KR20030016766A - Focus pack structure for projection television - Google Patents

Abstract

PURPOSE: A focus pack structure for a projection television is provided to reduce the size of a printed circuit board and the quantity of printing of a circuit pattern and to eliminate an unnecessary process of covering a condenser protection cover. CONSTITUTION: A focus pack structure for a projection television includes a focus controller that is connected to a fly back transformer through a high-voltage cable and has a plurality of holes combined with focus control shafts. The focus pack structure further includes a condenser insertion part(14) formed at one side of the focus controller, and a printed circuit board(20) on which a focus control circuit pattern is printed. A condenser is placed inside the condenser insertion part. The condenser is fixed by hardening epoxy that is injected after the printed circuit board is set.

Description

Focus pack structure for projection television

The present invention relates to the improvement of the structure of a focus pack mounted on a projection television, and more particularly, a condenser is inserted into the condenser insertion part formed on one side of the focus adjusting part and fixed by epoxy molding, and the focus control part is formed. The present invention relates to a structure of a focus pack for a projection television that is connected to a flyback transformer (FBT) and a high voltage cable by mounting a printed circuit board with only a focus adjustment circuit inside the case.

Focus pack is a component that is generally applied to television receivers or computer monitors, and is coupled to a Fly Back Transfomer (FBT).

In addition, it is a high resistance variable resistor that controls the contrast and the screen of the CRT by varying the high pressure generated in the flyback transformer (FBT).

Looking at the conventional focus pack structure based on the drawings shown in Figures 1 to 3 as follows.

1 is a plan view of a conventional focus pack case, FIG. 2 is a rear view of a conventional focus pack case, FIG. 3 is a schematic diagram of a PCB circuit mounted inside a conventional focus pack, and FIG. 4 is a PCB inside a conventional focus pack. The rear view of the attached state.

As shown, the conventional focus pack is equipped with a PCB circuit board 5 having a plurality of resistance lines printed therein, and a focus control shaft connected to the PCB circuit pattern by a slider (not shown). 2) and the screen adjustment shaft 3, and the input and output terminals 7 connected to the PCB circuit board 5 fixed inside the case 1 are connected by soldering.

The case 1 has a focus adjusting shaft 2 and a screen adjusting shaft that enable the focus (focus) and the screen (contrast) of the blue (B), green (G) and red (R) to be adjusted at the top and bottom of the center. There are a plurality of through holes 2a and 3a into which (3) is inserted and coupled to the outside, and lattice ribs 4 are formed on the inner surface of the case.

The circuit pattern printed on the PCB mounted in the conventional focus pack case is as shown in Figure 3 from a plurality of resistance wires (R1 ~ R4), and outputs (B, G, R) and transformers (FBT, not shown) for each color It consists of an input terminal (F-IN) through which the generated high voltage flows and a ground terminal (F-GND) as an output terminal where the high voltage inside the circuit is detected.

On the other hand, the assembly process of the focus pack having the structure as described above will be briefly described based on Figure 5 showing a longitudinal cross-sectional view of the assembled state as follows.

5 is a longitudinal cross-sectional view of a conventional focus pack, in which a focus adjusting shaft 2 and a screen adjusting shaft 3 are coupled through the through holes 2a and 3a of the outer surface of the case 1, and a quadrangle is formed on the back of the case 1; PCB circuit board 5 is seated.

Subsequently, a plurality of capacitors 6 and a terminal 7 are joined to the upper part of the PCB circuit board 5 by soldering, and then the capacitor cover 6a and the terminal cover 7a are put on and the soft epoxy 8 is injected and cured. The assembly of the focus pack is completed by the application.

At this time, the soft epoxy (8) is cured for approximately a predetermined time at about 100 ℃ to protect the substrate from the external impact and serves as an electrical insulating material against high pressure.

Such a conventional focus pack has a problem of increasing the manufacturing cost of the PCB by forming a screen control unit for mounting the screen adjustment shaft (3), which is not used in recent years, and printing unnecessary screen output of the PCB circuit board. The disadvantage is that an unnecessary process is added by increasing the number of solder points for electrical connection between circuits of the phases.

Accordingly, the present invention was devised to solve the above-mentioned disadvantages and problems in the focus pack for a projection television, and an epoxy molding is formed in a state in which a capacitor insertion part is formed at one side of a focus control part formed inside the case. Fixed circuit board, and the printed circuit board printed with only the focus adjusting circuit part is mounted inside the case, thereby reducing the size of the printed circuit board and the printed pattern of the circuit pattern, and eliminating the unnecessary process of covering the capacitor cover. SUMMARY OF THE INVENTION An object of the present invention is to provide a structure for improving a focus pack for a projection television that can improve work efficiency and reduce manufacturing cost by shortening a manufacturing process.

