KR20050007240A - 2 in 1 TRANSFORMER - Google Patents

Abstract

PURPOSE: A 2 in 1 transformer is provided to reduce a voltage difference between two output terminals by winding two bobbins and a magnetic compensating core as one integrity. CONSTITUTION: A 2 in 1 transformer has two outputs and includes a B core(3), a B' core(4), and two bobbin mounting portions(5). The B' core is implemented on the center of the B core. The bobbin mounting portions are implemented on both ends of the B core. The B core, B' core, and the bobbin mounting portion are integrated as one. The B' core is placed between two bobbins(6,6') while the bobbin mounting portion of the B core is inserted into the bobbin. An A core(1) opposite to the B core is configured to contact the B' core and the bobbin mounting portion of the B core. The B' core performs a magnetic compensation.

Description

2 in 1 TRANSFORMER}

The present invention relates to a two-in-one transformer having two outputs as one transformer, and is used for an inverter applied to a backlight inverter for driving cold cathode tubes (CCFL, EEFL) used as a TFT-LCD light source. It is about 2 person 1 transformer.

The conventional general transformer has a first and second cores 10 and 10 'as shown in FIG. 1, and is generally formed in an' E 'shape.

The cores 10 and 10 'are formed of a protrusion 13 and a bobbin which protrude from the base 12 and the base 12 toward the base 12 of the opposite cores 10 and 10', respectively. It is comprised by the installation part 14.

The path forming portion 13 extends from both ends of the base portion 12, respectively, and the bobbin mounting portion 14 extends from the center of the base portion 12.

The bobbin 15 was configured to surround the bobbin installation unit 14, but the bobbin installation unit 14 is inserted into the bobbin 15, and a coil is wound around the bobbin 15.

However, the prior art described above is a one-in-one transformer, in which only one output is generated in one transformer, and only one cold cathode tube can be driven by one transformer, thus several transformers may be used depending on the number of cold cathode tubes of several LCDs. There was a problem that it is necessary.

Another conventional technique is the registered utility model 20-0361524 and 20-0361525, the coil is wound around each of the two bobbin 104, as shown in Figure 2 to 4, the bobbin 104 is installed bobbin It was configured to surround the part 102, that is, the bobbin mounting portion 102 is configured to be inserted into the inside of the bobbin 104, the coil is wound around the bobbin 104.

As shown in FIG. 2, the tubular core 100 having a '∩' shape ('□' shape as viewed from the top) is configured to cover the bobbin 104 with a cover, and the core 100 of the prior art is tubular. It is difficult to process, the precision is low even after processing, and the manufacturing cost increases due to the large amount of materials used during core fabrication, and it takes up a lot of space, causing interference and contact with other electronic components in space when assembling with PCB. There was a problem.

In addition, as shown in FIG. 3, the core 100 having a '▣' shape as shown in FIG. 4 has a problem in that magnetic losses generated due to magnetic interference due to collisions between magnetic fields generated in two bobbins are moved.

The present invention is to solve the problems of the prior art, by providing another core between two bobbins having two boosting coils to minimize the output deviation of the output portion, to minimize the size of the core to secure space and manufacturing cost The purpose is to provide a configuration of two-in-one transformer to reduce the cost.

Still another object of the present invention is to provide a configuration of a two-in-one transformer that can configure a core that performs self-compensation, and can minimize magnetic loss due to magnetic interference caused by collision of magnetic fields with each other during movement of the magnetic field.

1 is an assembly view of a conventional general transformer

2 is a configuration and assembly diagram of a conventional two-in-one transformer

3 is a configuration and assembly diagram of another conventional two-in-one transformer

4 is a magnetic field diagram illustrating a moving direction of magnetic flux of a transformer of FIG. 3;

5 is an assembly view of a two-in-one transformer of the present invention

Figure 6 is a side cross-sectional view of a two-in-one transformer of the present invention.

7 is a magnetic field diagram showing the moving direction of the magnetic flux of the two-in-one transformer of the present invention;

8 is a perspective view of another embodiment of a two-in-one transformer of the present invention

9 is a perspective view of a modified embodiment of the two-in-one transformer of the present invention.

※ Explanation of code for main part of drawing

1. A core 2. Bobbin protrusion

3. B core 4. B 'core

5. Bobbin mounting 6, 6 '. Bobbin

7. Support 8. Input terminal

9. Output terminal 21. C core

22.C 'core 23.D core

24.D 'Core 25.E Core

26.F Core 27.F 'Core

28.G core 29.G 'core

30.H core 31.H 'core

In order to achieve the above object, the two-in-one transformer of the present invention includes a winding unit having another core between two bobbins in which two boosting coils are wound in order to minimize voltage deviation of two output terminals. Optimal design that can reduce the size of transformer by reducing the size of the transformer by reducing the deviation of the output part by tying the core and the core together, and making large contact with other electronic parts when the transformer size is large when assembling PCB and transformer. And magnetic interference caused by collision with each other during the movement of the magnetic field generated in the two bobbins. In order to reduce this, a configuration of a two-in-one transformer having a core that plays a role of self-compensation will be described with reference to the accompanying drawings. .

FIG. 5 is an assembled view of a two-in-one transformer of the present invention, FIG. 6 is a side cross-sectional view of a two-in-one transformer of the present invention, and FIG. 7 is a magnetic field diagram showing a moving direction of the magnetic flux of the two-in-one transformer of the present invention. 8 is a perspective view of another embodiment of a two-in-one transformer of the present invention, and FIG. 9 is a perspective view of a modified embodiment of the two-in-one transformer of the present invention.

