KR0131971B1 - Temperature control device of microwave oven - Google Patents

Abstract

In the temperature control device in accordance with an environment of a microwave oven, the first and the second magnetron temperature switches (1 and 2) setting off temperatures therof differently from each other in preparation for the cases that an environmental temperatures is normal and that it is abnormal is attached to a magnetron, and a temperature sensor (7) is installed to a wind guiding part, wherein a controller senses the temperature of the inflow air to control a temperature switch relay (RY1) according to the environmental temperature, thereby selecting one of the first and the second magnetron temperature switches (1 and 2).

Description

Temperature control device according to environment of microwave oven

1 is a temperature control driving circuit diagram of a conventional microwave oven.

2 is a temperature control driving circuit diagram of a microwave oven according to the present invention.

＊ Explanation of symbols for main parts of drawing

1,2: magnetron temperature switch 3: oven temperature switch

4: high pressure transformer 5: low pressure transformer

6: control circuit 7: temperature sensor

RY1-RY3: Relay

The present invention relates to the temperature control of the microwave oven according to the use environment, in particular, the temperature according to the environment of the microwave oven to automatically respond to the ambient temperature by automatically selecting a temperature switch having a different rating according to the ambient temperature in which the microwave oven is installed It relates to a control device. In the conventional microwave temperature control driving circuit, as shown in FIG. 1, the input power is supplied through the magnetron temperature switch (MTH) and the oven temperature switch (OTH), and then the primary and secondary door safety switches (SW1) and (SW2). It is input to each load (eg turntable motor, fan motor, heater, etc.) and the high voltage transformer (HVT) of the high-pressure part through the monitor, and between the rear end of the primary and secondary door safety switch (SW1) (SW2) M-SW) is connected and configured. In such a conventional microwave oven, the magnetron temperature switch (MTH) is attached to the magnetron of the microwave oven, and is automatically turned off by a bimetal when the magnetron is overheated at no load operation or light load, and cut off the power supplied to each load. This protects parts and prevents overheating of the product. In addition, the oven temperature switch (OTH) is attached to the upper part of the cavity of the exhaust port side of the microwave oven to cut off the power in the event of a fire in the cooking chamber. However, in the above microwave oven, the temperature at which the oven temperature switch is operated is set higher than the temperature at which the magnetron temperature switch is operated, and when the operating temperature of the magnetron temperature switch is determined, the ambient temperature is 20 ° C ± 5 ° C. SPEC is determined and the OFF temperature specification when the magnetron is overheated according to the light and no load conditions based on the temperature at which 20 ℃ ± 5 ℃ outside air is sucked to cool the magnetron. Will be determined. However, although the off temperature of the magnetron temperature switch was determined based on an ambient temperature of 20 ° C ± 5 ° C, a temperature exceeding 20 ° C ± 5 ° C due to hot weather or the surrounding environment. Since the magnetron is cooled by inhaling air at 40 ° C, the cooling effect is reduced and overheating occurs. Accordingly, depending on the installation location of the user, the operating environment is poor (for example, when the microwave oven is stored in a badly ventilated cupboard, etc.) and the abnormal temperature phenomenon causes the ambient temperature to be the standard when determining the specification of the temperature switch. In the case of much higher than 20 ° C ± 5 ° C), the magnetron temperature switch is continuously off, there is an unreasonable problem that the product can not be used. However, if the specification of magnetron's temperature switch is decided based on the ambient temperature of 40 ℃, normal operation can be performed even under abnormal temperature phenomenon or poor use condition, but the ambient temperature is normal (ex: 20 ℃ ± 5 ℃) is also controlled by the temperature specification determined based on 40 ℃, the overheat state can be continued in the usual, there is a problem that the life and reliability of the product may be reduced if the product is used for a long time in this state. An object of the present invention is controlled by a magnetron temperature switch having a normal temperature specification when the ambient temperature is normal, and controlled by a magnetron temperature switch having a large temperature specification only when the ambient temperature is an abnormal temperature. It is an object to provide a temperature control device. The object of the present invention is to install the first and second magnetron temperature switch different from each other when the ambient temperature is normal and abnormal temperature, respectively, and to adjust the temperature of the suction air sucked into the microwave oven. A temperature sensor for detecting is installed, and the first and second magnetron temperature switches are selected under the control of a controller that generates a temperature switch selection control signal according to whether the ambient temperature is normal or elevated temperature. It is achieved by installing and configuring a temperature switch relay for forming a power loop of the driving circuit. According to the present invention, the magnetron temperature switch is selected according to the ambient temperature so that the driving circuit is controlled, so that the temperature can withstand the high temperature. Longevity and reliability of parts compared to one temperature switch with high specification The will of being able to obtain. