KR200226391Y1 - Anode Cap Structure of Flyback Transformer - Google Patents

Abstract

The present invention relates to an anode cap structure of a flyback transformer, wherein the body portion rounded into a concave shape can be wrapped around an insulating coating containing a conductor wire of an anode wire for supplying at least the high voltage power of the flyback transformer to the water pipe. In the anode cap structure of a flyback transformer comprising an anode cap provided, the conductor wire drawn in a straight direction from the insulation coating of the anode wire is wrapped around the clamping wire tightly through a tightening piece and then rotated 180 ° again so as to be combined with the conductor wire. Characterized in that it comprises a tightening member to be supported in close contact with the outer periphery of the body portion. Therefore, by improving the structure of the anode cap for supplying the high-pressure power generated from the flyback transformer to the water pipe, it is possible to enhance the coupling force between the conductor wires of the anode wire and the anode cap, and the above-mentioned due to external impact and shaking There is no fear that the conductor wire is easily detached from the body portion of the anode cap, and there is an excellent effect of accurately supplying a high pressure power supply to the water pipe.

Description

Anode Cap Structure of Flyback Transformer

The present invention relates to the structure of the anode cap of the flyback transformer, and more particularly, to improve the structure of the anode cap for supplying the high-voltage power generated from the flyback transformer to the water pipe. It relates to the anode cap structure of a flyback transformer that can further enhance the binding force.

Generally, a flyback transformer of a television or a single winding transformer for obtaining a high voltage for a water pipe using pulses generated during a return period of a horizontal deflection output in a television receiver. A case is provided, and a focus pack is coupled to an outer circumferential surface of the mold case. In addition, a focus wire, a screen wire, an anode wire, and the like extend long outside the mold case of the flyback transformer.

At this time, an anode cap is connected to an end of the anode wire, which is shown in FIG. 1.

1 is an exploded perspective view showing an anode cap of a flyback transformer according to the prior art, wherein reference numeral 10 in the figure is an anode wire for supplying a high voltage power of a flyback transformer to the receiving tube of a television through the anode cap 30. A wire 11 and an insulating coating 12 for embedding and insulating the conductor wire 11 are formed, and reference numeral 20 designates a cap cover.

The anode cap 30 for supplying the high voltage power of the flyback transformer supplied through the anode wire 10 to the water tube of the television is, as shown in FIG. 1, the insulating coating 12 of the anode wire 10. It is rounded in a concave shape so as to enclose a substantially plate-shaped body portion 31 to which the conductor wire 11 of the anode wire 10 is soldered and bent and extended from both ends of the body portion 31. It consists of the connection part 32 connected to the water pipe of the said television.

The assembly operation of the anode cap 30 of the flyback transformer according to the prior art having the above configuration will be described with reference to FIG. 2.

Figure 2 is a perspective view including a main portion cross section showing the anode cap of the flyback transformer according to the prior art.

First, the conductor wire 11 is drawn out of the insulation coating 12 of the anode wire 10 by a predetermined length and then rotated 180 ° again so that the conductor wire 11 closely adheres to the outer circumference of the insulation coating 12. Be sure to

Then, the insulating coating 12 and the conductor wire 11 are embedded using the body portion 31 of the anode cap 30 rounded in a concave shape, and the conductor wire 11 is again mounted on the body portion ( The assembly is completed by turning 180 ° toward the outer periphery of 31) and then soldering them together.

By the way, the anode cap 30 structure of the flyback transformer according to the prior art made of the configuration and assembly, the conductor wire of the anode wire (10) so that the high-voltage power generated from the flyback transformer can be accurately supplied to the water pipe ( 11) and the solder joint between the body portion 31 of the anode cap 30 should be made tightly together, because it is fixed to each other by the solder joint of the conductor wire 11 and the body portion 31, the external shock and The conductor wire 11 due to shaking was easily separated from the body portion 31 of the anode cap 30, which greatly hindered the performance of the product.

Accordingly, the present invention has been made to solve the above problems, the purpose of which is to improve the structure of the anode cap for supplying the high-voltage power generated from the flyback transformer to the water pipe, the external impact and An anode cap structure of a flyback transformer can be prevented from being easily separated from the body portion of the anode cap by shaking.

