KR20090071261A - Microwave oven - Google Patents

Abstract

A microwave oven is provided to control output of magnetron because the first winding number of the high-voltage transformer is changed so the second output voltage is controlled. A microwave oven comprises a magnetron(MGT1) which generates high frequency wave; a high-voltage transformer(HVT1) which outputs different voltages according to the power source inputted to a first input terminal(I1) or a second input terminal(I2); and a thermostat(TM1) which is switched according to the temperature of the magnetron so that the power source is applied to one with the first input node and the second input terminal among the respective connected second terminal(NO) and the first terminal(NC). According to switching of the thermostat, winding ratio of the high-voltage transformer is changed.

Description

Microwave {MICROWAVE OVEN}

The present invention relates to a microwave oven, and more particularly, to a microwave oven capable of controlling the output of the magnetron by controlling the output voltage of the transformer by switching the thermostat according to the temperature of the magnetron.

A microwave oven is an electronic cooking device that warms food by projecting high frequencies directly onto food to activate molecular activity in the food.

In general, a microwave oven includes a magnetron that generates a high frequency, a high voltage transformer (HVT), a plurality of relays, and a bottom of a cooking chamber, which are powered to boost the voltage to a high voltage required for driving the magnetron. And a tray motor for rotating the tray, a cooling fan for preventing the inside of the cooking chamber from overheating, a microcomputer for overall control, and the like.

As such, the microwave oven includes high voltage components such as high voltage transformers and magnetrons, so that multiple safety devices are used to protect the user from accidents.

In a conventional microwave oven as described above, the temperature of electronic components such as high voltage transformer and magnetron increases as the cooking time elapses. In particular, the magnetron is an electronic component that generates a lot of heat, and its output decreases due to overheating. In many cases, other electronic components were deteriorated by heat. By the way, the high-voltage transformer providing the voltage to the magnetron has the same output, so that the output of the magnetron could not be adjusted to prevent overheating.

Accordingly, the present invention has been made to solve the above problems, and an object thereof is to provide a microwave oven capable of controlling the output of the magnetron by controlling the output voltage of the transformer by the thermostat according to the temperature of the magnetron. .

The present invention to achieve the above object is a magnetron for generating a high frequency; A high voltage transformer for outputting different voltages according to power input to the first input terminal or the second input terminal; The present invention provides a microwave oven including a thermostat switched according to a temperature of the magnetron so that power is applied to any one of a second end and a first end respectively connected to the first input end and the second input end.

Microwave according to the present invention by controlling the output voltage of the transformer by the switching of the thermostat according to the temperature of the magnetron to adjust the output of the magnetron, it is possible to prevent the degradation of the magnetron output due to overheating and deterioration of other electronic components have.

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

1 is a view showing a circuit of a microwave oven according to an embodiment of the present invention.

As shown in FIG. 1, the microwave oven according to the present invention includes a magnetron MTG1 for generating high frequency, a relay RL1 for controlling supply and interruption of power, and a first temperature according to the temperature of the magnetron MGT1. The thermostat (TM1) is switched to the contact point (NC) or the second contact point (NO) and the winding ratio is changed in accordance with the switching of the thermostat (TM1) to output different voltages to provide as a driving voltage to the magnetron (MGT1) It comprises a high voltage transformer (HVT1).

The magnetron MTG1 is a high frequency generator driven at a high voltage.

Therefore, the relay RL1 is turned ON only at the time required for generating high frequency to cook food, so that the magnetron MGT1 is supplied with power, and otherwise, the magnetron MTG1 is turned off. By cutting off the power supply, the safety of the user is promoted.

In addition, since a sufficient driving voltage cannot be provided to the magnetron MTG1 using the power applied through the relay RL1, the high voltage transformer HVT1 is boosted to a high voltage and then provided to the magnetron MTG1. do. One side of the primary coil of the high voltage transformer (HVT1) is provided with a first input terminal (I1) is connected to the power supply through the relay (RL1), the other side of the primary coil is connected to ground, the primary side At one point between the two sides of the coil is provided a second input terminal I2. That is, the first input terminal I1 is provided at the point where the number of turns is maximum in the primary side coil, and the second input terminal I2 is provided at any one point less than the maximum number of turns in the coil.

Therefore, in the high voltage transformer HVT1 in which the secondary output voltage is determined according to the turns ratio of the primary winding number and the secondary winding number, it is input to the first input terminal I1 or the second input terminal I2. Since the number of turns depends on the power source, the output voltage also changes.

