controlled in multiple stages according to the operation of each electric component by the cooking method. According to the present invention configured as described above, by providing a plurality of contacts in the cooling fan motor to adjust the rotational speed of the cooling fan and connecting the relay to each contact to selectively turn on or off the relay according to the cooking method to cook The rotation speed of the cooling fan can be adjusted according to the method.

Microwave, Fan Motor, Convection Cooking, Grill Cooking, Multistage Cooling, Cooling Fan

Description

Cooling fan RPM control method for microwave oven

The present invention relates to a microwave oven, and more particularly, to a cooling fan rotation speed control method of a microwave oven for controlling the rotation speed of the cooling fan differently for each cooking method of the microwave oven.

Generally, in a microwave oven, there is a microwave oven having a simple function of placing food on a rotating tray and irradiating high frequency generated from the magnetron into the cooking chamber to cook food by high frequency. In addition to the above high frequency, And a multi-function microwave oven for cooking grills and ovens.

The above-described single-function microwave oven and multi-function microwave oven are divided into a cooking chamber and an electric equipment room to drive various devices installed in the electric equipment room, so that food is cooked by irradiating high frequency into the cooking room or radiating heat from the heater.

In addition, a tray rotated by a tray motor is installed in the lower portion of the cooking chamber to effectively cook food using the high frequency radiated through the waveguide to the cooking chamber. The reason for rotating the tray is that the high frequency radiated to the cooking chamber This is to prevent intensive heating on only one part and to evenly radiate high frequency of food on the tray.

On the other hand, in a multi-functional microwave oven, when cooking foods that need to be cooked for a long time, such as meat in the upper portion of the high frequency, the heater is installed so that the inside and the outside of the meat are cooked by radiant heat emitted from the heater.

The microwave oven generates high frequency using the output of the magnetron as described above, or cooks using a heater, etc. In this case, the cooling fan is always rotated at a constant rotational speed regardless of the output of the magnetron. .

Accordingly, when the output of the magnetron is high, the temperature drop by the cooling fan is not smoothly performed. On the contrary, when the output of the magnetron is low, the temperature inside the cooking chamber is too low, and thus cooking is not smoothly performed.

In particular, in the multi-function microwave oven, there is a need to properly adjust the rotational speed of the cooling fan according to the cooking method by always rotating the cooling fan at a constant rotational speed despite the use of various cooking methods such as magnetron, grill, convection cooking.

The present invention has been made to improve the above-described problems, by providing a plurality of contacts in the coil to the cooling fan motor to adjust the rotational speed of the cooling fan and install a relay at each contact to the relay according to the cooking method It is an object of the present invention to provide a cooling fan rotational speed control method of a microwave oven to selectively turn on or off to adjust the rotational speed of the cooling fan according to the cooking method.

The configuration of the present invention, which is invented to achieve the above-described object, is as follows.

The cooling fan rotation speed control method of the microwave oven of the present invention is provided with a plurality of contacts to adjust the rotation speed of the cooling fan in the cooling fan motor of the microwave oven is equipped with electrical components for cooking food in the cooking chamber. In a method for controlling a cooling fan rotational speed of a microwave oven in which a relay is connected to each contact point to turn on the relay to control the rotational speed of the cooling fan, operation of each electric component according to a cooking method for the food. By selectively turning on the relay according to whether or not the multi-stage control of the rotational speed of the cooling fan according to the operation of each of the electrical components by the cooking method.

Another aspect of the present invention provides a method for controlling the rotation speed of a cooling fan of a microwave oven in a high speed contact provided to rotate a cooling fan at a high speed of a cooling fan motor of a microwave oven equipped with electrical components for cooking food in a cooking chamber. A cooling fan of a microwave oven, in which a second sub relay is connected and a first sub relay is connected to a low speed contact provided to rotate at low speed, thereby turning on the first sub relay and the second sub relay to control the rotation speed of the cooling fan. In the rotational speed control method, the first sub-relay and the second sub-relay selectively turn on according to the operation of each electric component according to the cooking method for the food to each of the electric component by the cooking method Depending on the operation of the cooling fan is characterized in that for rotating at high speed or low speed.

According to the cooking method, when the magnetron radiating high frequency inside the cooking chamber among the electrical components is driven, the second sub relay is turned on.

