KR100681578B1 - Circuit for controlling fan motor of microwave oven - Google Patents

Abstract

In the present invention, a fan motor control circuit of a microwave oven capable of reducing fan motor noise of a microwave oven is disclosed.

According to the present invention, a control circuit for driving a fan motor of a microwave oven, the control circuit comprising: a fan motor for reducing the room temperature and magnetron temperature of the microwave oven; And a fan motor driving circuit for limiting a current supplied to the fan motor in response to a temperature change of the magnetron, wherein the fan motor driving circuit includes a fixed resistor R having a predetermined value and a temperature variable resistance element connected in parallel. Thereafter, the temperature variable resistance element is connected in series with the fan motor, and the temperature variable resistance element includes a negative thermal coefficient (NTC) in which its resistance rapidly decreases when a temperature is reached.

Therefore, the present invention controls the amount of current supplied to the fan motor according to the temperature change of the magnetron, the fan motor is not operated during the initial operation of the magnetron, when the temperature of the magnetron is a predetermined value, the fan motor is By operating, it provides an effect of reducing the noise during the initial driving of the microwave oven. In addition, there is an effect that can prevent unnecessary waste of the microwave.

Microwave, Fan Motor, Noise, NTC, PTC, Power, Magnetron

Description

Microwave fan motor control circuit {CIRCUIT FOR CONTROLLING FAN MOTOR OF MICROWAVE OVEN}

1 is a view showing a fan motor control circuit of a microwave oven according to the present invention.

Figure 2 shows a fan motor control circuit of a microwave oven according to another embodiment of the present invention.

3 is a view for explaining the installation position of the temperature variable resistance element according to the present invention.

<Explanation of symbols for main drawings>

101: fan motor 105: fan motor driving circuit

R: Fixed resistance NTC, PTC, 303: Temperature variable resistance element

301: magnetron

The present invention relates to a microwave oven, and more particularly, by connecting a cooling fan motor of a microwave oven and a temperature variable resistance element in series to stop the operation of the cooling fan during the initial operation of the magnetron, thereby driving unnecessary fan motors and The present invention relates to a fan motor control circuit of a microwave oven capable of reducing noise.

In general, a microwave oven is a home appliance that cooks food by high frequency emitted from a magnetron, and includes: a cavity thermostat that senses overheating of a cooking chamber during cooking and stops the operation of the microwave when overheating; A first door switch, a door open detection switch, and a monitor switch turned off when the door is closed; A low voltage transformer (L.V.T), a main relay and a sub relay installed on a control board equipped with a microcomputer; An internal lamp, a tray motor, and a cooling fan motor driven by an on operation of the switch of the main / sub relay; A high voltage transformer (H.V.T) for outputting a high voltage; The high voltage capacitor (H.V.C) for rectifying the high voltage alternating current (AC) and a high voltage diode and a magnetron (MG) for outputting a high frequency by applying a rectified direct current.

The microwave oven is driven by the driving circuit configured as described above. When the cooking function and the cooking time are selected after the door is closed, power is supplied to the low voltage transformer (LVT) of the control board to switch on the main relay and the sub relay. When cooking or when the door is open, the interior lamp is lit to illuminate the dark cooking compartment. The tray motor also rotates the food to indirectly disperse the microwaves in the microwave. A cooling fan motor (FM) for rotating the cooling fan to cool the magnetron is driven, and the input AC power is applied to the high voltage transformer (HVT) through the main relay switch so that the AC high voltage is supplied through the high voltage capacitor (HVC) and the high voltage diode. The rectified and applied to the magnetron MG, the magnetron MG outputs a high frequency to cook food. Cooling fan motor (FM) is positioned as an important device to cool the high heat generated in the magnetron.

Here, although the cooling fan is an essential device for cooling the magnetron oscillating high frequency, noise is generated when the cooling fan motor is driven, and noise caused by the rotation of the cooling fan is also annoying. This problem reduces the product completeness of the microwave oven.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a fan motor control circuit of a microwave oven that can reduce the noise caused by the operation of the cooling fan by controlling the cooling fan rotation of the microwave oven. have.

In addition, another object of the present invention for achieving the above object is to provide a fan motor control circuit of a microwave oven which can improve product productivity by applying a simple circuit without using expensive components.

