KR200377050Y1 - A trans placing structure for microwave oven - Google Patents

Abstract

The present invention relates to a transformer mounting structure of a microwave oven. In the present invention, one side of the cavity assembly 30 that is inside the microwave oven is provided with an electrical equipment chamber 40. In the electric compartment 40, a magnetron 42 for generating microwaves necessary for cooking is installed on the side wall of the electric compartment 40, and a high voltage transformer 44 for boosting the voltage applied to the microwave oven is provided in the electric compartment ( 40) is installed on one side of the bottom surface. A rear side of the electric compartment 40 is provided with a blowing fan 46 for cooling the high pressure transformer 44 and generating an air flow through the inside of the cooking compartment 32, and one side of the ceiling of the electric compartment 40. The air duct 48 is provided. One side of the air duct 48 is provided with a coupling boss (50). The low voltage transformer 52 for reducing the input voltage of the power source is provided, and the low voltage transformer 52 is provided with a mounting bracket 54. A coupling hole 56 corresponding to the coupling boss 50 is formed at one side of the mounting bracket 54. The transformer mounting structure of the microwave oven according to the present invention has a transformer 44 of which the lead wires of the transformers 44 and 52 which connect one of the high voltage transformer 44 and the low voltage transformer 52 to other electrical components are connected. , 52), there is an advantage that the high voltage transformer 44 does not affect the temperature change of the low pressure transformer 52.

Description

A trans placing structure for microwave oven

The present invention relates to a microwave oven, and more particularly to a structure for mounting a transformer for boosting and reducing the voltage of the microwave oven in the electrical equipment room.

1 is an exploded perspective view showing the configuration of a microwave oven according to the prior art.

According to this, the cavity assembly 2 is installed inside the microwave oven. The cavity assembly 2 includes a cooking chamber 4 in which food is cooked. The bottom exterior of the microwave oven is formed by a base plate 6, and the exterior and top surfaces are formed by external cases (not shown). And the back plate 8 forms the rear appearance of the microwave oven.

An electrical equipment compartment 14 is provided at one side of the cavity assembly 2 inside the microwave oven. The electric compartment 10 is provided with various components for generating a microwave required for cooking in the cooking chamber (4). Examples of the components include the magnetron 16, the high voltage transformer 18, the low voltage transformer 20, and the like, which will be described below.

The magnetron 16 is fixedly installed at one side of the electric compartment 14, that is, at one side of the cavity assembly 2. The magnetron 16 serves to oscillate the microwave for cooking food.

In addition, the high voltage transformer 18 is installed on one side of the bottom surface of the electric chamber 14, that is, the base plate 6. The high voltage transformer 18 serves to boost the voltage applied to the microwave oven to high pressure. The magnetron 16 oscillates the microwave by supplying the magnetron 16 with the voltage boosted by the high voltage transformer 18 to a high pressure.

One side of the bottom surface of the electric chamber 14, that is, the front of the high voltage transformer 18 is provided with a low voltage transformer 20 for reducing the input voltage to a low voltage. The low voltage transformer 20 reduces the input voltage to be used as a microcomputer driving power source.

One side of the electric compartment 14 is provided with a blowing fan 22 for cooling the high-voltage transformer (18). One side of the blowing fan 22 is provided with a driving motor (not shown). When power is applied to the drive motor, the blower fan 22 receives power from the drive motor and generates a strong air flow, thereby cooling the high voltage transformer 18.

An air duct 24 is provided at one side of the ceiling of the electric compartment 14. Various air flow paths are formed between the air duct 24 and the ceiling of the cavity assembly 2 through which air can flow. The air flow path forms various air flows required inside the microwave oven.

However, the transformer mounting structure of the microwave oven according to the prior art having such a configuration has the following problems.

In the microwave oven of the conventional microwave oven, the high voltage transformer 18 is located on the bottom surface of the electric chamber 14, that is, the direction in which wind is generated by the blower fan 22, and in front of the high voltage transformer 18. The low pressure transformer 20 is located. Therefore, when the high voltage transformer 18 and the low voltage transformer 20 is too close to connect any one of the high voltage transformer 18 and the low voltage transformer 20 to another electrical component, There is a problem that the lead wires of the transformers 18 and 20 are interfered by other transformers 18 and 20.

Then, the high pressure transformer 18 is positioned in the wind generating direction of the blower fan 22, and the low pressure transformer 20 is positioned at the rear thereof so that the high temperature wind passing through the high pressure transformer 18 passes through the low pressure transformer 20. There is a problem affecting).

