KR100254102B1 - Structure of focus pack in a flyback transformer - Google Patents

Abstract

PURPOSE: A focus pack structure of a flyback transformer is provided to reduce a fabrication cost and remove a badness cause by eliminating soft epoxy inserted in a focus pack case. CONSTITUTION: A focus input terminal(16) and a focus ground terminal are welded to a circuit substrate(11). An insulation wall(30) having a protruded rib(30a) is formed at a flyback case of a flyback transformer so that an empty space(P) may be formed between the insulation wall and the circuit substrate. A focus pack joining part(4) is formed at an outer side of the insulation wall so that the case(3) may be joined to the focus pack case(6). A section space is formed between a focus voltage circuit and a screen voltage circuit. A conduction-robber fixing part(30b) is integrated at one side of the focus pack case(6), and another conduction-robber fixing part is integrated at the other side of the focus pack case(6).

Description

Flyback Transformer Focus Pack Structure

The present invention focuses on the structure of a flyback transformer. In particular, the flyback transformer is designed to shorten the manufacturing process of the flyback transformer and to reduce the manufacturing cost by eliminating the soft epoxy inserted into the focus pack for protecting the substrate and electrical insulation. The focus pack structure of the transformer.

1 to 6, the focus pack structure of the conventional flyback transformer has a low pressure bobbin (1) and a high pressure bobbin (2) coupled by winding a coil, and the low pressure bobbin (1) and a high pressure bobbin ( 2) an FBT case 3 covering the focus pack, a focus pack coupling part 4 formed on the FBT case 3, a hard epoxy 5 injected into the FBT case 3, and cured; The focus pack case 6 which is directly coupled to the hard epoxy 5 while the focus pack is coupled to the FBT case 3 by the pack coupling part 4, and the focus / fastened to one side of the focus pack case 6. The screen knob 7, a spring 8 fastened to one side of the focus / screen knob 7 and fixed with an adhesive between the focus pack case 6 and the circuit board 11, and the FBT case 3. In order to protect the circuit board 11 in close contact with the hard epoxy 5 injected therein, Soft epoxy 9 to be cured, a bond 10 applied around the circuit board 11 so that the soft epoxy 9 is not leaked, and a diode of a high voltage bobbin covered by the FBT case 3 A coil 14 fixed to the fixing part 12 and wound around the diode 14 connected to the diode lead 13, a high voltage terminal 15 fixed to the diode lead 13 by soldering (A), and A focus input terminal 16 protruding from the focus pack case 6 so as to be connected to the high voltage terminal 15, an anode lead 17 connected to the high voltage output of the flyback transformer, and the focus pack case 6; A structure consisting of a focus lead 18 and a screen lead 19 drawn out from the inside thereof, the reference numeral 20 denotes a core, 21 denotes a core clamp, 22 denotes an anode cap, and 23 denotes a bushing.

The focus pack structure of the conventional flyback transformer configured as described above has the focus / screen knob 7 fastened to one side of the focus pack case 6 and then the circuit board 11 and the FBT case of the focus pack case 6. The spring 8 which is fixed by the adhesive agent between 3 is fastened.

Thereafter, the soft epoxy 9 is injected into the focus pack case 6 so as to protect the circuit board 11 and passes through a tunnel for applying heat to the soft epoxy 9 for a predetermined time (for example, 6 hours). Harden).

After the hard epoxy 5 is injected into the FBT case 3 covering the low pressure bobbin 1 and the high pressure bobbin 2 of the flyback transformer, the hard epoxy 5 is cured.

Here, the curing process of the soft epoxy 9 of the focus pack has to undergo a process of injecting the soft epoxy 9 into the focus pack case 6 after one hour of preheating, and then curing it by heating the curing furnace for five hours.

At this time, when the hard epoxy 5 is hardened or the thermal shock test or the hard epoxy 5 injected into the FBT case 3 in the region where the temperature difference is severe, the shrinkage or expansion operation of the hard epoxy 5 Soft epoxy (9) injected into the focus pack case (6) to protect the circuit board 11 in accordance with the contraction or expansion operation to absorb the impact applied to the circuit board 11, It is to prevent the contact failure between the spring (8) and the circuit board 11 fixed by the crack or the adhesive of 11).

