KR20000007031U - Focus Pack Insulation Structure of Flyback Transformer - Google Patents

Abstract

The present invention relates to a focus pack insulating structure of a flyback transformer, and includes a high voltage terminal pin for supplying a high voltage supplied from an anode wire to a circuit board embedded in a bottom of a case, and a coupling groove into which the high voltage terminal pin is fitted. In a focus pack insulating structure of a flyback transformer including a coupling body having a substantially rectangular shape projecting to a bottom surface of the case, the high voltage supplied from the anode wire is refracted so that it can be applied indirectly to the bottom of the case. It characterized in that it comprises an insulating end extended in the outward direction from the outer periphery of the engaging projection. Therefore, the insulating distance is extended to the outer periphery of the engaging projection for supporting the high-voltage terminal pin to be indirectly applied to the bottom of the case by refracting the high voltage supplied from the anode wire, thereby extending the insulation distance At the same time, it is possible to minimize the electric blow that is pressed on the bottom of the case has an excellent effect to prevent damage and damage that may occur in the connection portion of the case and the engaging projection.

Description

Focus Pack Insulation Structure of Flyback Transformer

The present invention relates to a focus pack insulation structure of a flyback transformer, and more particularly, to the outer periphery of the coupling protrusion for supporting the high voltage terminal pin to be indirectly applied to the bottom of the case by refracting the high voltage supplied from the anode wire. A focus pack insulation structure of a flyback transformer having an insulation end extended in a direction.

Generally, the flyback transformer 100 of a television refers to a single winding transformer for obtaining a high pressure for a water pipe using pulses generated during a return period of a horizontal deflection output in a television receiver, as shown in FIG. 1. A housing 110 is configured to accommodate the bobbin and the high pressure bobbin therein, and a focus pack 120 is coupled to an outer circumferential surface of the housing 110.

In this case, the focus pack 120 performs a function of exchanging a predetermined focus voltage and screen voltage with a cathode ray tube. The structure of the focus pack 120 will be described with reference to FIG. 2. Same as

2 is a perspective view including a partial cross-sectional view showing a focus pack insulating structure of a flyback transformer according to the prior art.

As shown in FIGS. 1 and 2, the focus pack 120 of the conventional flyback transformer 100 includes a case 122 having a circuit board 121 printed with a circuit pattern, and the case 122. The Fcus Knob 123 connected to the bottom circuit board 121 to adjust the focus voltage, the Screen Knob 124 to adjust the screen voltage, the anode wire 125 to supply high voltage power, and the circuit board. A ground pin 130 is directly connected to the main circuit board 200 to bypass the leakage current flowing on the 121.

In this case, the anode wire 125 is coupled to the high voltage terminal pin 140 connected to one end of the circuit board 121 to supply a high voltage, and the ground pin 130 is one side of the case 122. Protrudes from the other end of the circuit board 121 by soldering to the grounding wire 150 drawn from the other end of the circuit board 121 is pressed by the fixing protrusion 122a provided with a fixing groove (122b) on the main circuit board (200) The final connection is made.

In addition, the high-voltage terminal pin 140 is protruded into the case 122 and is fitted into and fixed to the coupling protrusion 122c having the coupling groove 122d therein, the coupling protrusion 122c of FIG. 2. As shown in the partial section A, it is shaped into a substantially rectangular body shape.

However, in the focus pack insulation structure of the flyback transformer according to the related art configured as described above, the high voltage terminal pin 140 for supplying the high voltage of the anode wire 125 to the circuit board 121 is formed inside the case 122. Since a high voltage supplied from the anode wire 125 is applied to the bottom surface of the case 122 along the outer circumference of the coupling protrusion 122c because it is used by being pressed into the coupling protrusion 122c having a rectangular shape that protrudes and is formed. Directly applied, the connection between the case 122 and the engaging projection (122c) is damaged or damaged, there was a big disadvantage that the defect of the product frequently occurs.

Accordingly, the present invention has been made to solve the above problems, the purpose of which is to engage the high pressure terminal pin to be indirectly applied to the bottom surface of the case by refracting the high voltage supplied from the anode wires It is to provide a focus pack insulating structure of a flyback transformer that can be extended to the outer periphery of the insulating end to extend the insulating distance and to minimize the electric blow applied to the bottom of the case. .

