KR20050039246A - High voltage transformer for both cooling motor combined in microwave oven range - Google Patents

Abstract

The present invention relates to a high-voltage transformer for a microwave oven cooling motor, and to form a cooling motor and a transformer used in a microwave oven integrally so as not to install a separate cooling motor to reduce the cost and simplify the structure, the transformer A transformer formed on the lower side of the; A magnetic field induction part protruding upward from the transformer part; In addition, the lower part is formed to be recessed to be combined with the magnetic field induction part and provides a high-voltage transformer for a microwave oven including a motor part including a motor part generating electromotive force by a magnetic field generated in the transformer part. It can do the function of the motor at the same time, so it dissipates the high heat generated from the transformer and other parts without installing a separate motor, thereby simplifying the electrical room and reducing the cost.

Description

HIGH VOLTAGE TRANSFORMER FOR BOTH COOLING MOTOR COMBINED IN MICROWAVE OVEN RANGE}

The present invention relates to a high-voltage transformer for a microwave oven and a cooling motor, and more particularly, to design a high-voltage transformer so that the high-pressure transformer installed in the microwave can also serve as a cooling motor, so that a separate cooling motor can be omitted. It relates to a high pressure transformer for a cooling motor.

In general, a high voltage transformer is used in electronic products for cooking food using high frequency, such as a microwave oven, and heats a magnetron heater that generates high frequency while simultaneously forming a half-wave voltage circuit. It is a kind of power supply that generates high frequency by applying high voltage of 에 to magnetron through capacitor.

As shown in FIG. 1, a magnetron 55 and a transformer 60 are installed in the electric chamber 50 formed at one side of the microwave oven, and a cooling fan assembly to dissipate high heat generated in the electric chamber 50. 70 is installed.

The cooling fan assembly 70 is installed on the soundproof plate 72 installed at the rear of the electric compartment 50, the cooling motor 74 fixed to the soundproof plate 72, and the shaft of the cooling motor 74 to provide air flow. It consists of the fan 76 which generate | occur | produces.

Thus, when the microwave oven is operated, the high heat generated by the magnetron 55 and the transformer 60 causes the fan 76 to be driven by the rotation of the cooling motor 74 to dissipate the electric chamber 50.

Meanwhile, as illustrated in FIG. 3, the transformer 50 has an upper core 1, an input side coil 4, an output side coil 5, a shunt core 6, and a lower core 2. It consists of.

The high pressure transformer 60 configured as described above first welds a separate bracket 3 to the bottom surface of the lower core 2 in the electrical equipment room 50 and then connects the plurality of fastening holes 3a formed in the bracket 3. As shown in FIG. 3, it is fixed with a screw 65.

As described above, in the conventional microwave oven, since the transformer 60 is used for voltage boosting, a separate cooling motor 24 is installed in order to dissipate the high heat thereof. Although similar in structure, since they are separately installed as separate components, the situation is a factor of cost increase along with structural complexity of installing the cooling motor 74.

That is, the manufacturing cost of the microwave oven has increased due to a process separate from the installation of the cooling motor 74.

The present invention has been invented in view of the above problems, and an object of the present invention is to form a cooling motor and a transformer used in a microwave oven integrally so that a separate cooling motor is not installed, thereby reducing the cost and simplifying the structure. It is to provide a high pressure transformer for a microwave cooling motor.

In order to achieve the above object, the present invention, a transformer formed on the lower side of the transformer; A magnetic field induction part protruding upward from the transformer part; In addition, the lower portion is formed to be recessed to form a magnetic field induction unit and provides a high-voltage transformer for a microwave oven including a motor unit in which electromotive force is generated by a magnetic field generated in the transformer unit.

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

As shown in FIG. 4, the transformer 30 according to the present invention includes a transformer unit 10 and a motor unit 20, and a magnetic field induction unit 12 is disposed between the transformer unit 10 and the motor unit 20. Is formed.

The transformer unit 10 includes an upper core 1, an input coil 4, an output coil 5, and a lower core 2 to boost a high voltage.

The upper core 1 is formed by stacking a plurality of E-shaped iron pieces, and an input side coil 4 and an output side coil 5 are disposed at the center of the upper core 1.

The lower core 2 is formed by stacking a plurality of I-shaped iron pieces, and is welded to the lower end of the upper core 1.

In addition, the magnetic field induction part 12 protrudes integrally with the upper core 1 on the upper side of the transformer part 10, and the motor part 20 is coupled to the magnetic field induction part 12.

