KR0136471B1 - Inner graphite film coating system of funnel for color cathode ray tube - Google Patents

Abstract

The present invention relates to an internal graphite coating device for a color cathode ray funnel, which is simple because the graphite slurry is applied only to the inner surface of the funnel when the graphite slurry is leaked through a nozzle to apply the internal graphite film to the inner surface of the funnel. And quick work is possible.

To this end, the present invention provides an air cylinder 33 operated by air pressure, a support 34 moving up and down according to the operation of the air cylinder, and a funnel 3 detachably supported by the support. Through the nozzle 24, including a pipe 35 fitted into the neck portion 2 integrated with the funnel, and a funnel 36 integrally formed at the upper end of the pipe and contacting the inner surface of the upper end of the neck portion 2; When the spilled graphite slurry flows while buried on the inner surface of the funnel 3, the flowing graphite slurry is guided to the recovery tank 25 through the funnel 36 and the pipe 35.

Description

Internal Graphite Coating Device of Funnel for Color Cathode Ray Tube

1 is a cross-sectional view showing a typical colored cathode ray tube

2 is a front view showing a state in which an internal graphite film is applied to a color cathode ray funnel using a conventional apparatus;

3 is a reference diagram showing a state of removing the inner graphite film applied together in the neck portion when applying the inner graphite film of the color cathode ray tube funnel using a conventional apparatus.

4 is a front view showing a state in which an internal graphite film is applied to a color cathode ray funnel using the device of the present invention.

* Explanation of symbols for main parts of the drawings

2: Neck 3: Funnel

24: Nozzle 26: Recovery tank

33: air cylinder 34: support

35: Pipe 36: funnel

The present invention relates to an internal graphite coating apparatus for a color cathode ray funnel, and more particularly, to change the structure and to quickly and simply apply the internal graphite coating. In the conventional color cathode ray tube, as shown in FIG. 1 of the accompanying drawings, a panel (Punl) 1 and a funnel 3 having a neck portion 2 rearwardly are integrated with a bulb form. In the neck portion 2, an electron gun 4 is embedded to generate three colors of red, green, and blue electron beams, and an outer circumferential surface of the neck portion 2 of the funnel 3 is formed. The deflection yoke 5 is installed in the horizontal direction to vertically deflect the electron beam generated and emitted from the electron gun 4, and the frame 6 is provided with a plurality of support springs 7 inside the panel 1. It is supported by the panel 1 side of the frame 6 is fixed to the shadow mask (Shadwo Mask) 8, which has a large number of small holes, so as to pass a part of the electron beam emitted from the electron gun 4 is fixed, On the funnel 3 side of the frame 6, the electron beam emitted from the electron gun is a geomagnetic field or a leakage magnetic field. An inner shield 9 is fixed to prevent the path from being deformed. The inner surface of the panel 1 has a fluorescent film so that an image is formed when an electron beam passing through the shadow mask 8 strikes. (10) is applied, the inner graphite film 11 is applied to the inner surface of the funnel (3) to apply a high pressure to the shield cup (not shown) of the electron gun (4), the interior Graphite film is applied by various methods as follows because the adhesion is strong and the film thickness should be as uniform as possible.

How to apply with the first brush or sponge

How to apply by second spray

How to apply by third deposition

Fourth coating method using the coating device

Among the various methods, the first method has a problem in that the process is complicated and the film is not uniform when the coating is completed. The second method has a problem that zebras are generated depending on the dispersion state of graphite slurry (raw material of the conductive film). The fourth method is usually used because there is a problem in that it takes a lot of time because it has to be deposited one by one in the graphite slurry.