An object of the present invention is to solve the problems of the prior art as described above, when connecting one of the high voltage transformer and low voltage transformer with other electrical components, the lead wire of the transformer to be connected is not affected by the other transformer. It is to provide a transformer mounting structure of a microwave oven.

Another object of the present invention is to provide a transformer mounting structure of a microwave oven in which hot wind passing through the high pressure transformer does not affect the low pressure transformer.

According to a feature of the present invention for achieving the object as described above, the present invention is provided with a magnetron for generating a microwave by boosting the input voltage and the high-voltage transformer is installed on the bottom of the electric room, and the inside of the electric room A blower fan installed at one side of the electric compartment to form an air flow to cool the heat generated from the electric component, and an air duct for forming a ceiling surface of the electric compartment and discharging the air flow to the outside of the electric compartment. And a low voltage transformer installed on one side of the air duct, that is, the ceiling surface of the electric chamber, to reduce the input voltage.

It is preferable that a catching boss is provided on one side of the air duct so that the low pressure transformer is installed, and the low pressure transformer has a coupling hole at a position corresponding to the catching boss.

According to the transformer mounting structure of the microwave oven according to the present invention having the configuration as described above, when any one of the high-voltage transformer and low-voltage transformer is connected to other electrical components, the lead wire of the transformer to be connected is not interfered by the other transformer, There is an advantage that the high pressure transformer does not affect the temperature change of the low pressure transformer.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the transformer mounting structure of the microwave oven according to the present invention will be described in detail.

2 is an exploded perspective view showing the configuration of a preferred embodiment of the transformer mounting structure of the microwave oven according to the present invention, Figures 3a and 3b is a configuration diagram showing the main portion of the transformer mounting structure of the microwave oven according to the present invention. It is.

According to this, the cavity assembly 30 is provided inside the microwave oven. The cavity assembly 30 is provided with a cooking chamber 32 in which food is cooked therein. The bottom exterior of the microwave oven is formed by a base plate 34, and both sides and the top exterior are formed by an outer case (not shown). And the back plate 38 forms the external appearance of the back of a microwave oven. That is, the base plate 34 and the outer case and the back plate 38 constitute the appearance of the microwave oven.

An electrical equipment compartment 40 is provided at one side of the cavity assembly 30 inside the microwave oven. The electric component chamber 40 is provided with various components for generating microwaves for cooking in the cooking chamber 32. Examples of the components include the magnetron 42, the high voltage transformer 44, the low voltage transformer 52, and the like described below.

The magnetron 42 is installed on one side of the waveguide 45 to be described below, ie opposite to the portion coupled with the cavity assembly 30. The magnetron 42 serves to generate a microwave for cooking food. The microwave is transmitted to the cooking chamber 32 through the waveguide 45. However, in order to drive the magnetron 42, a high voltage is required, and for this purpose, a high voltage transformer 44 to be described below is provided.

The high voltage transformer 44 is installed at one side of the bottom surface of the electric compartment 40. The high voltage transformer 44 boosts the voltage applied to the microwave oven to high pressure. In addition, the voltage boosted to high pressure is applied to the magnetron 42, so that the magnetron 42 oscillates the microwave.

A waveguide 45 having one side coupled to an upper surface of the cavity assembly 30 is provided at an upper portion of the electric compartment 40. The waveguide 45 serves to deliver the microwaves generated by the magnetron 42 to the cooking chamber 32.

A rear side of the electric compartment 40 is provided with a blowing fan 46 for cooling the high pressure transformer 44 and generating an air flow through the interior of the cooking chamber 32. One side of the blower fan 46 is provided with a driving motor (not shown) for generating a driving force. When power is applied to the drive motor, the drive motor is driven.

The blowing fan 46, which receives power from the driving motor, generates a strong air flow to cool the high pressure transformer 44 and to allow some of the air to flow into the cooking chamber 32. The air guided to the cooking chamber 32 absorbs water vapor generated by cooking of food and discharges it to the outside of the cooking chamber 32.

An air duct 48 is provided on one side of the ceiling of the electric compartment 40. Various air flow paths are formed between the air duct 48 and the cavity assembly 30 to allow air to flow. The air flow path generates the required air flow inside the microwave oven. One side of the air duct 48 is provided with a coupling boss 50 to correspond to the coupling hole 56 of the low pressure transformer 52 to be described below.

One side of the air duct 48 in the electric compartment 40 is provided with a low voltage transformer 52 for reducing the input voltage of the power source. The low voltage transformer 52 reduces the applied voltage to be used as a microcomputer driving power source.

