KR20030012394A - Coupling Structure of Input Department for Focus Pack - Google Patents

Abstract

PURPOSE: A combination structure of an input part of a focus pack is provided to prevent a short circuit by installing a pin at an input portion and connecting a conductive rubber of a molding case with a connection coil of a high voltage bobbin. CONSTITUTION: A high voltage bobbin(120) is formed in the inside of a molding case(110). A conductive rubber(111) is formed in the inside of the molding case(110). The conductive rubber(111) is connected to the high voltage bobbin(120). The high voltage bobbin(120) is combined with a low voltage bobbin. The high voltage bobbin(120) has a resistor(122), a resistor combination portion(123), and a connection portion(121). A focus pack(140) is combined with one side of the molding case(110) in order to generate a focus voltage and a screen voltage by applying a voltage from the high voltage bobbin(120) to a printed circuit board(144) through an input pin(141) and an input pin connection portion(142).

Description

Coupling Structure of Input Department for Focus Pack

The present invention relates to a coupling structure of a focus input unit. More specifically, a pin is installed at an input unit for applying a voltage to a focus pack of a flyback transformer and coupled with a connection coil of a high-pressure bobbin with a stationary rubber of a molding case. The present invention relates to a coupling structure of a focus input unit which reduces defect rate by increasing and preventing disconnection and is easy to assemble.

In general, a cathode ray tube (CRT) such as a TV receiver or a monitor is a flyback transformer that is a single winding transformer that boosts a pulse voltage generated at the flyback of a horizontal deflection output in order to supply a required high pressure.

The flyback transformer is composed of a low voltage and high pressure bobbin coiled coil, a ferrite core and a diode for rectifying high pressure, and the low voltage bobbin and the high pressure bobbin wound with coils to generate high pressure inside the housing are disposed to overlap. It is filled with the epoxy resin, and the core is mounted on the core insertion hole of the coil of the low pressure bobbin wound with the coil and the housing over the outer circumference of the coil to prevent power loss due to magnetization caused by the low pressure bobbin and the high pressure bobbin. A focus pack is installed to supply the tube with the proper focus voltage and screen voltage.

The focus pack and the flyback transformer according to the related art are inserted into the low pressure bobbin 30 and the high pressure bobbin 20 assembly into the molding case 10 as shown in FIGS. 1 and 2, and the high pressure bobbin 20 The resistor 21 is coupled to the outer side of the resistance coupling part 22) and the focus pack 40 is coupled to one side of the molding case 10, but the circuit board 43 is installed inside the focus pack 40. To the circuit board 43 to form a connecting portion 41 for applying a voltage of a flyback transformer to the circuit board 43, thereby coupling the resistance coupling portion 22 and the connecting coil 23 of the high voltage bobbin 20. Configure to

Here, the connection coil 23 for connecting between the resistance connecting portion 22 of the high-pressure bobbin 20 and the connecting portion 41 of the focus pack 40 is connected to each other by soldering a coil.

Thus, the coupling structure of the focus pack input of the related art configured by soldering is connected between the resistance coupling portion 22 of the high voltage bobbin 20 and the connection portion 41 of the focus pack 40 connected to apply the voltage of the flyback transformer. Since the coupling coil 23 is coupled, the focus pack 40 is always involved in the risk of disconnection, and since it is a connection by soldering, the resistance coupling part 22 is derailed or bent due to the position of the wire, and the high pressure bobbin flows due to high pressure. There was a problem that caused the failure of the productivity and lower the reliability of the product.

In order to solve the above problems, the objective is to form a pin at the input of the focus pack, and to form a conductive rubber in the mold case of the flyback transformer to form a mold on the circuit board of the focus pack and the resistance of the high pressure bobbin. Since the connection coil of the case and the input pin of the focus pack are inserted and connected with conductive rubber, the binding force is increased, and when the focus pack is assembled, it is assembled together for easy assembly.There is no risk of disconnection by connecting the pin to the conductive rubber. Since it is connected to the coupling coil inside the mold case, there is no risk of breakage of the high-pressure bobbin, thereby providing a coupling structure of the focus pack input unit that prevents defects and improves productivity.

1 is an exploded view showing a coupling portion of a flyback transformer and a focus pack according to the prior art.

Figure 2 is a partial cutaway bottom view showing the combined state of the flyback transformer and the focus pack according to the prior art.

Figure 3 is an exploded view showing the coupling portion of the flyback transformer and the focus pack according to the present invention.

Figure 4 is a partial incision bottom view showing a combined state of the flyback transformer and the focus pack according to the present invention.

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

100: flyback transformer 110: molding case

111: challenge rubber 112: connecting coil

120: high pressure bobbin 121: connection

122: resistance 123: resistance coupling portion

130: low pressure bobbin 140: focus pack

141: input pin 142: input pin connection portion

143: epoxy layer 144: circuit board

In order to achieve the above object, the coupling structure of the focus pack input unit of the present invention is a focus pack for applying a voltage of a flyback transformer to the coupling of the input unit, wherein the circuit board formed inside the focus pack is finished with an epoxy layer, but the circuit board The input pin is connected to the input pin and connected to the input pin, and the conductive rubber is inserted into the molded case of the flyback transformer. It is characterized by the technical configuration that the input pin is formed to be inserted and coupled to the conductive rubber at the time of mounting.