However, in the focus pack structure of a conventional flyback transformer, the soft epoxy 9 is injected and used for the electrical insulation and protection of the circuit board 11 coupled with the focus pack case 6, but this is because of the manufacture of the focus pack. In order to harden the soft epoxy 9 in the process, a hardening process of a long time (for example, 6 hours) is required, resulting in a problem that the manufacturing cost increases and acts as a cause of defects.

In addition, when the focus pack case 6 is combined with the FBT case 3, the focus pack coupling part 4 formed in the FBT case 3 is configured to have a leaky leak of the hard epoxy 5. As a result, in the manufacturing process line of the flyback transformer, the focus pack case 6 and the FBT case 3 must be combined, thereby increasing the manufacturing cost of the product.

Accordingly, the present invention has been made to solve the above problems, by eliminating the soft epoxy inserted into the focus pack case for substrate protection and electrical insulation, so as to cure the soft epoxy in the manufacturing process of the focus pack ( For example, it aims to reduce the manufacturing cost by eliminating the hardening process that has to go through 6 hours) and to improve the productivity by eliminating the cause of defects.

In addition, by combining the focus pack case and the FBT case first, the manufacturing process line of the flyback transformer eliminates the insertion process of the focus pack case and the FBT case, thereby shortening the manufacturing line and improving manufacturing efficiency. The purpose is to completely block leaks.

1 is a plan view showing the structure of a conventional flyback transformer, b is a front view, c is a side view.

Figure 2a is a front view showing a focus pack structure of a conventional flyback transformer, b is a rear view, c is a plan view showing a structure of a circuit board coupled to the focus pack case.

Figure 3a is a bottom view showing a conventional focus pack structure, b is a cross-sectional view B-B of Figure 2a.

Figure 4a is a front view showing the case structure of a conventional flyback transformer, b is a bottom view thereof.

5 is a cross-sectional view taken along line D-D of FIG. 4A, and b is a cross-sectional view taken along line C-C of FIG. 4A.

6A is a cross-sectional view taken along line A-A of FIG. 1B, and b is an exploded cross-sectional view of FIG. 6A.

Figure 7 a is a front view showing the focus pack structure of the flyback transformer of the present invention, b is a rear view, c is a bottom view, d is a plan view showing the structure of the circuit board coupled to the focus pack case.

Figure 8a is a front view showing the case structure of the flyback transformer of the present invention, b is a cross-sectional view of the H-H of FIG. d is the bottom view of FIG. 8A, and e is the Z-Z sectional view of FIGS. 8A, 8D.

9 is a sectional view taken along line I-I of FIG. 8A of the present invention, and b is a sectional view taken along line E-E of FIG. 7A.

Figure 10a is a cross-sectional view A-A of Figure 1b implemented by the present invention, b is an exploded cross-sectional view of Figure 10a.

Focus pack structure of the flyback transformer of the present invention for achieving the above object is shown in Figure 7 to 10 attached,

In the focus pack structure of the flyback transformer,

The focus input terminal 16 and the focus ground terminal are fused and bonded to the circuit board 11 by soldering (A), and the focus / screen knob 7 is fastened to one side of the focus pack case 6, and then the spring 8 While inserting the bond 10 is applied between the focus pack case 6 and the circuit board 11 to be fixed,

An insulating wall 30 having ribs 30a protruding from the FBT case 3 so as to protect the circuit board 11 by completely separating the circuit board 11 and the hard epoxy 5 without contacting each other; Form,

Focus pack case (6) is coupled to the focus pack case (6) to the FBT case (3) outside the insulating wall 30 to completely block the leakage of the hard epoxy (5) in contact with the hard epoxy (5) Coupling portion 4; It is characterized in that the formed.

In addition, an incision space 50 into which the rib 30a of the insulating wall 30 is inserted between the focus voltage circuit and the screen voltage circuit to reinforce the discharge insulation between the focus voltage circuit and the screen voltage circuit of the circuit board 11. ); It characterized by forming.

In addition, at one side of the insulating wall 30, a conductive conductive rubber provided to contact the focus input terminal 16 and the high voltage terminal 15 when the FBT case 3 and the focus pack case 6 are coupled to each other. Forming a first conductive rubber fixing portion 30b so that 60A can be fixed,

The second conductive rubber 60B to be in contact with the focus input terminal 16 fixed to the circuit board 11 is fixed, but the second side is connected to the other side such that the conductive rubber 60B and the focus ground pin are in contact with each other. Conductive rubber fixing part 30c; As characterized in that the installed,

The same parts as in the prior art FIGS. 1 to 6 are denoted by the same reference numerals and description thereof will not be repeated.