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is a microwave driving circuit diagram having a temperature control function according to an environment according to the present invention, and as shown therein, after the input power is passed through the first magnetron temperature switch 1 and the oven temperature switch 3, a start relay is performed. It is connected to each load (eg turntable motor, fan motor, heater, etc.) through the switch RY2a and through the primary and secondary door safety switches S / W1 and S / W2. RY3a) is connected to the high voltage transformer (HVT) 4 of the high voltage part again, and the monitor switch M-SW is connected between the rear ends of the primary and secondary door safety switches SW1 and SW2. One input power source is connected to the low voltage transformer (LVT) 5 so that the secondary output of the low voltage transformer 5 is supplied to each part and the control circuit 6 on the printed circuit board, and to the controller in the control circuit 6. Start relay RY2 and output control relay RY3 are controlled. In the general microwave driving circuit configured as described above, the second magnetron temperature switch 2 capable of coping with the abnormal temperature with an off temperature specification higher than the off temperature specification of the first magnetron temperature switch 1 includes the first magnetron temperature. Attached to the magnetron together with the switch 1 and connected in parallel, a temperature sensor 7 capable of detecting the temperature of the intake air of the microwave oven is installed in the fan motor side wind guide unit. The temperature sensing value is applied by a controller in the control circuit 6 to compare with a preset reference temperature value to generate a control signal for selecting any one of the first and second magnetron temperature switches 1 and 2. And a temperature switch relay RY1 controlled by the temperature switch selection signal of the control circuit 6, and described above by the off contact b1-b2 of the temperature switch relay RY1. The driving circuit is connected through the first magnetron temperature switch 1, and the driving circuit is connected through the second magnetron temperature switch 2 by the on-contact a1-a2 of the temperature switch relay RY1. Configure to The temperature control device according to the surrounding environment of the microwave oven according to the present invention configured as described above, two magnetron temperature switch (1) (2) is attached to the magnetron, the temperature sensor (7) is installed inside the wind, the controller Sensing air temperature and controlling the temperature switch relay (RY1) according to the ambient temperature, characterized in that configured to select any one of the two magnetron temperature switch (1) (2), the first magnetron temperature switch ( 1) installs the temperature switch (thermostat) which determines the off temperature on the basis of the off temperature specification similar to the normal temperature switch, that is, the intake air temperature of ambient temperature is 20 ° C ± 5 ° C, and the second magnetron temperature. The switch 2 has an off temperature higher than the off temperature of the first magnetron temperature switch 1, that is, the temperature of the intake air at ambient temperature is about 30 ° C ± 5 ° C. Install a temperature switch that determines the temperature. In addition, the controller in the control circuit 6 senses the temperature of the air sucked for cooling the components while the fan motor rotates through the temperature sensor 7 attached to the wind guide, and the microwave oven is stopped. In other words, when the fan motor is stopped and the main power is applied, the temperature of the air intake is sensed and the temperature switch relay RY1 is turned on when the temperature is higher than a predetermined temperature. If the temperature is less than a certain temperature, the controller keeps the above-mentioned temperature switch relay RY1 in the off state, and therefore, the temperature switch relay RY1 is short-circuited to the off contact b1-b2 to maintain the first magnetron temperature switch. The driving circuit is connected via (1), and thus temperature control is performed by the first magnetron temperature switch 1 whose off temperature is determined on the basis of the ambient temperature of 20 ° C ± 5 ° C as in the conventional microwave oven. The reason why the relay is turned on at the abnormal temperature is mainly to operate at normal ambient temperature, and because the abnormal temperature is a temporary phenomenon, it is to reduce the current consumption for driving the temperature switch relay RY1. Even when RY1) is not operated due to a failure or failure, the first magnetron temperature switch 1 having a low temperature specification is shorted by the mechanical spring force to prevent overheating. On the other hand, when the abnormal temperature phenomenon or the ambient temperature of the place where the microwave oven is installed is higher than normal (e.g., 30 ° C ± 5 ° C), the controller turns on the above-mentioned temperature switch relay RY1, and thus the temperature switch relay RY1. ) Is maintained in a short-circuit state at the on-contact points (a1-a2) so that the driving circuit is connected through the second magnetron temperature switch (2), and accordingly, a second off temperature is determined based on an ambient temperature of 30 ° C ± 5 ° C. Temperature control is performed by the magnetron temperature switch 2. Therefore, it is possible to solve the problem that the normal microwave oven cannot be used because the magnetron temperature switch is continuously turned off according to the surrounding environment without raising the temperature specification of the entire microwave oven for the abnormal condition of the ambient temperature environment. Since only a temperature switch with a high temperature specification is used in the case of a temperature phenomenon, if only one temperature switch with a high off temperature is used, it is controlled by a high off temperature even at a normal temperature. In the present invention, since it is controlled at a high off temperature only in the case of abnormal temperature phenomenon, it is possible to prevent the overheating of the magnetron to prolong the life of the product and parts and to ensure the reliability.

Claims (3)

In response to the case where the ambient temperature is normal and the abnormal temperature, the first and second magnetron temperature switches 1 and 2 having different off temperatures are attached to the magnetron, and the temperature sensor 7 is mounted on the wind guide unit. The controller is configured to select one of the first and second magnetron temperature switches (1) and (2) by sensing the intake air temperature in the controller and controlling the temperature switch relay (RY1) according to the ambient temperature. Temperature control device according to the environment of the microwave oven. The method of claim 1, wherein the first magnetron temperature switch 1 is a thermostat that determines the off temperature for preventing overheating on the basis of the intake air temperature of 20 ° C ± 5 ° C, the second magnetron temperature switch), Temperature control device according to the environment of the microwave oven, characterized in that the thermostat determined the off temperature for preventing overheating on the basis of the case where the temperature of the suction air is about 30 ℃ ± 5 ℃. The first magnetron temperature switch 1 having an off temperature corresponding to a normal ambient temperature is selected through the off contact b1-b2 of the temperature switch relay RY1, and the temperature switch relay According to the environment of the microwave oven, it is connected and configured to select the second magnetron temperature switch 2 having an off temperature corresponding to the ambient temperature at the time of abnormal temperature through the on contact a1-a2 of RY1. Temperature controller.