According to the cooking method, the second sub relay is turned on when a magnetron radiating high frequency inside the cooking chamber and a blower fan for convection heat generated inside the cooking chamber are driven.

According to the cooking method, the first sub relay is turned on when a heater for applying convection heat to the inside of the cooking compartment and a blower fan for convection heat generated inside the cooking chamber are driven according to the cooking method.

According to the cooking method, the second sub in the case of simultaneously driving a magnetron radiating high frequency inside the cooking compartment among the electrical components and a grill motor driving unit for rotating a grill installed in the cooking compartment and a heater applying radiant heat to the cooking chamber at the same time. It is characterized in that the relay is turned on.

According to the cooking method, in the case of sequentially driving a magnetron radiating high frequency inside the cooking compartment among the electrical components and a grill motor driving unit for rotating a grill installed in the cooking compartment and a heater applying radiant heat to the cooking compartment. It characterized in that the sub relay is turned on.

According to the cooking method, the first sub relay or the first sub relay according to the temperature inside the cooking chamber when driving the grill motor driving unit for rotating the grill installed inside the cooking chamber and the radiating heat inside the cooking chamber according to the cooking method. It is characterized by turning on the 2nd sub relay.

The second sub relay is turned on when the temperature inside the cooking chamber is equal to or higher than a predetermined temperature.

The first sub relay is turned on when the temperature inside the cooking chamber is lower than a preset temperature.

According to the present invention configured as described above, by providing a plurality of contacts in the cooling fan motor to adjust the rotational speed of the cooling fan and connecting the relay to each contact to selectively turn on or off the relay according to the cooking method to cook The rotation speed of the cooling fan can be adjusted according to the method.

Hereinafter, a cooling fan rotation speed control apparatus and method of a microwave oven according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a cooling fan rotational speed control apparatus of a microwave oven according to an embodiment of the present invention.

The cooling fan control apparatus of the microwave oven according to the embodiment of the present invention, as shown in Figure 1, the cooling fan motor 10, the first sub relay (SR1), the second sub relay (SR2), the microcomputer 20 The key input unit 30, the high voltage transformer 40, the magnetron oscillator 50, the magnetron 60, the heater driver 70, the grill motor driver 80, the blower fan motor 90 and the temperature sensor 100 Equipped.

First, the cooling fan motor 10 rotates the cooling fan to circulate the outside air and the air inside the cooking chamber, thereby lowering the temperature inside the cooking chamber.

The first sub relay SR1 is connected to the low speed contact of the cooling fan motor 10 to be turned on or off according to the control signal of the microcomputer 20, and the second sub relay SR2 is the cooling fan motor 10. It is connected to the high speed contact of the) is turned on or off in accordance with the control signal of the microcomputer (20). Therefore, when the first sub relay SR1 is turned on, the cooling fan rotates at low speed, and when the second sub relay is turned on, the cooling fan rotates at high speed.

The high voltage transformer 40 generates a high voltage to the secondary coil according to the winding ratio of the primary coil and the secondary coil, and adjusts the time for turning on or off the driving relay (not shown), and the output thereof is controlled. 50 generates the high frequency by oscillating the magnetron 60 through the high voltage input from the high-voltage transformer 40 to cook the food inside the cooking chamber.

The heater driving unit 70 is preferably used to selectively turn on or off a heater divided into an upper heater for generating radiant heat and a lower heater for generating convection heat according to its cooking method, according to the installation position thereof. For example, a combination cooking, convection cooking, and grill cooking drive a heater, and the grill motor driving unit 80 drives the grill motor to cook the grill to rotate the grill located inside the cooking chamber.

When the control signal of the microcomputer 20 is input at the time of the convection cooking, the blowing fan motor 90 circulates the air inside the cooking chamber to drive the blowing fan causing tropical flow.

The key input unit 30 generates a key signal by a user's key operation and is installed on the front panel of the microwave oven to turn on or off the power or input various cooking commands.

The temperature sensor 70 detects a temperature inside the cooking chamber and outputs the temperature to the microcomputer 20.

The microcomputer 20 generally controls the cooling fan rotational speed control device of the microwave oven. When the user inputs a cooking command by key manipulation of the key input unit 30, the food is cooked according to the cooking method corresponding to the cooking command. For example, the high-voltage transformer 40, the heater driving unit 70, the grill motor driving unit 80, the blower fan motor 90, and the like are selectively controlled to drive each of the electric components. By selectively turning on or off the first sub relay SR1 and the second sub relay SR2 according to the cooking method, the rotation speed of the cooling fan is controlled according to the cooking method.