The operation of the focus pack structure of the flyback transformer of the present invention configured as described above will be described with reference to FIGS. 7 to 10.

First, the focus input terminal 16 and the focus ground terminal are fused and soldered to the circuit board 11 by soldering (A).

Subsequently, when the insulating wall 30 protruding the rib 30a is formed in the FBT case 3 of the flyback transformer to perform the protection function of the circuit board 11, which is a function of the soft epoxy 9, the insulating wall An empty space P is formed between the 30 and the circuit board 11, so that the circuit board 11 and the hard epoxy 5 are completely separated without contacting each other, so that the circuit board 11 is protected. You will receive.

That is, the circuit board 11 is not directly in contact with the hard epoxy 5 injected into the FBT case 3 due to the empty space P that is generated, so that even without a soft epoxy during curing and thermal shock test of the epoxy It is to be able to prevent cracks and poor contact of the circuit board (11).

In addition, when the focus pack coupling part 4 is formed on the FBT case 3 that is outside the insulating wall 30 to couple the focus pack case 6 to the FBT case 3, the focus pack coupling part ( Since 4) does not come into contact with the hard epoxy 5 injected into the FBT case 3, the leak of the hard epoxy 5 injected into the FBT case 3 and cured can be completely blocked.

At this time, when the focus pack case 6 and the FBT case 3 are coupled to each other, the incision space 50 is formed between the focus voltage circuit and the screen voltage circuit of the circuit board 11, and then in the incision space 50. When the rib 30a protruding from the insulating wall 30 is inserted, the discharge insulation between the focus voltage circuit and the screen voltage circuit of the circuit board 11 is reinforced.

In addition, after the conductive rubber fixing part 30b is integrally formed on one side of the insulating wall 30, the conductive rubber fixing part 30b is fixed to the conductive rubber 60A having the conductive property. 3) When the focus pack case 6 is combined with the conductive rubber 60A, the focus input terminal 16 and the high voltage terminal 15 can be easily contacted.

On the other hand, the second conductive rubber fixing part (30c) on the other side of the insulating wall 30 so that another conductive rubber (60B) in contact with the focus input terminal (16) fixed to the circuit board 11 is fixed ) Is integrally formed, the focus input terminal 16 and the focus ground pin can easily contact the conductive rubber 60B fixed to the second conductive rubber fixing part 30c.

As described above, the present invention eliminates the soft epoxy inserted into the focus pack for substrate protection and electrical insulation, so that the curing process requires a long time (for example, 6 hours) to cure the soft epoxy in the manufacturing process of the focus pack. Inserts the focus pack and FBT case into the flyback transformer's manufacturing process line by reducing the manufacturing cost, reducing the cause of defects, improving productivity by combining the focus pack case and the FBT case first. By eliminating the process to shorten the manufacturing line and improve the efficiency of the manufacturing, it is effective to completely block the leakage of epoxy.

Claims (3)

In the focus pack structure of the flyback transformer, The focus input terminal 16 and the focus ground terminal are fused by soldering (A) to the circuit board 11, An insulating wall 30 having ribs 30a protruding from the FBT case 3 so as to protect the circuit board 11 by completely separating the circuit board 11 and the hard epoxy 5 without contacting each other; Form, Focus pack case (6) is coupled to the focus pack case (6) to the FBT case (3) outside the insulating wall 30 to completely block the leakage of the hard epoxy (5) in contact with the hard epoxy (5) Coupling portion 4; Focus pack structure of the flyback transformer, characterized in that formed. The rib 30a of the insulating wall 30 is inserted between the focus voltage circuit and the screen voltage circuit to reinforce the discharge insulation between the focus voltage circuit and the screen voltage circuit of the circuit board 11. Incision space 50; Focus pack structure of the flyback transformer, characterized in that formed. The conductive material of claim 1, wherein one side of the insulating wall 30 is provided to contact the focus input terminal 16 and the high voltage terminal 15 when the FBT case 3 and the focus pack case 6 are coupled to each other. A first conductive rubber fixing part 30b so that the conductive rubber 60A of the property can be fixed; The second conductive rubber 60B, which is in contact with the focus input terminal 16 fixed to the circuit board 11, is fixed, but the second side of the second conductive rubber 60B is in contact with the focus ground pin. Conductive rubber fixing part 30c; Focus pack structure of the flyback transformer, characterized in that the installation.

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