KR100347098B1 - Control circuit for microwave oven - Google Patents

Abstract

The present invention relates to a microwave oven, and more particularly, to a control circuit of a microwave oven that can be easily implemented while reducing the number of parts of the circuit for controlling each function of the microwave oven, reducing the manufacturing cost. In the present invention, a PCB pattern process is performed on an element of a part in which a microcomputer is controlled. Therefore, according to the present invention, it is possible to perform control of each component in the microwave oven using the 6-pin connector in the microcomputer.

Description

Control circuit for microwave oven {Control circuit for microwave oven}

The present invention relates to a microwave oven, and more particularly, to a control circuit of a microwave oven that can be easily implemented while reducing the number of parts of the circuit for controlling each function of the microwave oven, reducing the manufacturing cost.

In the conventional microwave oven, as shown in FIG. 1, the fuse 45 is connected to one side of the power supply stage 18, and the first safety switch 52 is connected to the fuse 45. Then, power is supplied to one side of the high voltage transformer 72 through the first safety switch 52.

In addition, the conventional microwave oven connects the thermostat 30 to the other side of the power supply stage 18, and performs the protection of the components of the circuit by switching off the thermostat 30 when a temperature rise occurs. Doing. And the power supply is made to the other side of the high-voltage transformer 72 through the thermostat (30).

In this way, the high voltage transformer 72 receives power from the primary side to generate high voltage power to the secondary side. The high voltage power generated by the high voltage transformer 72 is supplied to the magnetron 78 to control the generation of microwaves. The operation of the high voltage transformer 72 is controlled by a relay 35 connected between the thermostat 30 and the high voltage transformer 72.

The conventional microwave oven includes an oven lamp 50, a fan motor 56, and a turntable motor 58. The operation of the oven lamp 50, the fan motor 56, and the turntable motor 58 may be performed. It is controlled by the relay 25.

In addition, the conventional microwave oven includes another safety switch 54 which is controlled in accordance with the opening and closing of the door of the microwave oven.

The conventional microwave oven configured as described above is operated under the control of the microcomputer 10. The microcomputer 10 is operated by the generated power of the power transformer 15 which generates a rated power of 24 volts from the power supplied from the power supply stage 18. And it detects that the door of the microwave oven is closed by the ON operation of the second switch 54.

In addition, the relay 25 is controlled to control operations of the oven lamp 50, the fan motor 56, and the turntable motor 58, and another relay 35 is controlled to supply power to the high voltage transformer 72. To control the supply.

As such, the microcomputer 10 should be connected to the power transformer 15, the relays 25 and 35, and the switch 54 in order to control each component of the microwave oven. 20).

That is, one terminal of the power transformer 15 is connected to the first terminal 1 of the 8-pin connector 20, and the other side of the power transformer 15 is connected to the third terminal 3. The second terminal 2 between the first terminal and the third terminal is used as an insulating section between the two terminals.

In addition, one terminal of the relay 25 is connected to the third terminal 3 of the 8-pin connector 20, and the other terminal of the relay 25 is connected to the fifth terminal 5. The fourth terminal 4 between the third terminal and the fifth terminal is used as an insulation section between the two terminals.

In addition, one end of the switch 54 is connected to the seventh terminal 7 of the 8-pin connector 20, and the other terminal of the switch 54 is connected to the eighth terminal 8. The sixth terminal 6 of the 8-pin connector 20 is used as an insulating section so that the operation of the relay 25 and the switch 54 can be separated.

That is, the conventional microwave oven includes an 8-pin connector 20 in the microcomputer 10, a power transformer 15, a relay 25, 35, and each terminal of the 8-pin connector 20. The 2nd switch 54 was connected and each structure of the microwave oven was controlled.

In order to obtain a more improved control circuit from such a conventional control circuit configuration, the present invention intends to configure the control circuit by replacing the 8-pin connector used in the conventional microcomputer with a 6-pin connector.

Accordingly, an object of the present invention is to provide a microwave oven control circuit which can more simply and simply constitute a microwave oven control circuit and reduce workability and material costs.