One side of the body portion of the low-voltage transformer 52 is provided with a mounting bracket 54 to facilitate mounting. One side of the mounting bracket 54 is provided with a coupling hole 56 for coupling. The coupling hole 56 of the low pressure transformer 52 is provided in a shape corresponding to the coupling boss 50 of the air duct 48. The low pressure transformer 52 is fastened to the air duct 48 by a coupler 58 such as a screw.

Hereinafter, the operation of the transformer mounting structure of the microwave oven according to the present invention having the configuration as described above will be described in detail.

First, the process of installing the low-voltage transformer 52 in the electronics room 40 of the microwave oven will be described.

The mounting bracket 54 of the low pressure transformer 52 is brought into close contact with the coupling boss 50 of the air duct 48. After the coupling hole 56 of the mounting bracket 54 is accurately positioned on the coupling boss 50, the coupling hole 58 penetrating the coupling hole 56 of the mounting bracket 54 is connected to the air duct. 48) to the coupling boss (50). In this manner, the low pressure transformer 52 is installed in the air duct 48.

Next, the operation of the transformer by the transformer mounting structure of the microwave oven is demonstrated.

When an operation button (not shown) is turned on in the control unit (not shown), an operation signal is applied and power is applied to the high voltage transformer 44. The high voltage transformer 44 boosts the applied voltage so that the magnetron 42 can operate. The voltage boosted by the high voltage transformer 44 is applied to the magnetron 42, and the magnetron 42 oscillates the microwave. When the microwave is transmitted to the cooking chamber 32 through the waveguide 45, the food of the cooking chamber 32 is cooked. The high voltage transformer 44 generates heat due to the boosting function.

In addition, power is applied to the drive motor of the blower fan 46. When the driving motor is driven to rotate the blowing fan 46, a predetermined air flow is generated by the rotating blowing fan 46. The air flow generated by the blower fan 46 absorbs heat from the high pressure transformer 44 to cool the high pressure transformer 44. While passing through the high pressure transformer 44, the air passing through the high pressure transformer 44 becomes a high temperature. A portion of the hot air flows into the cooking chamber 32, and a portion of the air is moved through the air flow path between the cavity assembly 30 and the air duct 48. Therefore, the high temperature air is not directly passed through the low pressure transformer 52, the low pressure transformer 52 is not affected by the temperature.

The hot air introduced into the cooking chamber 32 absorbs water vapor generated by the food in the cooking chamber 32 and is discharged to the outside through an outlet (not shown).

The rights of the present invention are not limited to the embodiments described above, but are defined by what is stated in the claims, and those skilled in the art can make various modifications and adaptations within the scope of the rights described in the claims. It is self-evident.

In the transformer mounting structure of the microwave oven according to the present invention as described in detail above, the following effects can be expected.

The high voltage transformer is installed on the floor of the battlefield and the low pressure transformer is installed on the ceiling of the battlefield. Therefore, when one of the high voltage transformer and the low voltage transformer is connected to other electrical components, there is an effect that the lead wires of the transformer to be connected are not interfered at all by other transformers.

The low pressure transformer is not located at the rear of the high pressure transformer in the wind direction in which the blowing fan cools the high pressure transformer. Therefore, the air that has become high temperature by cooling the high pressure transformer does not move directly to the low pressure transformer, so that the high pressure transformer does not affect the temperature change of the low pressure transformer.

1 is an exploded perspective view showing the configuration of a microwave oven according to the prior art.

Figure 2 is an exploded perspective view showing the configuration of a preferred embodiment of the transformer mounting structure of the microwave oven according to the present invention.

3a and 3b is a configuration diagram showing the main portion of the transformer mounting structure of the microwave oven according to the present invention.

Explanation of symbols on the main parts of the drawings

30: cavity assembly 32: cooking chamber

34: base plate 38: back plate

40: battlefield 42: magnetron

44: high voltage transformer 45: waveguide

46: blower fan 48: air duct

50: combined boss 52: low voltage transformer

54: mounting bracket 56: coupling hole

58: coupler

Claims (2)

A high voltage transformer provided to the magnetron that generates the microwave by boosting the input voltage and installed at the bottom of the electrical room; A blowing fan installed at one side of the electrical equipment room to form an air flow for cooling the heat generated by the electrical components inside the electrical equipment room; An air duct for forming a ceiling surface of the electrical equipment room and discharging the air flow to the outside of the electrical equipment room; A transformer mounting structure of a microwave oven including a low voltage transformer installed on one side of the air duct, that is, a ceiling surface of the electric room, to reduce the input voltage. The method of claim 1, Hanging boss is provided on one side of the air duct so that the low pressure transformer is installed, the low pressure transformer is provided with a coupling hole in the position corresponding to the locking boss.