KR100693826B1 - Insulating material heating device of deflection yoke - Google Patents

Abstract

Insulating material heating device of the deflection yoke of the present invention vertically installed the cylinder 111 on the upper portion so as to correspond to the neck portion 12 of the deflection yoke 10 sequentially moved by the conveyor (20) rod rod 111 The fixing block 112 is installed at the end of the 111a to lower the rod 111a so that the fixing block 112 fixes the neck portion 12 of the deflection yoke 10, and Located on both sides of the power induction terminal 11 of the deflection yoke 10, the heating wire 122 is inserted into the body 121, and the outlet 121a is shaped like a trumpet, and an air supply hose is provided at the rear of the heating wire 122. 130 is a hot air device 120 for fusion welding the tube 15 inserted into the power induction terminal 11 with the hot air discharged by installing the tube 15 without causing external damage to the deflection yoke (10) Can be effectively fused to the power induction terminal 11 to minimize the defect rate of the deflection yoke 10 and It has the effect to improve the castle.

Description

Insulating material heating device of deflection yoke             

1 is an operating state diagram showing a state in which the deflection yoke is fixed to the deflection yoke insulation material heating apparatus of the present invention.

Explanation of symbols on the main parts of the drawings

10: deflection yoke 11: power induction terminal

12: neck part 13: neck

14: vertical deflection coil 15: tube

20: conveyor

100: heating device 110: neck fixing

111: cylinder 111a: rod

112: fixing block 112a: fixing groove

120: hot air unit 121: body

121a: outlet 122: hot wire

130: air supply hose

The present invention relates to a heating device for insulating material of the deflection yoke, and in detail, the insulation material is fused to the power induction terminal formed in the deflection yoke without external damage to the deflection yoke, thereby minimizing the defect rate of the deflection yoke, thereby improving productivity. The present invention relates to a yoke insulation heating device.

Generally, deflection yoke used as a magnetic device of a cathode ray tube such as a TV receiver or a monitor is an electron beam when an electric signal transmitted in a time series is deflected and reproduced two-dimensionally as an image in a cathode ray tube. Deflecting function.

The deflection yoke causes the electron beam to be deflected by supplying power supplied from the external to the horizontal deflection coil and the vertical deflection coil through the power induction terminal when the electron beam is emitted from the electron gun.

At this time, in order to prevent the coil of the horizontal deflection coil and the vertical deflection coil which are powered by being soldered to the power induction terminal, a tube, which is an insulation material, is inserted into the power induction terminal and welded to the iron.

However, when welding the tube inserted into the power induction terminal with the iron, the iron induces heat to the neck and the vertical deflection coil of the deflection yoke while the power induction terminal and the iron are not correctly positioned. There was a problem of serious damage to the deflection yoke.

In order to achieve the above object, the insulation material heating device of the deflection yoke of the present invention accurately places the deflection yoke, and then applies a hot air to the tube inserted into the power induction terminal, without causing external damage to the deflection yoke, and thus, the tube to the power induction terminal. It is to be able to fuse effectively.

In order to achieve the above object, the insulating material heating device of the deflection yoke of the present invention vertically installs a cylinder at the top to correspond to the neck portion of the deflection yoke that is sequentially moved by a conveyor, and installs a fixed block at the end of the cylinder rod. When the rod is lowered, the fixing block is located on both sides of the neck fixing part that fixes the neck of the deflection yoke, and the deflection yoke is placed on both sides of the power induction terminal. It is characterized by the basic configuration of the technical configuration that consists of a hot air device for fusion welding the tube inserted into the ground terminal by the hot air emitted by installing.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention configured as described above are as follows.

1 is an operational state diagram showing a state in which the deflection yoke is fixed to the deflection yoke insulation material heating apparatus of the present invention.

As shown in FIG. 1, the insulating material heating device of the deflection yoke of the present invention vertically moves the cylinder 111 on the upper portion so as to correspond to the neck portion 12 of the deflection yoke 10 which is sequentially moved by the conveyor 20. And the fixing block 112 is installed at the end of the rod 111a of the cylinder 111 to lower the rod 111a to the neck 113 of the deflection yoke 10 in the fixing groove 112a of the fixing block 112. ) Is placed on both sides of the neck fixing part 110 and the power induction terminal 11 of the deflection yoke 10, and the heating wire 122 is inserted into the body 121 and the outlet 121a is in the shape of a trumpet. It consists of a hot air blower unit 120 for fusion welding the tube 15 inserted into the power induction terminal 11 with the hot air emitted by installing the air supply hose 130 on the rear side of the hot wire 122.