Hereinafter, a method for controlling the cooling fan rotational speed of the microwave oven according to the control process of the microcomputer 20 will be described with reference to FIG. 2.

2 is a flow chart of a cooling fan rotation speed control method of the microwave oven according to an embodiment of the present invention.

According to an embodiment of the present invention, a method for controlling a cooling fan rotation speed of a microwave oven selectively turns on or turns on a first sub relay SR1 and a second sub relay SR2 according to a cooking method according to a cooking command input by a user. Turn off.

That is, after the user turns on the microwave (S10), the food is placed in a tray or a grill inside the cooking chamber, and a cooking command is input by operating a cooking key (S20), the microcomputer 20 sends a cooking command. Cook the food according to the cooking method according to.

First, the user commands a general cooking operation for cooking food by operating only the magnetron.

The microcomputer 20 controls the driving relay of the high-voltage transformer 40 to check whether the cooking method drives only the magnetron, and when the cooking method drives only the magnetron, the magnetron 60 is oscillated through the magnetron oscillation unit 50. In addition, by turning on the second sub relay SR2 (S33) and connecting to the high speed contact, the cooling fan is rotated at high speed.

Thereafter, it is checked whether the cooking time has elapsed (S35), and when the cooking time has elapsed, the driving of the magnetron 60 is stopped, the second sub relay SR2 is turned off, and the cooking process is finished.

When the user drives the magnetron 60 or the heater and drives the blowing fan together to generate a tropical flow inside the cooking chamber according to the driving of the blowing fan to command the convection cooking to perform the cooking.

The microcomputer 20 checks whether the magnetron 60 and the blower fan or the heater and the blower fan are operated.

That is, if the cooking method for driving the magnetron 60 and the blowing fan by checking whether it is a cooking method for driving the magnetron 60 and the blowing fan (S41), by controlling the drive relay for oscillating the magnetron 60, the high-voltage transformer ( A high voltage is output to the secondary coil of 40, and the magnetron oscillator 50 oscillates the magnetron 60, thereby controlling the blower fan 90 to rotate the blower fan.

In addition, the second sub relay SR2 is turned on to be connected to the high speed contact to rotate the cooling fan at high speed. Thereafter, it is checked whether the cooking time has elapsed (S49), and when the cooking time has elapsed, the driving of the magnetron 60 and the blowing fan motor 90 is stopped, and the second sub relay SR2 is turned off.

On the other hand, if the cooking method for driving the heater and the blowing fan by checking whether the cooking method for driving the heater and the blowing fan (S41), the heater driving unit 70 and the blowing fan motor 90 is controlled to drive the heater and the blowing fan. The first sub relay SR2 is turned on and connected to the low speed contact to rotate the cooling fan at low speed. Thereafter, it is checked whether the cooking time has elapsed (S49), and when the cooking time has elapsed, the driving of the heater driving unit 70 and the blowing fan motor 90 is stopped to turn off the first sub relay SR1.

This is a case in which the user inputs a convection cooking command for performing convection cooking for cooking by heating the magnetron 60, the grill motor driving unit 80, and the heater driving unit 70.

The microcomputer 20 checks whether the magnetron 60, the grill motor driver 80, and the heater driver 70 are all operated (S51) so that the magnetron 60, the grill motor driver 80, and the heater driver 70 are operated. If all the operations, the magnetron 60, the grill motor driver 80 and the heater driver 70 is checked at the same time (S53).

When it is determined that the magnetron 60, the grill motor driver 80, and the heater driver 70 operate simultaneously, the magnetron 60, the grill motor driver 80, and the heater driver 70 are controlled to operate the magnetron 60, the grill motor driver 80, and the heater driver 70. 2 Turn on the sub relay SR2 to rotate the cooling fan at high speed.

On the other hand, when the magnetron 60, the grill motor driver 80 and the heater driver 70 do not operate at the same time, and the magnetron 60, the grill motor driver 80 and the heater driver 70 sequentially operates, they are sequentially And the first sub relay SR1 is turned on to rotate the cooling fan at low speed.