5 to 7 of the present invention, the two-in-one transformer of the present invention is generally referred to as an E-I transformer, and two bobbins 6 and 6 'are provided on the support 7. The bobbin mounting portion 5 is inserted into the bobbins 6 and 6 ', and the A core 1 is provided on the input terminal 8 side, and the B core 3 is provided on the output terminal 9 side. It is.

B 'core (4) is provided at the center of the B core (3) and two bobbin mounting portions (5) are provided on both sides to form an integral, bobbin mounting portion (5) of the B core (3) is bobbin ( 6 'and 6') and the B 'core 4 is positioned between the two bobbins 6 and 6' and is provided on the input terminal 8 side opposite the bobbins 6 and 6 '. The core A 1 is in contact with the B 'core 4 and the bobbin mounting portion 5 of the B core 3.

Here, the magnetic field generated in the two bobbins 6 and 6 'flows to the B' core 4 located between the bobbin 6 and the bobbin 6 ', thereby eliminating magnetic interference generated by collision with each other during the movement of the magnetic field. A state is a composition that plays a role of self-reward

FIG. 8 is a perspective view of an E · E type, which is another embodiment of the present invention 2 person 1 transformer, in which a C ′ core 22 is provided at the center of the C core 21 on the input terminal 8 side and two on both sides. The bobbin mounting part 5 is provided and is integrally formed. The D core 23 on the output terminal 9 side is provided with a D'core 24 and two bobbin mounting parts 5 so as to provide bobbins 6 and 6. C core 21 and D core 23 are divided into the same shape, and the bobbin mounting portion 5 is in contact with each other in the center of the bobbins 6 and 6 '. In the middle between the two bobbins 6 and 6 ', the C' core 22 and the D 'core 24 come into contact with each other.

Here too, the magnetic field generated in the two bobbins 6 and 6 'flows to the C' core 22 and the D 'core 24 positioned in contact with each other in the center between the two bobbins 6 and 6'. It is a component that plays a role of self-compensation to eliminate self-interference caused by collision with each other.

The two-in-one transformer of the present invention provided as described above has two outputs as a single transformer, and the core area is reduced to secure space and at the same time, it can perform a self-compensation role.

In addition, the present invention is to reduce the voltage deviation of the two output terminals by binding the two bobbin coils (primary, secondary) and the core that serves as the self-compensation coil (winding) to one, so that the voltage difference between the two output terminals By uniformizing the brightness of the cold cathode tube having a great influence on the image quality, the LCD screen plays a role of enhancing the image quality.

In addition, the present invention includes the bobbin protrusions 2 before and after the bobbins 6 and 6 ', respectively, and its roles are the cores 1, 3, 4, 21, 22, 23, 24 and the bobbins 6, 6 ') prevents the core from flowing or leaving after joining, and reduces the change in the properties of the transformer after tapping and bonding operations.

Figure 9 shows a perspective view of a modified embodiment of the two-in-one transformer of the present invention, a) is provided with two bobbin mounting portion and the F 'core 27 integrally at the F core 26, the end portion It is composed of a core surrounding the outer side, the opposite side is provided with an E core 25, the bobbin mounting portion is inserted into the bobbin (6, 6 '), the F' core 27 is located between the two bobbin , The E core 25 is in contact with the F 'core 27 and the bobbin mounting portion, the F' core 27 plays a role of self-compensation, b) is the E core 25 and F core described above The G 'core 29 and the H' are configured to include the G core 28 and the H core 30 which are divided into the same shape as each other and come into contact with each other in the middle of the bobbins 6 and 6 '. The core 31 plays a role of self-compensation.

In addition, the same configuration as that of a general transformer will be omitted, and the configuration of the present invention will be more clearly described.

The present invention reduces the voltage deviation between the two output terminals by binding two bobbins wound around two boosting coils (primary and secondary) and a core for self-compensation, thereby reducing the luminance of the cold cathode tube. By making it uniform, it has the effect of improving the quality of LCD screen, and it performs the self-compensation role at the same time, and it is effective to reduce the magnetic loss. By making the area of the core smaller, the size of the transformer is also smaller. As the effect of securing a space to avoid contact with the electronic components and the cross-sectional area is reduced, it is a very useful invention that can reduce the material required and the cost of manufacturing.

Claims (3)

In a two-in-one transformer with two outputs in one transformer, A B 'core 4 is provided at the center of the B core 3, and two bobbin mounting portions 5 are provided at both sides of the B core 3, and the B core 3 and the B' core ( 4) and two bobbin mounting portions 5 are formed in one piece, The bobbin mounting portion 5 of the B core 3 is inserted into the bobbins 6 and 6 'and at the same time the B' core 4 is positioned between the two bobbins 6 and 6 'and the B core 3 The A core 1 on the opposite side of the B core 3 is in contact with the B 'core 4 and the bobbin mounting portion 5 of the B core 3, A two-in-one transformer, characterized in that the B 'core 4 plays a role of self-compensation. A core according to claim 1, wherein the A core (1) and the B core (2) are composed of a C core 21 and a D core 23 divided into the same shape with each other, so that each other in the middle of the bobbins 6, 6 '. A two-in-one transformer characterized by a configuration in contact. 2. The two-in-one transformer according to claim 1, wherein bobbin protrusions (2) are provided before and after bobbins (6, 6 ').