1 is a control circuit diagram of a microwave oven according to the prior art,

2 is a control circuit diagram of a microwave oven according to the present invention;

Explanation of symbols on the main parts of the drawings

10,110: microcomputer 15,115: power transformer

20,120: Connector 25,125,35,135: Relay

30,130: Thermostat 45,145: fuse

50,150: Oven lamp 52,152,54,154: Switch

56,156: Fan motor 58,158: Turntable motor

72,172 Transformers 78,178 Magnetron

Microwave control circuit according to the present invention for achieving the above object, the switch for detecting the closing of the door; A first relay for controlling the operation of the oven lamp, the fan motor, and the turntable; A power transformer for inputting AC power and generating a rated power of a predetermined size; A second relay for controlling the driving of the magnetron; A microcomputer that controls the device by connecting a terminal of the first relay to a first terminal and a third terminal, and a terminal of the switch to a fifth terminal and a sixth terminal using a six-pin connector. And one side terminal of the power transformer is connected to three terminals of the 6-pin connector, and one side terminal of the power transformer and one side contact of the second relay are PCB-patterned with the same contact point. .

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

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

A fuse 145 is connected to one side of the power supply terminal 118, and a first safety switch 152 connected to the door closing of the microwave oven is connected through the fuse 145. That is, when the door of the microwave oven is closed, power is supplied to one side of the high voltage transformer 172 through the first safety switch 152.

And by connecting the thermostat 130 to the other side of the power stage 118, when the temperature rise occurs, the thermostat 130 is switched off, thereby performing component protection of the circuit element. Therefore, when the temperature inside the microwave oven is not in an abnormal state, power is supplied to the other side of the high voltage transformer 172 through the thermostat 130.

In this configuration, a power loop of the high voltage transformer 172 is formed, and the high voltage power generated by the high voltage transformer 172 is supplied to the magnetron 178 to generate microwaves. Meanwhile, the operation of the high voltage transformer 172 is controlled by the relay 135 connected between the thermostat 130 and the high voltage transformer 172.

The relay 135 is operated under the control of the microcomputer 110. Therefore, the relay 135 connects a terminal to the microcomputer 110. Accordingly, the terminal 135b and the terminal 135a of the relay 135 are connected to the terminal of the microcomputer 110, and at the same time, the terminal 135b of the relay 135 is connected to the high voltage transformer 172. Is connected to, another terminal 135a of the relay 135 is in a state connected with the thermostat 130.

In addition, the microcomputer 110 in the control circuit of the microwave oven needs to detect whether the door of the microwave oven is open or closed. This is to perform the control so that the system operation is performed only when the door of the microwave oven is closed. Accordingly, the microcomputer 1100 is connected to the switch 154 that is interlocked with the door, that is, the terminal 154a of the switch 154 is connected to the sixth pin of the six-pin connector 120 in the microcomputer 110. The other terminal 154b of the switch 154 is connected to the fifth terminal 5 of the 6-pin connector 120 in the microcomputer 110.

The microcomputer 110 in the control circuit of the microwave oven controls the operation of the oven lamp 150, the fan motor 156, and the turntable motor 158. The control of the components is made by the relay 125, which is controlled by the microcomputer 110. Accordingly, the relay 125 connects the terminal 125a to the first terminal 1 of the 6-pin connector 120 of the microcomputer 110 and the terminal 125b to the third terminal 3. Doing.

That is, the oven lamp 150, the power supply stage 118, the fuse 145, the oven lamp 150, the first terminal 1 of the microcomputer 110, the relay 125, and the power transformer 115. Power supply loop is formed through the primary side, and the thermostat (130).

In addition, the fan motor 156 and the turntable motor 158 may include the power stage 118, the fuse 145, the first switch 152, the fan motor 156 (or the turntable motor), and the microcomputer 110. The power supply loop is formed through the first terminal 1 of the relay 125, the primary side of the power transformer 115, and the thermostat 130.