The conventional structure of the coating device is a paint tank 21 for storing the graphite slurry as a raw material of the conductive film, as shown in Figure 2 of the accompanying drawings, and is connected to the lower portion of the paint tank by a first connecting hose 22 On the electron valve 23 for controlling the flow rate of the graphite slurry, the nozzle 24 for letting out the graphite slurry by the amount controlled in the electron valve to the inner surface of the funnel (2), and the lower surface of the electron valve (23) Attached to the nozzle 24 to move in a circle, the graphite slurry flowing out to the inner surface of the funnel (2) and the mobile robot 25, and flows while buried on the inner surface of the funnel (2) A recovery tank 26 receiving the lowered graphite slurry, and a control tank connected to the second connection hose 27 on one side to adjust the temperature and viscosity of the graphite slurry forcedly pumped by the motor pump 28 ( 29) and one end is connected to the control tank The other end is connected to the tank 21 it consists of a graphite slurry in the adjusting tank 29 according to the operation of the metering pump 30 to the circulation hose 31, which send to the painting material tank 21. Therefore, the graphite tank is stored in the paint tank 21 and the electric valve 23 and the motor pump are supplied when power is supplied while supporting the funnel 3 constituting the color cathode ray tube by a separate means (not shown). 28, the metering pump 30 is driven and the mobile robot 25 is moved to move the nozzle 24, wherein the graphite slurry stored in the paint tank 21 is controlled by the electromagnetic valve 23 The amount of graphite slurry flows out through the nozzle 24 which is guided and moved through the first connection hose 22 and flows down evenly on the inner surface of the funnel 3 so that the graphite falls inside the funnel 3. The film 11 is applied.

In this way, the remaining graphite slurry buried in the funnel 3 continues to bury until the neck portion 2 integrated in the funnel and then is recovered in the recovery tank 26, and the graphite slurry recovered in the recovery tank is driven. Guided to the second connection hose 27 by the motor pump 28 enters the control tank 29 and the temperature and viscosity are adjusted, the graphite slurry is adjusted temperature and viscosity in the control tank of the metering pump 30 In accordance with the driving, a certain amount is guided to the circulation hose 31 to enter the paint tank 21 and continue to be used as a raw material of the internal graphite film 12 to be applied to the funnel 3.

On the other hand, when the internal graphite film 11 is formed in the funnel 3 in the same manner as described above, the amount of graphite slurry remaining in the funnel and then recovered in the recovery tank 26 is too large or too small. By adjusting the amount of graphite slurry flowing out through the nozzle 24, and if the film thickness of the graphite slurry on the funnel 3 is too thin or too thick, the viscosity of the graphite slurry by the control tank 29 And adjusting the temperature, and if the amount of graphite slurry guided to the paint tank 21 from the control tank is too large or too small, the amount of graphite slurry guided to the paint tank 21 by the metering pump 30 is adjusted. You can adjust it.

In this way, the graphite slurry is deposited on the inner surface of the funnel (3), and then the graphite slurry continues to flow down to the inner surface of the neck portion (2) integrated in the funnel (3), so that the graphite slurry on the inner surface of the neck portion Is to be removed, in which case the funnel 2 is transported by a transfer means (not shown) such that the wiper 32 is inserted into the neck portion 3 integrated in the funnel 2 as shown in FIG. After the wiper 32 is rotated, the graphite slurry adhered to the inner surface of the neck portion 3 is completely removed by the rotating wiper, and when the graphite slurry is first removed, the inner surface of the neck portion 3 is continuously fluorinated. Wash off with hydrogen or pure water to remove secondary.

To remove the inner graphite film on the inner surface of the neck portion, the assembly of the color cathode ray is completed if the inner graphite film is applied to the portion other than the shield cup constituting the electron gun when installing the electron gun into the neck during assembly of the color cathode ray tube This is because, when the tube is mounted on the device and operated, the electrodes constituting the electron gun are affected by the high voltage and the operation state becomes unstable.

However, when the inner graphite film is applied to the inner surface of the funnel by such a device, the inner graphite film of the neck portion integrated with the funnel is buried. Therefore, the graphite film on the inner surface of the neck portion needs to be removed by post-work. Along with the inconvenience there was a problem of longer time.

The present invention has been made in order to solve the above problems, when the graphite slurry is leaked through a nozzle to apply the internal graphite film to the inner surface of the funnel, so that the graphite slurry is buried only on the inner surface of the funnel, so that a simple and quick operation is possible. Its purpose is to make it possible.