1 is a perspective view showing a typical flyback transformer.

Figure 2 is a perspective view including a partial cross-section showing the focus pack insulation structure of the flyback transformer according to the prior art.

Figure 3 is a perspective view including a partial cross-section showing the focus pack insulation structure of the flyback transformer according to the present invention.

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

100: flyback transformer 110: housing

120: focus pack 121: circuit board

122: case 122a: fixing protrusion

122b: fixing groove 122c: coupling protrusion

122d: coupling groove 122e: insulated end

123: Fcus knob 124: screen knob

125: anode wire 130: ground pin

140: high voltage terminal pin 150: ground wire

200: main circuit board

Focus pack insulation structure of the flyback transformer according to the present invention for achieving the above object, the high voltage terminal pin for supplying a high voltage supplied from the anode wire to the circuit board built in the bottom of the case, the high voltage terminal pin is fitted A focus pack insulating structure of a flyback transformer including coupling grooves having a coupling groove and protrudingly formed on a bottom surface of the case, wherein the high voltage supplied from the anode wire is refracted to the bottom surface of the case. It is a basic feature of the technical configuration that comprises an insulating end that is extended in an outward direction from the outer periphery of the coupling projection to be applied indirectly.

Hereinafter, a preferred embodiment of the focus pack insulation structure of the flyback transformer according to the present invention will be described with reference to FIG. 3.

Figure 3 is a perspective view including a partial cross-section showing the focus pack insulation structure of the flyback transformer according to the present invention.

As shown in FIG. 3, the focus pack insulating structure of the flyback transformer according to the present invention includes a case 122 having a circuit board 121 printed with a circuit pattern, and an anode wire 125 for supplying high voltage power. ) And a ground pin 130 directly connected to the main circuit board 200 to bypass the leakage current flowing on the circuit board 121.

In this case, the anode wire 125 is coupled to the high voltage terminal pin 140 connected to one end of the circuit board 121 to supply a high voltage, and the ground pin 130 is one side of the case 122. Protrudes from the other end of the circuit board 121 by soldering to the grounding wire 150 drawn from the other end of the circuit board 121 is pressed by the fixing protrusion 122a provided with a fixing groove (122b) on the main circuit board (200) The final connection is made.

In addition, the high voltage terminal pin 140 is protruded to the bottom surface of the case 122 and is fitted into and fixed to the coupling protrusion 122c having the coupling groove 122d therein, the coupling protrusion 122c of FIG. 3. As shown in the partial cross-section B, it is molded into a substantially rectangular shape and at the same time extends outward from its outer circumference so that the high voltage supplied from the anode wire 125 can be deflected and applied indirectly to the bottom of the case 122. A molded insulating end 122e is provided.

Here, the insulating end 122e extended to the outer circumference of the coupling protrusion 122c acts to substantially refraction the high voltage supplied from the anode wire 125 to extend the insulation distance and at the same time the case 122. The function of minimizing the electric blow is pressed to the bottom of the.

As described above, according to the focus pack insulation structure of the flyback transformer according to the present invention, the outer edge of the coupling protrusion supporting the high voltage terminal pin may be indirectly applied to the bottom of the case by refracting the high voltage supplied from the anode wire. By providing an insulation end extended in the direction, it is possible to extend the insulation distance and at the same time to minimize the electric impact applied to the bottom surface of the case and damages that may occur in the connection portion of the case and the engaging projection and There is an excellent effect to prevent breakage in advance.

Claims (1)

A substantially rectangular coupling protrusion having a high voltage terminal pin for supplying a high voltage supplied from an anode wire to a circuit board embedded in the bottom of the case and a coupling groove into which the high voltage terminal pin is fitted and protruding to the bottom of the case. In the focus pack insulation structure of the flyback transformer comprising a, Focus pack insulation of the flyback transformer comprising an insulating end portion extended outward from the outer periphery of the coupling protrusion to be indirectly applied to the bottom surface of the case by refracting the high voltage supplied from the anode wire rescue.