An embodiment of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

3 is an exploded view showing the coupling portion of the flyback transformer and the focus pack according to the present invention, Figure 4 is a partial cutaway bottom view showing a combined state of the flyback transformer and the focus pack according to the present invention.

As shown in FIGS. 3 and 4, the molded case 110 forming the outside of the flyback transformer 100 and connected to the high-pressure bobbin 120 formed therein and applying a voltage to the conductive case 111 is formed. The high-pressure bobbin 120 is coupled with the low-pressure bobbin 130 inside the molding case 110 and the resistor 122 is coupled to the resistance coupling part 123 to the outside to apply a voltage from the connection part 121. Coupled to one side of the molding case 110 to apply the voltage applied from the high-voltage bobbin 120 to the circuit board 144 through the input pin 141 and the input pin connecting portion 142 to generate the focus voltage and the screen voltage It consists of a focus pack 140.

The molding case 110 is inserted into the combination of the low-pressure bobbin 130 and the high-pressure bobbin 120 therein, the resistor 122 and the resistance coupling portion 123 for applying a voltage from the high-pressure bobbin 120 is coupled. Inserted into the conductive rubber 111 formed on the coupling side of the focus pack 140 of the molding case 110 with a connection coil 113 connected to the connection portion 121 formed in the coupling to the focus pin 140, the input pin 141 do.

The focus pack 140 connects the circuit board 144 formed therein with the input pin connection part 142 to the input pin 141 and insulates the epoxy layer 143 by covering the circuit board 144.

The operation of the present invention will be described as follows.

First, a combination of the low pressure bobbin 130 and the high pressure bobbin 120 is coupled to the molding case 110 of the flyback transformer 100 which is a single winding transformer from the bottom.

In this way, the connection portion 113 is formed by forming the connection portion 121 in the resistance 122 and the resistance coupling portion 123 of the high-pressure bobbin 120 is coupled.

In addition, the connection coil 113 connected to the connection portion 121 of the high-pressure bobbin 120 by installing a conductive rubber 111 for conducting electricity on the side to which the focus pack 140, which is one side of the molding case 110, is coupled. Combine to insert.

Thus, when connected to the high-pressure bobbin 120 with the connection coil 113 to the conductive rubber 111 of the molding case 110, the circuit board 144 is installed and connected to the input pin 141 by the input pin connecting portion 142. The conductive rubber 111 connected to the high voltage bobbin 120 with an input pin 141 connected to the circuit board 144 of the focus pack 140 on which the epoxy layer 143 filled with the epoxy was filled with the circuit board 144. Insert into combine.

Therefore, the low-pressure bobbin 130 and the high-pressure bobbin 120 are coupled to the molding case 110, and the conductive rubber 111 for conducting electricity on the coupling side of the focus pack 140 is connected to the high-pressure bobbin 120 and the coil 113. Insert and install by connecting the input pin 141 connected to the circuit board 144 of the focus pack 140 by the input pin connecting portion 142 to the conductive rubber 111 of the molding case 110, the flyback The voltage generated from the high voltage bobbin 120 of the transformer 100 is applied to the input pin 141 of the focus pack 140 coupled through the conductive rubber 111 connected by the connection coil 113 and the input pin 141. The voltage applied to is applied to the circuit board 144 coupled to the input pin connector 142.

As described above, the subject innovation of the present invention is a focus pack 140 for applying a voltage of the flyback transformer 100 through a combination of input pins 141, and a circuit board 144 formed inside the focus pack 140. Finishes with the epoxy layer 143 but forms an input pin connection part 142 on the circuit board 144 to connect with the input pin 141 and the focus pack 140 inside the molding case 110 of the flyback transformer 100. When the focus pack 140 is mounted in the state in which the conductive rubber 111 is coupled to the resistance coupling part 124 of the high-pressure bobbin 120 and the coupling coil 113 by the input pin 141 of the The input pin 141 is formed to be inserted and coupled to the rubber 111 to increase the binding force, and is assembled together when assembling the focus pack, so it is easy to assemble and connects the pin to the conductive rubber, so there is no risk of disconnection. High pressure bobbin wave because it is connected by connecting coil inside the case There is no risk on the hand, which prevents defects and improves productivity.

Claims (1)

In the focus pack 140 for applying the voltage of the flyback transformer 100 by the combination of the input pin 141, The circuit board 144 formed inside the focus pack 140 is finished with an epoxy layer 143, but an input pin connection part 142 is formed on the circuit board 144 to connect with the input pin 141 and a flyback transformer. The conductive rubber 111 is connected to the resistance coupling part 124 of the high-pressure bobbin 120 at the side where the input pin 141 of the focus pack 140 is coupled inside the molding case 110 of the 100. The coupling structure of the focus pack input unit, characterized in that the input pin 141 is inserted and coupled to the conductive rubber 111 when the focus pack 140 is mounted in the inserted coupling state.