1 is a plan view of a conventional focus pack case.

Figure 2 is a rear view of the conventional focus pack case.

Figure 3 is a circuit diagram of the PCB circuit pattern mounted inside the conventional focus pack.

Figure 4 is a rear view of a state in which the PCB is mounted inside the conventional focus pack.

5 is a longitudinal sectional view of a conventional focus pack.

Figure 6 is a plan view of a focus pack case according to the present invention.

Figure 7 is a rear view of the focus pack case according to the present invention.

8 is a plan view of a PCB circuit board mounted to the focus pack of the present invention.

9 is a rear view of a state in which the PCB is mounted inside the focus pack according to the present invention.

10A is a side view of a focus pack according to the present invention;

(B) is sectional drawing of the focus pack which concerns on this invention.

11 shows a wiring structure of a condenser mounted on a focus pack.

(A) is a conventional capacitor,

(B) is a capacitor according to the present invention

((Explanation of symbols for main parts of drawing))

10. Focus Pack 11. Case

12. Focus adjuster 12a. Through

13. Focus adjusting shaft 14. Condenser insert

15. Ground terminal groove 16. Capacitor

17. Terminal terminal 18. Terminal cover

19. Epoxy 20. PCB Circuit Board

The object of the present invention is a PCB circuit board in which a focus control circuit pattern is printed in a “b” shape so as to correspond to a condenser insertion part located at one side of the focus adjusting part so that the condenser is mounted inside the case and the focus adjusting part on the back of the case. It is achieved by a focus pack structure for a projection television consisting of.

The focus pack of the present invention has been previously described in which the size of the PCB circuit board mounted on the bottom of the case is removed as the screen adjustment part, which is an unnecessary part of the conventional focus pack case configuration described above, is removed and a capacitor insertion part is formed to insert the capacitor into the case. Compared to its size, it has technical features in one structure that can be reduced to about half the size.

The focus pack of the present invention takes an assembly process of directly inserting a capacitor into a capacitor insertion part provided on one side of a focus control part inside a case, fixing the lead wire connected to the capacitor by soldering, and then performing epoxy molding in a state where the capacitor is inserted.

The focus control unit inside the case is partitioned by a rib, and a PCB circuit board is mounted above the rib of the focus control unit.

The operational effects including the above object and technical configuration of the focus pack structure for the projection television of the present invention will be clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

First, Figure 6 is a plan view of the focus pack case according to the present invention, Figure 7 is a rear view of the focus pack case according to the present invention, Figure 8 is a plan view of a PCB circuit board mounted to the focus pack of the present invention.

As shown, the focus pack 10 for the projection television of the present invention has a focus adjusting unit 12 having a plurality of through holes 12a to which the focus adjusting shaft 13 is coupled to the lower side of the case 11. A stepped condenser insertion portion 14 protrudes out of the case so that the condenser is mounted inside the case on one side of the focus adjusting part 12, and the focus adjusting part 12 on the back of the case 11 is “b”. Molded in the shape of a child and consists of a structure that is mounted on the PCB printed circuit board 20, the focus control circuit pattern is printed.

At this time, one side of the capacitor insertion portion 14 is formed with a ground terminal groove 15 into which a terminal terminal wrapped by a terminal terminal cover is inserted.

The focus adjusting unit 12 inside the case 11 has a focus adjusting shaft 13 for adjusting focus for each color (R, G, B) through a through hole (12a), the focus adjusting unit (12) On the back, the PCB circuit board 20 on which the focus control circuit pattern is printed is molded and mounted to match the shape of the installation position.

In addition, a slider (not shown) is interposed between each of the focus control shafts 13 connected to the PCB circuit board 20 so as to be connected to a resistance printed portion on the PCB circuit board 20 so that the focus control shaft 13 may be connected to the PCB. It is configured so that a change in resistance value due to rotation can be made.

In addition, the condenser insertion portion 14 has a height at which the condenser can be sufficiently inserted, protrudes out of the case 11, and is formed stepwise along the transverse direction.

The PCB circuit board 20 mounted in close contact with the focus adjusting unit 12 inside the case 11 has a plurality of partial resistances R1 to R4 and color-specific outputs for adjusting the focus of the monitor screen inside the mounting unit. A part (R, G, B) is provided and includes an input terminal (F-IN) through which the high voltage generated by the flyback transformer is introduced and a ground terminal (F-GND) as the high voltage output terminal detected inside the circuit. "Is formed in the shape of a ruler.

