KR19980058568U - Ferrite core heat dissipation structure of flyback transformer (FBT) - Google Patents

Abstract

The present invention relates to a ferrite core heat dissipation structure of the FBT to facilitate the heat dissipation effect of the ferrite core installed inside the FBT, the technical configuration of the FBT (high pressure and low pressure bobbin (2) in the internal The ferrite core 3 divided into upper and lower parts is installed on one side of the case 1, and the ferrite core 3 is elastically U-clip 4 fastened to one side of the ferrite core 3 so that one end of the ferrite core is inserted into the low pressure bobbin 2. A plurality of heat dissipation grooves 5 are formed on the upper side and the lower side of the ferrite core 3 to which the core 3 is supported and fixed, and one end of which is inserted into the low pressure bobbin 2 of the FBT 1. It is a main point to increase the contact area of the ferrite core 3.

Accordingly, the high heat generated from the low-pressure bobbin and ferrite core of the FBT can be easily released through the upper and lower heat dissipation holes of the ferrite core, and the exposed portion of the ferrite core increases the contact area with the atmosphere to increase the heat dissipation effect. It can be done.

Description

Ferrite core heat dissipation structure of flyback transformer

The present invention is a flyback transformer (hereinafter referred to as FBT), which is a high voltage generator for supplying high voltage to a CRT of a TV and a monitor, and performs heat dissipation of ferrite cores installed inside the FBT to serve as a magnetic circuit. It relates to the heat dissipation structure of the ferrite core of FBT, which makes it possible to smoothly. Therefore, the high heat generated from the low-pressure bobbin and ferrite core of the FBT can be easily released through the upper and lower heat dissipation holes of the ferrite core, and the exposed portion of the ferrite core increases the heat dissipation effect by widening the contact area with the atmosphere. It relates to a ferrite core heat dissipation structure of the FBT.

In the conventional known ferrite core coupling structure of the FBT, as shown in Figure 1, the ferrite core 23 is divided into the upper and lower parts of the case side of the FBT 21 in which the high and low pressure bobbin 22 is interpolated therein. ) Is installed, the ferrite core 23 is one side of the elastic U clip 24 is fastened to the end is made of a structure for supporting and fixing the ferrite core (23) inserted into the inside of the low-pressure bobbin (22).

The conventional ferrite core 23 having the coupling structure as described above is the FBT 21 through the ferrite core 23 exposed to the outside of the FBT case in the state where one end is inserted into the low pressure bobbin 22 of the FBT 21. ) Will form a magnetic circuit.

However, in the ferrite core 23 as described above, high heat is generated in the low pressure bobbin 22 and the ferrite core 23 interpolated by the high heat generated to draw a high voltage inside the FBT 21. In this case, the ferrite core 23 does not have a separate heat dissipation structure, resulting in deterioration of characteristics due to the generation of high heat, thereby deteriorating the electrical characteristics of the FBT.

The present invention is devised to improve the various problems as described above, the purpose is that the high heat generated from the low pressure bobbin and ferrite core of the FBT can be easily released through the upper and lower heat dissipation holes of the ferrite core. To provide a ferrite core heat dissipation structure of the FBT, the exposed portion of the ferrite core can increase the heat dissipation effect by widening the contact area with the atmosphere.

The present invention as a technical configuration for achieving the above object, the FBT formed of a plurality of heat dissipation grooves on the upper side and the lower side of the ferrite core is inserted into the low pressure bobbin of the FBT to increase the contact area with the atmosphere By providing a ferrite core heat dissipation structure.

1 is a schematic perspective view illustrating a coupling structure of a case of a general FBT and a ferrite core installed thereon.

Figure 2 is a perspective view showing a ferrite core coupling structure installed in the case of the FBT according to the present invention.

Figure 3 is a perspective view of the main part showing a heat radiation structure of the FBT ferrite core according to the present invention.

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

1: FBT2: Low Pressure Bobbin

3: ferrite core 4: U clip

5: heat dissipation groove

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

Figure 2 is a perspective view showing a ferrite core installation structure of the FBT according to the present invention, Figure 3 is a main perspective view showing a heat dissipation structure of the FBT ferrite core according to the present invention, the high pressure and low pressure bobbin (2) therein A ferrite core 3 divided into upper and lower parts is installed on one side of the case of the FBT 1, and an elastic U clip 4 is fastened to one side of the ferrite core 3 so that one end is inserted into the inside of the low pressure bobbin 2. The ferrite core 3 is supported to be fixed.

In addition, a plurality of heat dissipation grooves 5 are formed on the upper side and the lower side of the ferrite core 3, one end of which is inserted into the low pressure bobbin 2 of the FBT 1, and the contact area between the atmosphere and the ferrite core 3 is formed. The configuration is made to increase.

Referring to the operation and effects of the present invention composed of such a structure as follows.

As shown in Figs. 2 and 3, the case of the FBT 1 is divided into upper and lower parts in the state in which the high-voltage and low-pressure bobbins 2, in which the coil is wound, are inserted to draw out the high voltage into the inside of the FBT 1; The ferrite core 3 thus constructed is installed to form a magnetic circuit of the FBT 1.

At this time, one end of the ferrite core (3) is inserted into the inside of the low-pressure bobbin (2) to form a circuit, while the other side opposite to the elastic material U clip (4) is fastened to support the ferrite core (3) do.

On the other hand, the ferrite core 3, one end of which is inserted into the low-pressure bobbin (2) of the FBT (1), the high heat generated by the high voltage of the FBT (1) is generated, the high temperature is exposed to the outside of the FBT case The ferrite core 3 is discharged to the outside while contacting the atmosphere.

At this time, the ferrite core 3 in contact with the atmosphere is contacted by the heat dissipation groove 5 due to the plurality of heat dissipation grooves 5 in the width direction on the upper side and the lower side of the ferrite core 3. The area is increased to increase the heat release effect.

Therefore, the ferrite core 3 concave the heat dissipation grooves 5 in the width direction above and below, thereby widening the contact area between the ferrite core 3 and the atmosphere, thereby making the inside of the FBT 1 open. It will be able to effectively release the high heat generated in the outside.

According to the ferrite core heat dissipation structure of the FBT according to the present invention, the high heat generated from the low pressure bobbin and ferrite core of the FBT can be easily released through the upper and lower heat dissipation holes of the ferrite core, the exposure of the ferrite core By increasing the contact area with the additional atmosphere, the heat dissipation effect can be increased, and accordingly, there is an excellent effect of improving the characteristics of the FBT.

Claims (1)

Ferrite core (3) divided into upper and lower parts is installed on one side of the case of the FBT (1) in which the high-pressure and low-pressure bobbin (2) is inserted therein, and the elastic U clip (4) is fastened to one side of the ferrite core (3). In the ferrite core of FBT, one end of which is to support and fix the ferrite core 3 inserted inside the low pressure bobbin 2, A plurality of heat dissipation grooves 5 are formed on the upper side and the lower side of the ferrite core 3 into which the one end is inserted into the low pressure bobbin 2 of the FBT 1 to increase the contact area between the atmosphere and the ferrite core 3. FBT ferrite core heat dissipation structure, characterized in that consisting of a configuration.