KR200197579Y1 - Driving circuit of low voltage fan motor of microwave range - Google Patents

Abstract

The present invention relates to a low voltage fan motor driving circuit of a microwave oven, and conventionally, since cooking is exhausted by only operating the fan motor for a predetermined time after completion of cooking, there is a problem in that the overall cooking time is long and power consumption is also increased.

Therefore, the present invention and the transformer 10 for converting the input AC power supply AC 220V / 110V to a predetermined level of AC power (AC 20V); An AC-DC converter 20 for full-wave rectifying and smoothing the low voltage AC power converted by the transformer 10 to a DC voltage; A low voltage converter 30 for making the DC voltage obtained by the AC-DC converter 20 into a low voltage; A constant voltage generator 40 for making the low voltage obtained by the low voltage converter 30 into a constant voltage; A microcomputer 50 for driving with a constant voltage obtained from the constant voltage generator 40 and controlling the high voltage to be supplied to the fan motor 80 during cooking and the low voltage to be supplied to the fan motor 80 after the cooking is completed; A high voltage supply unit 60 supplying a high voltage to the fan motor 80 during the cooking operation according to the high voltage control signal output from the microcomputer 50; According to the low voltage control signal output from the microcomputer 50, the low voltage supply unit 70 is configured to supply a low voltage to the fan motor 80 after completion of cooking, thereby shortening the cooking time and efficiently discharging water vapor.

Description

Low Voltage Fan Motor Drive Circuit of Microwave Oven

The present invention relates to a low-voltage fan motor driving circuit of a microwave oven, and more specifically, when cooking is completed, the fan motor is driven at a low voltage to discharge steam without noise, and when the door is opened to take out food, It is to provide a low voltage fan motor driving circuit of a microwave oven which shortens the cooking time and efficiently discharges moisture by controlling the fan motor by stopping the fan operation.

In general, a microwave oven is an electronic device that cooks food using high frequency oscillated from a magnetron, and includes a thawing function, a warming function, and a cooking function by a multi-stage output of the magnetron.

In addition to the magnetron, there is a grill cooking function using a heater and a combination function using a heater and a magnetron at the same time. There is also an oven function for circulating hot air inside a cooking chamber with a convection heater and a convection pan installed at the rear of the cooking chamber.

In such a microwave oven, the cooking method is a sensor type automatic cooking control method that detects humidity generated from a food according to heating by using a humidity sensor and automatically controls cooking time, and cooking amount according to cooking name and serving. There is a program type automatic cooking control method that finds the cooking time set by experiment in advance and controls the heating during the cooking time by manually inputting.

In order to cook in a microwave oven as described above, the food is put into the cooking chamber with the power connected, the door is closed, the output level is selected, the cooking function is selected, and the start key is pressed to start cooking.

When the microwave oven is installed and the cavity lamp is being installed, the cavity lamp is turned on when cooking, and the cooking state of the food can be checked from the outside, and the food can be easily introduced into or taken out of the cooking chamber before or after cooking. The cavity lamp will light automatically when the door is opened.

On the other hand, in the case of cooking food using the above-mentioned conventional microwave oven, the user inserts the food into the cooking chamber in a state in which the user already knows the cooking condition of the food in advance, and the cooking time and the output level of the magnetron manually from the outside. To adjust the cooking.

However, such a general microwave oven, when cooking is completed, water vapor rises from the intake port, causes moisture in the display unit, and causes a migration phenomenon of the printed circuit board (PCB).

Therefore, in order to solve this problem, conventionally, only the fan motor was operated for a predetermined time after the completion of cooking forcibly discharging water vapor, but this forced exhaust time is included in the total time of cooking, which takes a long time to cook the actual food. It caused a problem.

In addition, even though the cooking of food is finished, the set (SET) is operated only for the discharge of water vapor, thereby increasing the power consumption, thereby providing an economic burden to the user.

Accordingly, an object of the present invention is to solve a conventional problem, and to provide a low voltage fan motor driving circuit of a microwave oven that discharges water vapor without noise by driving a fan motor at a low voltage after food cooking is finished. .

Another object of the present invention is to provide a low-voltage fan motor driving circuit of a microwave oven to shorten the cooking time and efficiently discharge moisture by stopping the pan operation as soon as the door is opened to take out food while driving the fan motor at low voltage. In providing.