Next, Figure 9 is a rear view of the PCB mounted inside the focus pack according to the present invention, Figure 10 (a) is one side view of the focus pack according to the present invention, (b) is a focus according to the present invention It is a cross section of the pack.

As shown, the focus pack 10 of the present invention is coupled to the focus adjusting shaft 13 through the through hole 12a formed in the focus adjusting unit 12, and the condenser is inserted into the focus adjusting unit 12. The capacitor 16 is inserted through the portion 14 and the terminal terminal 17 surrounded by the terminal cover 18 is inserted into and coupled to the ground terminal groove 15 formed at one side thereof.

Each output portion (B, G, R) of the PCB circuit board 20 is configured such that its surroundings are filled by the insulating adhesive 21 to minimize the effect on the focus output result according to the high voltage.

At this time, the insulating adhesive 21 is preferably cured for about 2 hours 30 minutes at 100 ℃.

Looking at the assembly process of the focus pack of the present invention configured as described above are as follows.

First, the focus adjustment shaft 13 is mounted to penetrate through the through hole 12a formed in the focus adjustment unit 12, and an insulating adhesive agent is formed on each of the output portions R, G, B and the rib surface of the PCB circuit board 20. After filling 21), the PCB circuit board 20 is mounted so that the circuit pattern is grounded by the slider.

Subsequently, a terminal terminal 17 coupled to the condenser 16 and the terminal cover 18 is inserted into and fixed to the condenser insertion portion 14 and the ground terminal groove 15 on the focus control portion 12.

Next, another component member for electrical connection is mounted in the case 11 including the upper portion of the PCB circuit board 20, and then a certain amount of epoxy 19 is injected to cure for a predetermined time at a temperature of approximately 100 ° C. The assembly of the focus pack is completed.

The focus pack of the present invention assembled as described above is applied as a single part connected to a flyback transformer (FBT) that provides a high voltage to a projection television by a high voltage cable.

11 shows a wiring structure of a capacitor mounted on a focus pack, (a) is a conventional capacitor, and (b) is a capacitor according to the present invention.

As shown in the figure, the condenser is conventionally individually connected to the condenser 16 by cutting the leads 16a attached to the respective condenser 16 and connecting them to the solder 21 on the solder jig JIG. Since the solder 21 is made in the process of bending the lead 16a of the capacitor 16, the solder 16 is simultaneously processed with the solder 16a.

As described above, the focus pack structure for a projection television of the present invention has a condenser insert portion formed at one side of the focus control portion to which the focus control shaft is coupled, so that the condenser is inserted into the case and fixed by epoxy molding on the upper portion thereof. By mounting the PCB circuit board in which only the focus adjusting circuit part is printed inside the case in which the focus adjusting part is formed, the size of the PCB circuit board and the printed amount of the circuit pattern are greatly reduced, thereby reducing the manufacturing cost including the printing cost. In addition, since the unnecessary process of covering the capacitor cover for protecting the capacitor in the manufacturing process is removed, there is an advantage that the manufacturing cost can be reduced and the manufacturing cost can be improved at the same time by shortening the assembly process.

Claims (4)

In a focus pack including a focus control unit having a plurality of through holes connected to a flyback transformer (FBT) by a high-voltage cable and coupled with a focus control shaft, the case 11 is disposed on one side of the focus control unit 12. It is formed so as to protrude downward and the condenser insertion portion 14, the condenser 16 is mounted therein, and the focus adjusting circuit formed on the back of the case 11 to be coincident with the outer peripheral portion of the focus adjusting portion 12. A focus pack structure for a projection television, characterized in that it comprises a printed circuit board printed circuit board (20). The focus pack structure for a projection television according to claim 1, wherein the capacitor (16) is fixed by curing of an epoxy (19) injected after mounting the PCB circuit board (20). The method of claim 1, wherein the focus control unit 12 is to reduce the effect of the output portion (B, G, R) printed on the PCB circuit board 20 mounted on the bottom of the focus output result according to the high voltage A focus pack structure for a projection television characterized in that an insulating adhesive (21) is filled around each output portion (B, G, R). The focus as set forth in claim 1, wherein the capacitor (16) is fixed by simultaneous operation of soldering (21) in the process of bending the capacitor lead (16a) while being mounted on the back of the case (11). Pack structure.