KR20030018261A - High voltage transformer for microwave oven - Google Patents

Abstract

PURPOSE: A high voltage transformer for a microwave oven is provided to prevent an erroneous operation and damage of the transformer by smoothly radiating the heat generated from the high voltage transformer. CONSTITUTION: A high voltage transformer(50) comprises a coil unit(52) for generating a high voltage, and a core unit(54) mounted outside of the coil unit, and which has a plurality of cores(56) arranged in parallel. The cores of the core unit are spaced apart from each other and partially protruded upward. Since the cores are protruded upward, the upper surface of the core unit has an increased area, thus increasing the surface contacting the cooling air blown from an air blower. As a result, improved cooling efficiency of the high voltage transformer is attained.

Description

High voltage transformer for microwave oven

The present invention relates to a high-voltage transformer of a microwave oven, and more particularly, to a high-voltage transformer of the microwave oven, which is configured to be more easily radiated heat generated during the operation of the microwave oven.

As shown in Fig. 1, the microwave oven includes a heating chamber 2 in which a space for heating food is provided, and an electric compartment 4 in which components for generating and supplying microwaves to the heating chamber are embedded. . The heating chamber 2 is a space for heating by putting food to be heated, and the electric compartment 4 is a space in which components for generating and supplying microwaves to the heating chamber are embedded.

The electric chamber 4 has a magnetron 12 for generating microwaves, a high pressure transformer 14 for applying high pressure to the magnetron, and a blower fan 16 for radiating the magnetron and the high pressure transformer 14. ) Is installed.

The magnetron 12 and the high-voltage transformer 14 are provided at a position ahead of the blower fan 16, so that high temperature heat is generated during operation of the microwave oven. Therefore, when such a component is brought to a high temperature, the blower fan 16 is operated to cool the components.

The high voltage transformer 14 for applying a high voltage for generating microwaves to the magnetron 12 prevents leakage of the magnetic flux generated from the coil part 14a for generating the high pressure and the coil part. It consists of the core part 14b for radiating the heat which generate | occur | produces in a coil part. The core portion 14b is formed by alternately overlapping an E-type core and an I-type core, and is formed by arranging a plurality of iron sheet sheets in parallel.

And this core part 14b is comprised so that the heat | fever which generate | occur | produced in the coil part 14a may be radiated | exposed to the air flow generate | occur | produced in the blowing fan 16 provided in the back. And when looking at the core portion 14b of the conventional high voltage transformer 14, a plurality of iron sheet sheet is arranged so that the entire outer surface of the core portion 14b can form a plane. That is, the upper surface and the side surface of the core portion 14b are all planar.

However, when the core portion 14b is dissipated by the airflow generated by the blower fan 16, since the upper and side surfaces of the core portion 14b form a planar shape, the airflow is substantially in contact with the airflow. The part (total area) to have a certain limit. Therefore, according to the structure of the conventional high pressure transformer, it is determined that the heat radiation effect when the heat dissipation by the blower fan has a certain limit.

An object of the present invention, the high-voltage transformer for generating a high pressure in the microwave oven is configured to be more easily radiated.

As described above, the present invention for more efficient heat dissipation of the transformer focuses on the configuration in which the high-voltage transformer is in contact with the air flow for heat dissipation.

1 is a perspective view showing the structure of a typical microwave oven.

2 is a perspective view of a high-voltage transformer according to the present invention.

3 is a perspective view of a high-voltage transformer according to another embodiment of the present invention.

Figure 4 is a side view of a high voltage transformer according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

50, 50a, 50b ..... Trans 54, 54a, 54b ..... Core part

56, 56a, 56b ..... The protruding core 56c ... slit

In the high-voltage transformer for a microwave oven according to the present invention for achieving the above object, In the high-voltage transformer of the microwave oven is composed of a coil for boosting the core portion is provided outside the coil and a plurality of cores arranged in parallel; Among the core portions, a part of the cores are protruded outwardly to be molded.

And the core which protrudes in this way is arrange | positioned at regular intervals.

And according to one embodiment, the plurality of slits are formed in the protruding core to improve the heat dissipation effect by increasing the surface area at the same time to facilitate ventilation.

According to another embodiment, the protruding core is molded to have a constant curved shape to increase the surface area.

And according to another embodiment, the protruding core may protrude to the top or side of the high-voltage transformer.