The motor unit 20 is recessed to form a lower portion to be coupled to the magnetic field induction unit 12 and the electromotive force is generated by the magnetic field generated in the transformer unit 10, which is installed in the magnetic field induction unit 12 is the flow path of the magnetic field It comprises a stator portion 22, a rotor portion 24 for generating a rotational electromotive force at the center of the stator portion 22, and a rotating shaft 28 provided in the rotor portion 24.

The rotating shaft 28 is fixed to the stator unit 22 by a bracket to maintain the rotation center.

It describes the operation of the present invention configured as described above.

5 is a schematic diagram for explaining the principle of the present invention.

While power is applied to the transformer 30 of the present invention and a boosting action is generated, the upper core 1 and the lower core 2 of the transformer 10 are connected to the input coil 4 and the output coil 5. The magnetic field is generated and flows in a certain flow path.

The magnetic field is guided through the magnetic field induction part 12 above the upper core 2 to form a magnetic field flow while flowing from one side of the stator part 22 to the other side.

Due to the magnetic field flow, in the rotor unit 24, a rotary electromotive force is generated by the coils 4 and 5 and the cores 1 and 2 of the transformer unit 10, thereby rotating the rotating shaft 28. That is, the magnetic field generated by the interaction between the coils 4 and 5 and the cores 1 and 2 by the power applied to the transformer unit 10 flows to the motor unit 20 through the magnetic field induction unit 12 and the motor. Since the electromotive force is generated in the stator part 22 of the part 20 and the rotor part 24 generates a rotational force, the rotating shaft 28 is rotated by the fixing of the bracket 26.

As a result, when power is applied to the transformer 30, a voltage boosting action is performed in the transformer unit 10, and a rotational force is generated in the motor unit 20 by the magnetic field and electromotive force generated in the transformer unit 10. As it is output, the rotating shaft 28 fixed to the bracket 26 is rotatable.

Thus, by installing a fan (not shown) to generate the air flow in the rotary shaft 28 can dissipate the high heat generated when the transformer 30 step-up action, and other components of the electrical equipment room is installed transformer 30 In addition, the high heat of the magnetron (not shown) has the feature that can be radiated at the same time.

As described above, the present invention can obtain the rotational force from the motor unit 20 by using the magnetic field and the electromotive force generated during the step-up action of the high-voltage transformer 30, so that the heat dissipation of the electrical chamber together with the heat radiation of the transformer 30 itself. Will be.

By the high-pressure transformer of the microwave oven cooling motor of the present invention, the high-pressure transformer installed in the microwave can simultaneously function as a motor for generating a rotational force, high heat generated in the transformer and other parts without installing a separate motor Since the heat dissipation, the electrical room is simplified and the cost is reduced.

In the above, the present invention has been described and illustrated by limiting it to a microwave oven, which is one embodiment of a transformer of the present invention, and the present invention is not limited to the above-described embodiment, and has a general knowledge in the art. If grown up, various changes may be made without departing from the spirit of the invention as set forth in the claims below.

1 is a partially exploded perspective view of an electrical equipment room of a conventional microwave oven.

Figure 2 is an exploded perspective view of a conventional high pressure transformer.

Figure 3 is a perspective view of the electric room showing the installation state of the conventional high-voltage transformer.

4 is an exploded perspective view of a transformer according to the present invention;

5 is a schematic diagram illustrating the principles of the present invention.

<Description of the symbols for the main parts of the drawings>

10: trans part 12: magnetic field induction part

20: motor portion 22: stator portion

24: rotor part 26: bracket

28: axis of rotation 30: transformer

Claims (2)

In the transformer 30 installed in the microwave oven, A transformer unit 10 formed below the transformer 30; A magnetic field induction part 12 protruding upward from the transformer part 10; And The lower portion is recessed to be fitted to the magnetic field induction part 12, and a high-pressure transformer for a microwave oven, characterized in that it comprises a motor unit 20 for generating an electromotive force by the magnetic field generated in the transformer (10). . The method of claim 1, wherein the motor unit 20, The stator part 22 which is provided in the magnetic field induction part 12 and becomes a flow path of the magnetic field, the rotor part 24 which generates a rotating electromotive force at the center of the stator part 22, and the rotor part 24 is installed in the rotor part 24. High-pressure transformer combined use of the cooling motor of the microwave oven, characterized in that it comprises a rotating shaft (28).