Objects of the present invention as described above, the transformer for converting the input AC power to a predetermined level AC power; An AC-DC converter for full-wave rectifying and smoothing the low-voltage AC power converted by the transformer to DC voltage; A low voltage converter for making a DC voltage obtained by the AC-DC converter low; A constant voltage generator for making the low voltage obtained by the low voltage converter into a constant voltage; A microcomputer which is driven at a constant voltage obtained from the constant voltage machine and controls the high voltage to be supplied to the fan motor during cooking and the low voltage is supplied to the fan motor after the cooking is completed; A high voltage supply unit supplying a high voltage to the fan motor during a cooking operation according to a high voltage control signal output from the microcomputer; According to the low voltage control signal output from the micom is achieved by having a low voltage supply for supplying a low voltage to the fan motor after the completion of cooking.

1 is a low voltage fan motor driving circuit according to the present invention.

Explanation of symbols for the main parts of the drawings

10: transformer 20: AC-DC converter

30: low voltage converter 40: constant voltage

50: micom 60: high voltage supply

70: low voltage supply unit 80: fan motor

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings as a preferred embodiment to effectively achieve the object of the present invention.

1 is a configuration diagram of a low voltage fan motor driving circuit of a microwave oven according to the present invention.

As shown therein, a transformer 10 for converting an input AC power supply AC 220V / 110V into an AC power supply AC20V having a predetermined level; An AC-DC converter 20 for full-wave rectifying and smoothing the low voltage AC power converted by the transformer 10 to a DC voltage; A low voltage converter 30 for making the DC voltage obtained by the AC-DC converter 20 into a low voltage; A constant voltage generator 40 for making the low voltage obtained by the low voltage converter 30 into a constant voltage; A microcomputer 50 for driving with a constant voltage obtained from the constant voltage generator 40 and controlling the high voltage to be supplied to the fan motor 80 during cooking and the low voltage to be supplied to the fan motor 80 after the cooking is completed; A high voltage supply unit 60 supplying a high voltage to the fan motor 80 during a cooking operation according to a high voltage control signal output from the microcomputer 50; After the completion of cooking according to the low voltage control signal output from the microcomputer 50 is composed of a low voltage supply unit 70 for supplying a low voltage to the fan motor 80.

In the above, the AC-DC converter 20 smoothes the bridge diode BD for full-wave rectification of the AC power output from the secondary side of the transformer 10 and the voltage rectified in the bridge diode BD. It consists of the smoothing capacitor C1 which outputs with a DC voltage.

In addition, the low voltage converter 30 includes resistors R1 and R2 for dividing the DC voltage obtained by the AC-DC converter 20 to a low voltage.

In addition, the high voltage supply unit 60 operates at the time of turn-on of the switching element Q1 and the switching element Q1 that are switched according to the high voltage supply control signal output from the microcomputer 50 to the fan motor 80. It consists of a relay (RY1) for supplying a high voltage obtained from the AC-DC converter 20.

In addition, the low voltage supply unit 70 operates at the time of turn-on of the switching element Q2 and the switching element Q2 that are switched according to the low voltage supply control signal output from the microcomputer 50 to the fan motor 80. It consists of a relay (RY2) for supplying a low voltage obtained from the low voltage conversion section 30 to.

In the low voltage fan motor driving circuit according to the present invention having such a configuration, first, the AC power supply AC110V / 220V input from the transformer 10 is dropped to a low power supply according to the number of turns of the coil, and the AC-DC converter 20 ) And full-wave rectification of the AC power induced to the secondary side of the transformer 10 to the bridge diode (BD). Then, the full-wave rectified power is smoothed by the smoothing capacitor C1 to produce a DC high voltage of 24V and output to the rear stage.

The high voltage thus output is divided by the voltage divider R1 and R2 in the low voltage converter 30 to be converted into a low voltage 12V, and is converted into a constant voltage of 5V in the constant voltage converter 40 to be driven by the microcomputer 50. Apply with power.

When cooking in this state, the microcomputer 50 outputs a high signal as a high voltage output control signal only to port 1 (P1), and outputs a low signal to port 2 (P2) to operate the low voltage supply unit 70. Stop it.