According to the present invention, the area exposed to the air flow passing through the high-voltage transformer is expanded, there is an advantage that can substantially maximize the heat dissipation effect, it is expected that the effect that can substantially increase the reliability of the product. .

Next, the present invention will be described in more detail with reference to the embodiments shown in the drawings.

2 shows a high voltage transformer according to a first embodiment of the present invention. As shown in the drawing, the high voltage transformer 50 according to the present embodiment includes a coil part 52 for generating a high pressure, a core provided to surround the coil part 52, and a plurality of iron sheet sheets stacked in parallel. It is comprised by the part 54. As shown in FIG. Since the functions of the coil unit 52 and the core unit 54 themselves are the same as in the general, detailed description thereof will be omitted.

According to this invention, it turns out that some core 56 is protruded upward among the said core part 54. As shown in FIG. The plurality of cores 56 protruding upwards are formed at regular intervals. By the protruding core 56, the area of the upper surface of the core portion 54 is substantially enlarged. Therefore, when the cooling air flow is blown in the blower fan, it is configured to contact more. Therefore, by the protruding core 56, it is natural that the cooling efficiency of the high-pressure transformer 50 itself can be further increased as compared with the conventional one.

According to this embodiment, it can be seen that by configuring some of the cores 56 in the core portion 54 to protrude upward, the core portion 54 is configured to be more exposed to the cooling air flow. In addition, the part of the protruding core 56 may be formed into a plurality of parts having a predetermined interval, so that the heat dissipation with higher efficiency can be performed as a whole.

It can be seen that the present invention makes the basic idea that a part of the plurality of cores is provided as the protruding core 56. Therefore, as in the illustrated embodiment, the present invention is not limited to installing the protruding core 56 on the upper surface of the high-voltage transformer 50. Naturally, the protruding core 56 may be installed on the side of the high-pressure transformer 50, and of course, may be simultaneously installed on the top and side surfaces.

Next, a second embodiment of the present invention will be described with reference to FIG. 3. As shown, according to this embodiment, a part of cores are formed of the protruding core 56a as in the first embodiment, among the core portions 54a composed of a plurality of cores in the high voltage transformer 50a. In this embodiment, the plurality of slits 56c are formed at the upper ends of the protruding cores 56a to facilitate communication of the heat radiation airflow supplied and substantially the contact area of the cores 54a. It is configured to widen more. In this embodiment, it can be seen that by forming the slit 56c in the protruding core of the first embodiment, to achieve smoother communication and heat radiation. In addition, it is a matter of course that the configuration of the protruding core 56a and the slit 56c according to the present embodiment can also be implemented on the side of the core portion 54a.

Next, a third embodiment of the present invention will be described with reference to FIG. 4. As shown, according to this embodiment, the core part 54b which consists of several core is comprised from the protruding core 56b which protruded some cores to the upper surface. And the protruding core 56b which concerns on a present Example is shape | molded so that it may have a fixed curved shape in the upper part. By forming the protruding core 56b having a constant curved upper end portion as described above, the cross-sectional area of the protruding core 56b can be widened, which is further exposed to the supplied heat radiation airflow, so that the heat radiation can be more smoothly. It can be seen that.

According to the present invention as described above, it can be seen that the basic technical idea is to provide an appropriate number of protruding cores protruding outward on one side of the core part including a plurality of cores. And within the scope of the basic technical idea according to the present invention, of course, many other modifications are possible to those of ordinary skill in the art.

For example, more deformations will be possible with respect to the forming position and spacing of the protruding cores and the shape of the protruding cores.

According to the present invention configured as described above, the heat radiation of the high-voltage transformer in the microwave can be made more smoothly. Therefore, it is expected to be able to prevent damage and malfunction due to overheating, as well as to increase the reliability of the product.

Claims (6)

A high voltage transformer of a microwave oven comprising a coil for boosting and a core part installed outside the coil and having a plurality of cores arranged in parallel; The high voltage transformer, characterized in that for forming a part of the core protrudes outward. The high pressure transformer according to claim 1, wherein the protruding cores are arranged at regular intervals. The high pressure transformer according to claim 1, wherein a plurality of slits are formed in the protruding core. The high pressure transformer according to claim 1, wherein the protruding core has a constant curved shape. The high pressure transformer according to any one of claims 1 to 4, wherein the protruding core protrudes from an upper surface of the high pressure transformer. The high pressure transformer according to any one of claims 1 to 4, wherein the protruding core protrudes from the side of the high pressure transformer.