Next, the microcomputer 110 which performs the above control generates and uses a predetermined rated power required by the power transformer 115. Therefore, the power transformer 115 is connected. The terminal 115a of the power transformer 115 is processed at the same contact point by the terminal 135a of the relay 135 and the PCB pattern. The terminal 115b of the power transformer 115 is connected to the terminal 152a of the switch 152 through the third terminal 3 of the microcomputer 110. Since the terminal 152a of the switch 152 is connected to the fuse 145 through the contact of the oven lamp 150, the power loop of the power transformer 115 is a power stage 118, a fuse 145, The contact of the oven lamp 150, the switch 152 terminal 152a, the third terminal 3 of the microcomputer 110, the power transformer 115, the relay 135 terminal 135a, and the thermostat 130 It is connected to).

The other terminal 4 of the 6-pin contact 120 of the microcomputer 110 is used for power separation between the switch 154 and the relay 125, and the terminal 2 is a terminal of the relay 125. It is used for power separation between 125a) and terminal 125b. That is, in the present invention, by processing the terminal 115a of the power transformer 115 and the terminal 135a of the relay 135 in a PCB pattern (denoted by reference numeral 100 in FIG. 2), a conventional 8-pin connector is connected to a 6-pin connector. It is possible to exchange.

Next will be described the operation of the microwave oven of the present invention having the above configuration.

The microcomputer 110 controls the relay 125 to the on-operation state when the oven lamp 150 is to be turned on. In this case, the power supplied from the power supply terminal 118 is applied to the oven lamp 150 through the fuse 145. Then, a current flows through the open lamp 150 to the first terminal 1 of the microcomputer 110, and the current flows through the relay 125 that is turned on, and the primary side of the power transformer 115 and the thermostat. The stats 130, again will flow through the loop formed by the power stage 118. As the current path is formed, the oven lamp 150 is turned on.

Next, a control process for the operation of the magnetron 178 will be described.

The microcomputer 110 determines whether the operation state of the switch 154 is on, and detects that the door of the microwave oven is closed. At this time, the switch 152 that is linked to the door closing of the microwave oven is also in the same state as the switch 154.

When it is detected that the switch 154 is closed, the microcomputer 110 controls the operation of the relay 135 to the on state. When the relay 135 is turned on, power supplied from the power supply terminal 118 is applied to one side of the high voltage transformer 172 through the fuse 145 and the first switch 152. Therefore, the high voltage generated from the high voltage transformer 172 while the current passing through the high voltage transformer 172 flows on the power loop applied to the power stage 118 again through the relay 135 switched to the on state. It is applied to the magnetron 78 to generate microwaves.

Similarly, the fan motor 156 and the turntable motor 158 are operated under the control of the microcomputer 110. Prior to the operation of the fan motor and the turntable motor, the microcomputer 110 detects an operation state of the door switch 154 to determine whether the door is closed.

When the switch 154 is closed, the first switch 152 is also turned on. Subsequently, when the microcomputer 110 controls the relay 125 to be turned on for the operation of the fan motor 156 and the turntable motor 158, power connected to the fan motor 156 and the turntable motor 158 is controlled. A loop is formed.

That is, the current supplied from the power supply terminal 118 is supplied to one side of the fan motor 156 and the turntable motor 158 through the first switch 152 of the fuse 145. The other side of the fan motor 156 and the turntable motor 158 is connected to the relay 125 which is operated on through the first terminal 1 of the microcomputer 110. A power loop is formed through the relay 125 through the primary side of the power transformer 115 and through the thermostat 130.

As described above, the control circuit of the microwave oven according to the present invention is equipped with a 6-pin connector in a microcomputer and connects control elements of each configuration to the connector. The reason why all the configurations can be controlled using the 6-pin connector is that some terminals are processed in a PCB pattern. Therefore, the present invention can easily configure the circuit only by a very simple process, and the effect of the material cost can be reduced while improving the workability by simplifying the circuit.

Claims (1)

A switch for detecting the closing of the door; A first relay for controlling the operation of the oven lamp, the fan motor, and the turntable; A power transformer for inputting AC power and generating a rated power of a predetermined size; A second relay for controlling the driving of the magnetron; A microcomputer that controls the device by connecting a terminal of the first relay to a first terminal and a third terminal, and a terminal of the switch to a fifth terminal and a sixth terminal using a six-pin connector. It is configured to include, One terminal of the power transformer is connected to the three terminals of the 6-pin connector, the one terminal of the power transformer and the one side contact of the second relay is a PCB patterned circuit characterized in that the same contact with the PCB.