A fan motor control circuit of a microwave oven according to an aspect of the present invention for achieving the above object is a control circuit for driving a fan motor of a microwave oven, the fan motor for reducing the high chamber and magnetron temperature of the microwave; And a fan motor driving circuit for limiting a current supplied to the fan motor in response to a temperature change of the magnetron, wherein the fan motor driving circuit has a fixed value (R) of a predetermined value and a temperature variable resistance element connected in parallel. After that, it is connected in series with the fan motor, the temperature-variable resistance element is characterized in that the negative thermal coefficient (NTC) is a self-resistance is sharply lowered when the temperature reaches a predetermined value.

delete

In addition, the fan motor driving circuit is connected in parallel with the fan motor after a fixed resistance (R) having a predetermined value and a temperature variable resistance element are connected in series, and the temperature variable resistance element itself reaches a predetermined temperature. It is characterized in that the PTC (Positive thermal coefficient) that the resistance is sharply increased.

Hereinafter, the fan motor control circuit of the microwave oven according to the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram showing a fan motor control circuit according to the present invention. 2 is a fan motor control circuit diagram according to another embodiment of the present invention. As shown, the fan motor 101 for reducing the chamber and magnetron temperature of the microwave oven, and the fan motor driving circuit for limiting the current supplied to the fan motor 101 in response to the temperature change of the magnetron It consists of 105.

The fan motor driving circuit 105 has a fixed resistance (R) of a predetermined value and a temperature variable resistance element are connected in parallel, and when the temperature variable resistance element reaches a predetermined temperature, its resistance decreases rapidly. thermal coefficient is preferred. In addition, the temperature variable resistance element is mounted on the magnetron surface of the microwave oven, and directly detects a temperature change of the magnetron.

The fixed resistor (R) is for reducing the amount of current supplied to the fan motor 101 during the initial operation of the microwave oven, the fan motor 101 during the initial operation of the microwave oven according to the resistance value setting of the fixed resistor (R). The rotational speed of can be determined. For example, when the temperature variable resistance element is an NTC, the NTC maintains a high resistance value when the temperature of the magnetron is not increased during the initial operation of the microwave oven, and the AC power source AC is a fan motor driving circuit. It is supplied to the fan motor 101 via the fixed resistor R of 105.

Therefore, the fan motor 101 receives a current inversely proportional to the combined resistance of the internal resistance r and the fixed resistor R, thereby reducing the rotational speed of the fan motor 101. Subsequently, when the temperature of the magnetron rises due to the continuous driving of the microwave oven, the resistance of the temperature variable resistance element, that is, NTC, drops rapidly. As a result, the total resistance of the fan motor driving circuit 105 is induced by parallel synthesis of the fixed resistance R and the resistance of NTC. This is because the resistance of the NTC is low, the synthesis resistance of the fan motor drive circuit 105 is sharply lowered, so the amount of current supplied to the fan motor 101 is increased to increase the rotational speed of the fan motor 101.

In this way, the fixed resistance (R) may determine the rotational speed of the fan motor 101 during the initial driving of the microwave oven, and sets the initial rotational speed of the fan motor 101 in inverse proportion to the resistance value of the fixed resistance (R). do. If necessary, when the fixed resistance (R) is infinity, that is, when removing the fixed resistance (R), the rotational speed of the fan motor 101 during the initial operation of the microwave oven becomes '0' and unnecessary fan motor 101 ) Can be stopped. This eliminates unnecessary fan motor noise.

Meanwhile, another embodiment of the present invention is shown in FIG. 2, and the fan motor 101 and the fan motor driving circuit 105 of the microwave oven described above are connected in parallel.

In the fan motor driving circuit 105 according to another embodiment of the present invention, a fixed resistor R and a temperature variable resistor are connected in series, and in this case, a PTC (Positive Thermal Coefficient) is preferable. Do. The PTC maintains a low resistance value when the temperature of the microwave oven, that is, the magnetron according to the initial operation of the microwave is lower than the reference value, and when the temperature of the magnetron rises above the reference value, the internal resistance of the PTC increases rapidly. do.

Therefore, the AC power supplied to the microwave is supplied in parallel to the fan motor driving circuit 105 and the fan motor 101, and is supplied to the fan motor 101 and the fan motor driving circuit 105. Remains the same.

At this time, according to the initial operation of the microwave oven, the temperature variable resistance element (PTC) maintains a low resistance value, so that the total resistance of the fan motor driving circuit 105 has a resistance value similar to the fixed resistance (R). Thus, the current supplied to the fan motor 101 is supplied in proportion to the resistance of the fan motor driving circuit 105, that is, the size of the fixed resistor R. For example, when the fixed resistance R is large, the amount of current supplied to the fan motor 101 is increased, and thus the rotation speed according to the initial operation of the fan motor 101 is increased.