According to an aspect of the present invention for achieving the above object, an air cylinder operated by air pressure, a support moving up and down according to the operation of the air cylinder, and supported by the support, detachably supported and integrated into the funnel Graphite slurry flowing through the nozzle, including a pipe fitted into the neck portion and a funnel formed integrally with the upper end of the pipe and in contact with the upper inner surface of the neck portion, when flowing down while buried on the inner surface of the funnel Provided is an internal graphite coating device of a funnel for a color cathode ray tube of the present invention, wherein a slurry is guided through a funnel and pipe to a recovery tank.

Hereinafter, the present invention will be described in more detail with reference to FIG. 4 of the accompanying drawings.

4 is a front view showing a state in which an internal graphite film is applied to a color cathode ray tube funnel using the apparatus of the present invention, and the same parts as those of the conventional structure described above are omitted, except for the same reference numerals in the drawings. Note that the same sign is indicated in advance.

Hereinafter, the main components of the present invention will be described.

The support 34 is coupled to the air cylinder 33 operated by air pressure, and the neck 34 and the recovery tank 26 in which the support 34 is integrated with the funnel 3 when the air cylinder 33 is operated. ) To move up and down, and to support and detachably support the pipe (35) on which the locking projection (35a) is formed on the support (34) while the pipe is supported by the support (34). And the funnel 36 is integrally formed at the upper end of the pipe 35 so that the pipe 35 is supported on the support 34 in the state where the funnel 36 is the funnel. It comes in contact with the upper end of the neck portion 2 integrated in (3).

Description of the same parts as the conventional working part described above of the working of the present invention configured as described above is omitted where possible.

When the pipe 35 is inserted into the neck portion 2 integrated with the funnel at the upper portion of the funnel 3, the stopping projection 35a formed in the pipe is caught by the support 34 so that the pipe 35 is supported. At this time, the funnel 36 formed at the upper end of the pipe is in contact with the upper end of the inner side of the neck 2 integrated with the funnel 3.

In this state, when the power is supplied, the graphite slurry flowing out through the nozzle 24 continuously flows while being buried on the inner surface of the funnel 3, wherein the funnel 36 formed on the top of the pipe 35 is a funnel ( 3) the graphite slurry is continuously guided to the funnel 36 and the pipe 35 to be recovered to the recovery tank 26 and thus to the funnel 3. The inner surface of the integrated neck portion 2 is free of graphite slurry.

On the other hand, when the graphite graphite is deposited on the inner surface of the funnel 3 and the internal graphite film 11 is applied, the pipe 35 is removed from the support 34 to cure the internal graphite film 11 applied to the funnel 3. In this case, as the support 34 moves upward as air is supplied to the air cylinder 33, the pipe 35 supported by the support also moves upwards, and accordingly, the funnel 36 formed at the top of the pipe Since the fall from the upper inner surface of the neck portion 2 integrated in the panel 3, the operator can remove the pipe 35.

Therefore, in the present invention, since the graphite slurry flowing out through the nozzle is buried only on the inner side of the funnel, not on the inner side of the neck portion integrated into the funnel, it is necessary to post-work to remove the graphite slurry on the inner side of the neck portion as in the prior art. There is a variety of effects, such as not only convenient work, but also prevents time loss.

Claims (1)

An air cylinder 33 operated by air pressure, a support 34 moving up and down according to the operation of the air cylinder, and a neck portion integrated in the funnel 3 by being detachably supported by the support. (2) the graphite slurry discharged through the nozzle 24, including the pipe 35 to be inserted into the inside, and the funnel 36 formed integrally with the upper end of the pipe and in contact with the upper inner surface of the neck portion 2 The internal graphite of the color cathode ray tube funnel, characterized in that when flowing down while buried on the inner side of the funnel (3), the flowing graphite slurry is guided to the recovery tank (26) through the funnel (36) and the pipe (35). Membrane coating device.