KR100189115B1 - Microwave oven - Google Patents

Abstract

The microwave oven according to the present invention estimates the circuit configuration therein. The microwave oven is provided in the main body 10 having the electric chamber 12 and the cooking chamber 11 and the electric chamber 12 to reduce noise of an input current. It includes a noise filter circuit 30 to remove and a heating heater 40 extending into the cooking chamber 11 to heat food during cooking. In this noise filter circuit 30, four power input terminals are provided so that one pole has two terminals, and one power supply terminal is connected to one pole and the other pole of the power input terminal, and one pole of the other terminal. The heating heater 40 is connected to the other electrode.

As described above, the power input wire structure of the microwave oven according to the orphan is not provided with a conventional branching device, but is provided with a separate terminal in the noise filter circuit so that a current can be supplied to the heating heater and the noise circuit. The wire structure of the input part is more simple.

Description

Microwave

The present invention relates to a microwave oven, and more particularly, to a microwave oven improved to simplify the wiring structure of the power input unit of the microwave oven.

In general, the microwave oven is a cooker using the principle that the food molecules provided inside the metal box using the 2,450MHz electromagnetic wave to generate heat by its own molecular motion.

1 is a perspective view of a typical microwave oven. As shown in the drawing, the microwave oven body 10 includes a cooking chamber 11 in which food is cooked and an electrical equipment chamber 12 in which electrical devices are installed. The electric chamber 12 is provided with a magnetron 13 for oscillating high frequency and a high voltage transformer 14 for applying a high voltage to the magnetron 13. The rear of the electric compartment 12 is provided with a motor (not shown) and a heat dissipation fan 16 to suck external air to cool the electric component. In addition, a noise filter circuit 18 for removing noise of the input power source is separately configured. The cooking chamber is provided with a heater 19 that generates heat by applying external power. 2 is a circuit diagram showing a circuit configuration of a conventional microwave oven.

As shown in the drawing, a wire in which a first external power is input in a conventional microwave oven is divided into two wires by a branching device, and one wire is applied to the heater 19, and the other wire which is branched is a noise filter circuit 18. It is extended so that it may be connected to this noise filter. Here, since the heater 19 is a simple hot wire, it does not generate noise during operation. For this reason, the input power is connected to the connection part of the heater 19 before a noise filter, and the electric wire branched using the branching apparatus 20 before connection with the heater 19 is connected to the noise filter circuit 18. FIG. .

In the conventional microwave oven configured as described above, when power is initially supplied, the input current is supplied to the first heater 19 through a wire. Subsequently, the current is applied to the noise filter circuit 18, and the noise is removed before being supplied to the magnetron 13 to be guided to various other electrical appliances.

As described above, the electric wire extending to the noise filter circuit 18 and the heater 19 positioned in the conventional power input unit is branched by a separate branch device 20, which makes the overall wiring structure of the power input unit complicated. do. In addition, the cost of the branching device 20 and the additional wires caused by the consumption of the wires, and the connection process is also complicated, there was a problem that the work time is excessively consumed in the final assembly stage 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 microwave oven, which further simplifies the wiring structure of the microwave oven to prevent additional wire consumption and thereby improves the wiring process.

1 is a perspective view of a typical microwave oven.

2 is a circuit diagram showing a circuit configuration of a conventional microwave oven.

3 is a circuit diagram showing a circuit configuration of a microwave oven according to the present invention.

* Description of the symbols for the main parts of the drawings *

10 main body, 11 cooking chamber, 12 electric cabinet, 13 magnetron, 14 high voltage transformer, 30 noise filter circuit, 40 heating heater

In order to achieve the above object, the present invention provides a body having a full length room and a cooking room; A noise filter circuit board provided in the electric room to remove noise of an input current; In a microwave oven having a heating heater extending inside the cooking chamber to heat food during cooking, the noise filter circuit is provided with four terminals such that one pole has two terminals, and one terminal and the other electrode in the terminal. The power input wire is connected to, and a heating heater is connected to one pole and the other pole of the other terminal.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the drawings. 3 is a diagram illustrating a microwave oven circuit diagram according to the present invention. The overall configuration is referred to FIG. 1. As shown in the drawing, the microwave oven body 10 includes a cooking chamber 11 in which food is cooked and an electrical equipment chamber 12 in which electrical devices are installed. The electric chamber 12 is provided with a magnetron 13 for oscillating high frequency and a high voltage transformer 14 for applying a high voltage to the magnetron 13. In addition, a rear surface of the electric compartment 12 is provided with a motor (not shown) and a heat dissipation fan 16 that suck external air to cool the electric component. The motor bracket is provided with a noise filter circuit 30 for removing noise of an input power source. Meanwhile, the cooking chamber 11 is provided with a heater 40 that generates heat by applying external power. On the other hand, four power terminals (not shown) are provided in the noise circuit 30. These power supply terminals are each connected to each other so that two terminals form the same pole, and one pole is provided so that two connection terminals may be provided. Accordingly, the first input power input wire is coupled to one one pole and the other pole terminal, and one pole and the other pole of the heating heater 40 are connected to one pole and the other pole of the other terminal. Such a configuration excludes the conventional wire branching device and constitutes a power input unit in the noise filter circuit 30.

On the other hand, when the noise filter is further explained, noise is generated when the magnetron of the microwave oven operates. The noise is provided to block the noise in advance because it affects other electronic products such as radio and TV.

In the conventional microwave oven configured as described above, when power is initially supplied and the power is supplied, the input current is first transferred to the input unit in the noise filter circuit 30 by riding the input wire. The power delivered to the input unit is applied to the heating heater 40 by a separate terminal connected thereto to operate the heating heater 40, and the current applied to the noise filter circuit 30 passes through the noise network to remove noise. Then, the high voltage transformer 14 and other electric appliances are supplied with the noise-free current. The supplied current is boosted by the high voltage transformer 14 so that a high voltage is applied to the magnetron 13. Accordingly, the magnetron 13 oscillates a high frequency of 2,450 MHz, and the food molecules vibrate to generate heat by the high frequency, and thus the food is cooked. The heat dissipation motor is operated at the time of operation of the microwave oven, and the heat dissipation fan 16 is driven, thereby dissipating heat generated from the high-voltage electric appliance that generates heat.

As described above, in the microwave oven according to the present invention, the noise filter circuit 30 may further configure the electric wire structure of the power input unit simply by further providing two connection terminals.

In this way, the power input wire structure of the microwave oven according to the orphan does not use a conventional branching device, but is provided with a separate terminal on the noise filter circuit board to supply current to the heating heater and the noise circuit. Since the wire structure of the power input unit can be simplified, and the amount of wires consumed for wiring can be reduced, the assembly and the manufacturing cost of the microwave oven can be reduced, and a separate branch device is not required. The risk of a short circuit, etc., at the branch device can be shut off in advance.

Claims (1)

In a microwave oven having a main body having an electric chamber and a cooking chamber, a noise filter circuit board provided in the electric chamber to remove noise of an input current, and a heating heater extending into the cooking chamber to heat food during cooking. The noise filter circuit 30 is provided with four terminals so that one pole has two terminals, A power input wire is connected to one pole and the other pole of the terminal, The heating heater 40 is connected to one pole and the other pole of the other terminal.