This setting of the fixed resistance (R) is to add the initial rotational speed of the fan motor 101 according to the initial operation of the microwave oven, as described above the rotation of the fan motor 101 during the initial operation of the microwave oven The speed can be varied according to the resistance of the fixed resistor R. Of course, in order to set the speed of the fan motor 101 to '0' during the initial operation of the microwave, that is, to prevent the fan motor 101 from operating, the fixed resistor R may be removed to connect only PTC. Since this impairs the stability of the circuit, it would be desirable to connect the above-mentioned fixed resistor R.

Looking at the operation according to another embodiment of the present invention configured as described above are as follows.

First, when the magnetron generates heat according to the initial operation of the microwave oven, the AC power source AC is supplied to the fan motor driving circuit 105 and the fan motor 101 in parallel. In addition, as the temperature variable resistance element PTC maintains a low resistance value, the total resistance value of the fan motor driving circuit 105 approaches the fixed resistance R. As shown in FIG.

Therefore, the current of the AC power source AC supplied to the fan motor 101 is supplied in proportion to the overall resistance of the fan motor driving circuit 105. That is, the amount of current supplied to the fan motor 101 is inversely proportional to the synthesis resistance of the internal resistance r of the fan motor and the total resistance of the fan motor driving circuit 105, and is proportional to the synthesis resistance. As a result, when it is desired to lower the rotation speed of the fan motor 101 during the initial operation of the microwave oven, the fixed resistance R is lowered to reduce the amount of current supplied to the fan motor 101.

For this reason, during the initial operation of the microwave oven, the rotational speed of the fan motor 101 is lowered to lower the operation noise of the microwave oven. On the other hand, when the heating state of the magnetron exceeds the reference value by the continuous operation of the microwave oven, the resistance value of the temperature variable resistance element (PTC) rises rapidly.

This increases the amount of current supplied to the fan motor 101, resulting in an increase in the rotational speed of the fan motor 101. Therefore, when the magnetron temperature of the microwave oven is increased, the fan motor 101 is operated to lower the temperature of the magnetron. Here, as shown in FIG. 3, the temperature variable resistance element of the fan motor driving circuit 105 may be mounted on the surface of the magnetron to directly detect the temperature of the magnetron.

As described above, the cooling fan control circuit of the microwave oven according to the present invention includes a fan motor driving circuit connected in series or in parallel with the fan motor of the microwave oven, the fan motor driving circuit is a fan according to the temperature change of the magnetron By controlling the amount of current supplied to the motor, the fan motor is not operated during the initial operation of the magnetron and the fan motor is operated when the temperature of the magnetron is higher than a predetermined value, thereby reducing the noise during the initial operation of the microwave oven. do. In addition, there is an effect that can prevent unnecessary waste of the microwave.

While the invention has been shown and described with respect to specific preferred embodiments thereof, the invention is not limited to the embodiments described above, and is commonly used in the art to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Anyone with knowledge will be able to make various variations.

Claims (4)

delete In a control circuit for driving a fan motor of a microwave oven, A fan motor for reducing the chamber and magnetron temperature of the microwave oven; And The fan motor driving circuit for limiting the current supplied to the fan motor in response to the temperature change of the magnetron, The fan motor driving circuit, After a fixed resistance (R) of a predetermined value and a temperature variable resistance element are connected in parallel, they are connected in series with the fan motor, and the temperature variable resistance element is NTC (Negative) in which its resistance rapidly decreases when reaching a predetermined temperature. and a thermal motor). In a control circuit for driving a fan motor of a microwave oven, A fan motor for reducing the chamber and magnetron temperature of the microwave oven; And The fan motor driving circuit for limiting the current supplied to the fan motor in response to the temperature change of the magnetron, The fan motor driving circuit, After a fixed value (R) of a predetermined value is connected in series with the temperature variable resistance element and then connected in parallel with the fan motor, the temperature variable resistance element is PTC (Positive) whose self-resistance is rapidly increased when the temperature reaches a predetermined value. and a thermal motor). 4. The fan motor control circuit according to claim 2 or 3, wherein the temperature variable resistance element is mounted on a magnetron surface of the microwave oven.

Images