1 is an exploded perspective view showing an anode cap of a flyback transformer according to the prior art.

Figure 2 is a perspective view including a main portion cross section showing the anode cap of the flyback transformer according to the prior art.

Figure 3 is an exploded perspective view showing the anode cap of the flyback transformer according to the present invention.

Figure 4 is a perspective view including a main section showing the anode cap of the flyback transformer according to the present invention.

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

10: anode wire 11: conductor wire

12: insulation coating 20: cap cover

30: anode cap 31: body

32: connection part 33: tightening member

33a: tightening

The anode cap structure of the flyback transformer according to the present invention for achieving the above object is a concave shape so as to enclose an insulating coating containing a conductor wire of the anode wire for supplying at least the high-voltage power of the flyback transformer to the water pipe. In the anode cap structure of a flyback transformer comprising an anode cap having a rounded body portion, the conductor wire drawn in a straight direction from the insulation coating of the anode wire is wound tightly through a tightening piece and then rotated 180 ° again. It is characterized in that the technical configuration consisting of a tightening member to be supported in close contact with the outer periphery of the body portion with the conductor wire.

Hereinafter, a preferred embodiment of the anode cap structure of the flyback transformer according to the present invention will be described with reference to FIG.

Figure 3 is an exploded perspective view showing the anode cap of the flyback transformer according to the present invention, and the same name and the same reference numerals will be used for the same configuration having the same function as the conventional configuration.

The structure of the anode cap 30 of the flyback transformer according to the present invention, as shown in FIG. 3, has a substantially plate-shaped body portion rounded in a concave shape so as to enclose the insulating coating 12 of the anode wire 10 ( 31, a conductor which is bent from both ends of the body portion 31 and connected to the water tube of the television, and a conductor extending in a straight direction from the insulating coating 12 of the anode wire 10; The wire 11 is tightly wound through the tightening piece 33a and then rotated 180 ° to be in close contact with the outer circumference of the body part 31 together with the conductor wire 11 to the body part 31. It consists of an integrally molded tightening member 33.

The assembly operation of the anode cap 30 of the flyback transformer according to the present invention having the above configuration will be described with reference to FIG. 4.

Figure 4 is a perspective view including a main section showing the anode cap of the flyback transformer according to the present invention.

First, the conductor wire 11 drawn in the linear direction from the insulating coating 12 of the anode wire 10 can be closely supported by the fastening member 33, and then protruded on both sides of the fastening member 33. The conductor wire 11 is wound around the tightening piece 33a and integrated with the tightening member 33.

After that, the fastening member 33 together with the conductor wire 11 is brought into close contact with the outer circumference of the body portion 31 formed in a substantially concave shape, and then the conductor wire 11 and the fastening member 33 are closed. By soldering the mutual soldering is to simply complete the assembly.

As described above, the anode cap structure of the flyback transformer according to the present invention is a conductor drawn out linearly from the insulation coating of the anode wire to the body portion of the anode cap for supplying a high-voltage power generated from the flyback transformer to the water pipe. By tightening the wire tightly through the tightening piece and then rotating it 180 ° again, the fastening member is provided to be tightly supported on the outer circumference of the body part together with the conductor wire, thereby further increasing the coupling force between the conductor wire of the anode wire and the anode cap. It is possible to promote the conductor wires due to external impact and shaking, and there is no fear of easily detached from the body portion of the anode cap, there is an excellent effect that can accurately supply the high-pressure power to the water pipe.

Claims (1)

An anode cap of a flyback transformer comprising an anode cap having a concave rounded body portion to enclose an insulating coating containing a conductor wire of an anode wire for supplying at least the high voltage power of the flyback transformer to the water pipe. In structure, A conductor member drawn in a straight direction from the insulation coating of the anode wire is tightly wound through the tightening piece and then rotated 180 ° again so that the conductor wire is provided with a tightening member to be held in close contact with the outer circumference of the body part. An anode cap structure of a flyback transformer.