In the high voltage supply unit 60, the switching element Q1 is turned on by a high signal output to the port 1 P1, and the relay RY1 is formed according to the turn-on of the switching element Q1. DC power of 12V flows to the coil to operate the relay switch.

The DC motor high voltage (24V) output from the AC-DC conversion unit 20 by the operation of the relay switch is supplied to the fan motor 80 via the operating relay RY1 so that the fan motor 80 is being cooked. Is operated by a high voltage to discharge water vapor.

When the cooking is completed while cooking in this operation, the microcomputer 50 transitions the high voltage supply control signal output to the port 1 (P1) to a low signal to turn off the operation of the high voltage supply unit 60. A high signal is output to port 2 (P2) so that the low voltage supply unit 70 is driven.

That is, in the low voltage supply unit 70, the switching element Q2 is turned on by the high signal output to the port P2, and the relay RY2 is formed by the turn-on of the switching element Q2. The current flows through the relay coil, and the relay switch operates by the current flowing through the relay coil to supply the low voltage 12V generated by the low voltage converter 30 to the fan motor 80.

When the low voltage is supplied to the fan motor 80, the fan motor 80 drives the fan in a state where there is no noise, and the user opens the door while driving the fan in the state where there is no noise as described above to discharge water vapor. When opening the microcomputer 50 immediately transitions the high signal output to the port 2 (P2) to a low signal.

The switching device Q2 in the low voltage driver 70 is turned off by the low signal, thereby driving the fan motor 80 by turning off the relay RY2 to cut off the low voltage supplied to the fan motor 80. Is stopped.

As described above, the present invention applies the high voltage to the fan motor during cooking to discharge water vapor, and when the cooking is completed, the water vapor is discharged without noise by applying a low voltage to the fan motor. .

In addition, when the user opens the door in the state of discharging the steam without noise after completion of cooking, there is an advantage that can reduce the power consumption while reducing the overall cooking time by stopping the drive of the fan motor.

Claims (5)

A transformer 10 for converting an input AC power supply AC 220V / 110V into an AC power supply AC20V having a predetermined level; An AC-DC converter 20 for full-wave rectifying and smoothing the low voltage AC power converted by the transformer 10 to a DC voltage; A low voltage converter 30 for making the DC voltage obtained by the AC-DC converter 20 into a low voltage; A constant voltage generator 40 for making the low voltage obtained by the low voltage converter 30 into a constant voltage; A microcomputer 50 for driving with a constant voltage obtained from the constant voltage generator 40 and controlling the high voltage to be supplied to the fan motor 80 during cooking and the low voltage to be supplied to the fan motor 80 after the cooking is completed; A high voltage supply unit 60 supplying a high voltage to the fan motor 80 during a cooking operation according to a high voltage control signal output from the microcomputer 50; Low voltage fan motor driving circuit of the microwave oven, characterized in that it comprises a low voltage supply unit 70 for supplying a low voltage to the fan motor 80 after the completion of cooking according to the low voltage control signal output from the microcomputer (50). According to claim 1, The AC-DC converter 20, Bridge diode (BD) for full-wave rectifying the AC power output from the secondary side of the transformer 10, Full-wave rectification in the bridge diode (BD) A low voltage fan motor driving circuit of a microwave oven, comprising: a smoothing capacitor (C1) for smoothing the output voltage and outputting the DC voltage. The microwave oven of claim 1, wherein the low voltage converter 30 comprises resistors R1 and R2 for dividing the DC voltage obtained by the AC-DC converter 20 to a low voltage. Low voltage fan motor driving circuit. According to claim 1, The high voltage supply unit 60, The switching element Q1 is switched in accordance with the high voltage supply control signal output from the microcomputer 50, The switching element Q1 operates during the turn-on Low-voltage fan motor driving circuit of the microwave oven, characterized in that consisting of a relay (RY1) for supplying a high voltage obtained from the AC-DC converter 20 to the fan motor (80). The low voltage supply unit 70 of claim 1, wherein the low voltage supply unit 70 is operated according to a switching element Q2 switched according to a low voltage supply control signal output from the microcomputer 50, and when the switching element Q2 is turned on. Low voltage fan motor driving circuit of the microwave oven, characterized in that consisting of a relay (RY2) for supplying a low voltage obtained from the low voltage conversion unit 30 to the fan motor (80).