The thermostat TM1 has a first stage NC connected to a second input terminal I2 of the high voltage transformer HVT1, and a second stage NO is connected to a first input terminal I1 of the high voltage transformer HVT1. ), And the third stage C is connected to a power source through the relay RL1.

The thermostat TM1 is switched to the first contact point NC or the second contact point NO according to the temperature of the magnetron MTG1, and is basically set to a state of being switched to the first contact point NC.

The thermostat TM1 is provided with bimetals having two metals having different thermal expansion coefficients, and are in contact with the first contact NC or the second contact NO according to the temperature of the magnetron MTG1.

As such, the second input terminal of the high voltage transformer HVT1 depends on whether the thermostat TM1 is switched to one of the first contact NC and the second contact NO according to the temperature of the magnetron MTG1. Since the power is input to the (I2) or the first input terminal (I1), the number of primary turns varies.

That is, when the temperature of the magnetron MTG1 is low, the thermostat TM1 maintains the switched state at the first contact point NC or is switched from the second contact point NO to the first contact point NC. As the power is applied to the second input terminal I2 of the high voltage transformer HVT1, the number of turns on the primary side is lowered, thereby increasing the winding ratio as a whole, thereby increasing the output voltage of the high voltage transformer HVT1. Therefore, the output of the magnetron MTG1 is increased.

On the contrary, when the temperature of the magnetron MTG1 is high, the thermostat TM1 is switched to the second contact point NO so that power is supplied to the first input terminal I1 of the high voltage transformer HVT1. Since the number of turns on the secondary side increases, the turn ratio is lowered as a whole, so that the output voltage of the high voltage transformer HVT1 is lowered and the output of the magnetron MTG1 is also lowered.

As described above, the number of turns of the primary side of the high voltage transformer HVT1 as the thermostat TM1 is switched to the first contact point NC or the second contact point NO according to the temperature of the magnetron MTG1. The secondary output voltage is adjusted to adjust the output of the magnetron MTG1.

Therefore, when the magnetron MTG1 is overheated, the output voltage of the high voltage transformer HVT1 is lowered by switching of the thermostat TM1, thereby lowering the output of the magnetron MTG1 to be different from the magnetron MTG1. It prevents the electronic components from deteriorating.

In order to efficiently operate the thermostat (TM1) according to the temperature of the magnetron (MGT1), it is preferable to install at any one of the upper or side of the magnetron (MGT1), or the supporter of the magnetron (MGT1).

As described above, the output voltage of the high voltage transformer HVT1 is changed according to the number of turns of the primary side by the switching of the thermostat TM1. However, those skilled in the art having knowledge of the art The output voltage of the high voltage transformer HVT1 may be adjusted by changing the number of secondary windings by the stat TM1.

1 is a view showing a circuit of a microwave oven according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

RL1: relay MGT1: magnetron

HVT1: High Voltage Transformer TM1: Thermostat

Claims (6)

A magnetron generating high frequency; A high voltage transformer for outputting different voltages according to power input to the first input terminal or the second input terminal; And a thermostat switched according to the temperature of the magnetron such that power is applied to any one of the second stage and the first stage connected to the first input terminal and the second input terminal, respectively. The microwave oven according to claim 1, wherein the high voltage transformer has a turns ratio that varies according to switching of the thermostat. The microwave oven according to claim 1, wherein the first input terminal is provided at a point where the number of turns of the primary coil of the high voltage transformer is maximized. The microwave oven according to claim 1, wherein the second input terminal is provided at one point between both sides of the primary coil of the high voltage transformer. The microwave oven according to claim 1, wherein the thermostat is provided at any one of an upper portion or a side surface of the magnetron, or a supporter of the magnetron. A magnetron generating high frequency; The first input terminal is provided on one side of the primary side coil and connected to the power source, and the second input terminal is provided at one point between both sides of the primary side coil, and the third input end is provided on the other side of the primary side coil. A high voltage transformer connected to the ground and outputting different voltages to the secondary side according to a power input to the first input terminal or the second input terminal to provide the magnetron; A second contact is connected to the first input terminal, a first contact is connected to the second input terminal, and a third contact is connected to a power source to supply power to the first or second contact according to the temperature of the magnetron. Microwave oven characterized in that it comprises a thermostat switched to be switched.

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