In addition, the fixing groove 112a of the fixing block 112 of the neck fixing part 110 is formed to have the same size as the outer circumferential surface of the neck 13.

Here, the air supply hose 130 of the hot air blower unit 120 is installed on the rear side of the bottom of the body 121 so that the air supplied from the air supply hose 130 passes through the hot wire 122 to be injected toward the outlet 121a. To be able.

Furthermore, the hot air blower unit 120 allows the hot wire 122 to be wound in an annular shape on the inner circumferential surface of the body 121 to rapidly increase the temperature of the air passing through the hot wire 122.

Referring to the operation of the present invention as follows.

First, when the deflection yoke 10 which is aligned with the upper surface of the conveyor 20 and sequentially moves is positioned in the heating apparatus 100, the cylinder 111 of the neck fixing part 110 moves the rod 111a downward to load the rod 111a. Insert the neck 13 of the deflection yoke 10 into the fixing groove 112a of the fixing block 112 fixed to the end of the deflection yoke 10 so that the deflection yoke 10 is heated by the neck fixing part 110. When fixed in the), the power induction terminal 11 of the deflection yoke 10 is positioned to correspond to the hot air blower unit 120.

In this case, when the heating wire 122 is heated by applying a current to the heating wire 122 that is wound around the inner circumferential surface of the body 120 of the hot air device 120, the air supply hose 130 blows air into the body of the hot air device 100. It is supplied to the inside of the 121 and passes through the heating wire 122 installed to be wound in an annular shape on the inner circumferential surface of the body 121.

When the air moves through the hot wire 122 to the outlet 121a side of the body 121, the temperature of the air is rapidly increased by the hot wire 122 is injected to the outlet 121a side. As a result, the tube 15 inserted into the power induction terminal 11 of the deflection yoke 10 is melted by heat by the hot air injected from the hot air device 120.

As such, when the tube 15 is melted by the hot air blower unit 120, the cylinder 111 of the neck fixing unit 110 pulls the rod 111a. At this time, the fixing block 112 fixed to the neck 13 of the deflection yoke 10 is moved upward by the rod 111a, and the neck 13 of the deflection yoke 10 is fixed to the fixing block 112 of the fixing block 112. The deflection yoke 10, which is fixed by the neck fixing part 110, is detached and released from 112a.

Thus, the tube 15 coupled to the power induction terminal 11 of the deflection yoke 10 in the molten state is firmly fixed to the power induction terminal 11 while being gradually cooled by the atmospheric temperature.

As such, the heating device 100 that effectively fuses the tube without causing external damage to the deflection yoke is repeatedly deflected by repeating the above process on the plurality of deflection yokes 10 which are aligned with the conveyor 20 and sequentially move. The productivity of the yoke 10 is improved.

The cylinder 111 is vertically installed in the upper portion so as to correspond to the neck portion 12 of the deflection yoke 10 sequentially moved by the conveyor 20, and the fixed block 112 is disposed at the end of the rod 111 a of the cylinder 111. When the rod 111a is installed downward, the fixing block 112 fixes the neck portion 12 of the deflection yoke 10 and the power induction terminal of the deflection yoke 10. 11) are located on both sides of the body 121 in the hot wire 122 inside the body 121, the outlet 121a is formed in the shape of a trumpet, and installed by the air supply hose 130 on the rear side of the hot wire 122 to power the hot air discharged Consists of a hot air blower unit 120 for fusion welding the tube 15 inserted into the induction terminal 11 effectively fusion welding the tube 15 to the power induction terminal 11 without causing external damage to the deflection yoke 10. By making it possible to minimize the defective rate of the deflection yoke (10) has an effect to improve the productivity .

Claims (1)

The cylinder 111 is vertically installed in the upper portion so as to correspond to the neck portion 12 of the deflection yoke 10 sequentially moved by the conveyor 20, and the fixed block 112 is disposed at the end of the rod 111 a of the cylinder 111. When the rod 111a is lowered by installing the fixed block 112, the neck fixing part 110 which fixes the neck portion 12 of the deflection yoke 10, Located on both sides of the power induction terminal 11 of the deflection yoke 10, the heating wire 122 is inserted into the body 121, and the outlet 121a is shaped like a trumpet, and an air supply hose is provided at the rear of the heating wire 122. Deflection yoke insulation heating device, characterized in that consisting of a hot air blower unit 120 for fusion fusion of the tube 15 inserted into the power induction terminal 11 with the hot air discharged by installing (130).

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