After that, it is checked whether the cooking time has elapsed (S59), and when the cooking time has elapsed, the magnetron 60, the grill motor driving unit 80, and the heater driving unit 70 are controlled to stop the driving, and the first sub relay SR1. ) Or turn off the second sub relay SR2.

The user inputs a grill cooking command for driving the grill motor driver 80 and the heater driver 70.

The microcomputer 20 checks whether the grill motor driver 80 and the heater driver 70 are driven (S61), and determines that the microcomputer 20 is a cooking method for driving the grill motor driver 80 and the heater driver 70. One of the first sub relay SR1 and the second sub relay SR2 is selectively turned on according to the temperature inside the cooking chamber input from 100.

That is, it is determined whether the cooking chamber internal temperature is greater than or equal to the set temperature (S63), and if the cooking chamber internal temperature is greater than or equal to the preset temperature, the second sub relay SR2 is turned on (S65) to rotate the cooling fan at high speed, and the cooking chamber internal temperature is set. If less than the temperature, the first sub relay SR1 is turned on (S67) to rotate the cooling fan at low speed.

In addition, it is checked whether the cooking time has elapsed (S69) and when the cooking time has elapsed, the driving of the grill motor driver 80 and the heater driver 70 is stopped, and the first sub relay SR1 or the second sub relay ( Turn off SR2).

As described above, the cooling fan rotation speed control method of the microwave oven according to the embodiment of the present invention is any one of the first sub relay (SR1) and the second sub relay (SR2) according to the cooking method according to the cooking command input by the user. By selectively turning on, the cooling fan's rotation speed appropriate to each cooking method can be maintained.

In the above embodiment, the high speed contact point and the low speed contact point are respectively provided on the cooling fan motor, and the second sub relay and the first sub relay are connected to the high speed contact point and the low speed contact point to control the rotation speed of the cooling fan. Explained.

However, the technical scope of the present invention is not limited thereto, and by providing a plurality of contacts and connecting the relays to the respective contacts to selectively turn on each relay according to the cooking method, more than three-stage control of the cooling fan rotation speed is possible. Will do.

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

1 is a block diagram of a cooling fan rotational speed control apparatus of a microwave oven according to an embodiment of the present invention.

2 is a flow chart of a cooling fan rotational speed control method of the microwave oven according to an embodiment of the present invention.

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

10: cooling fan motor SR1: first sub relay

SR2: Second Sub Relay 20: Micom

30: key input unit 40: high voltage transformer

50: magnetron oscillation unit 60: magnetron

70: heater driving unit 80: grill motor driving unit

90: blower fan motor

Claims (10)

delete The second sub relay is connected to a high speed contact provided to rotate the cooling fan at high speed in a cooling fan motor of a microwave oven equipped with electrical components for cooking food inside the cooking chamber, and a low speed contact provided to rotate at low speed. In one method of controlling a cooling fan rotation speed of a microwave oven, the sub relay is connected to turn on the first sub relay and the second sub relay to control the rotation speed of the cooling fan. The first sub relay and the second sub relay are selectively turned on according to the operation of each electric component according to the cooking method for the food, and the cooling is performed according to the operation of each electric component according to the cooking method. It characterized in that the fan rotates at high speed or low speed, When the magnetron radiating high frequency in the cooking chamber is driven according to the cooking method, the second sub relay is turned on, and in the case of driving a blowing fan for convection heat generated in the magnetron and the cooking chamber. A grill motor for turning on the second sub relay, turning on the first sub relay when the heater and the blower fan to heat the cooking chamber, and rotating the magnetron and the grill installed inside the cooking chamber. When the driving unit and the heater are driven at the same time, the second sub relay is turned on, and when the magnetron, the grill motor driving unit, and the heater are sequentially driven, the first sub relay is turned on, and the grill motor is turned on. When driving the driving unit and the heater according to the temperature inside the cooking chamber Cooling fan rotational speed control method of a microwave oven, characterized in that to turn on any one of the first sub-relay and the second sub-relay. delete delete delete delete delete delete The method of claim 2, wherein the second sub relay is turned on when the temperature inside the cooking chamber is equal to or greater than a predetermined temperature. The cooling fan rotation speed control method of the microwave oven according to claim 2, wherein the first sub relay is turned on when the temperature inside the cooking chamber is lower than a preset temperature.

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