KR940000400Y1 - Apparatus for aging a high-voltage of colar picture tube - Google Patents

Abstract

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Description

High voltage aging device of collar water tube

1 is a cross-sectional view of a general collar water tube.

2 is a voltage waveform diagram required for general high voltage aging. FIG. 2a is a spot knocking waveform diagram and FIG. 2b is an induction knock waveform diagram.

3A is a configuration diagram of an aging apparatus using a conventional spot knocking voltage, and FIG. 3B is a configuration diagram of an aging apparatus using a conventional induction knock voltage.

4 is a block diagram of a high voltage aging apparatus according to the present invention.

5 is a circuit diagram of an embodiment of a high voltage aging apparatus according to the present invention.

6a is a waveform diagram of a gate signal Va input by a microprocessor in the present invention, and FIG. 6b is a waveform diagram of a square wave signal Vb.

* Explanation of symbols for main parts of the drawings

11: high voltage transformer 11A: aging voltage output control unit

12: aging power supply unit 13: color water pipe

14: power socket 15: aging voltage selector

16 Silicon Controlled Rectifier (SCR) 17 Microprocessor

The present invention relates to a high voltage aging processing apparatus of a color water pipe, and in particular, in the high voltage aging processing of a water pipe, spot knocking and induction knocking are alternately processed in one place by one facility.

The conventional general color receiver has a structure in which the front panel 1 and the rear funnel 2 are pre-bonded and the shadow mask 3 and the frame 4 and the electron beam 6 supporting therein as shown in FIG. It is composed of an electron gun (5) which emits) and is sealed in a high vacuum state of about 10 ^-9 [Torr].

However, since the maximum cathode voltage is about 30 [Kv] when used, the tube discharge occurs due to contamination or projections on the electrode surface of the electron gun 5, and field emission is generated at the low work function of the oxide. Since it becomes a source of (Field Stray), during the manufacturing process, high voltage is applied between the anode electrode portion of the electron gun 5 and the other electrode in advance to perform high voltage aging for stabilizing the withstand voltage characteristics inside the receiving tube.

However, in the conventional high voltage aging apparatus, as shown in FIG. 3, a spot knocking high voltage transformer tm (7), a high pressure aging power supply 9, an induction knocking high voltage transformer 8 and a high pressure aging power supply 10 are respectively installed. When the high voltage aging process requires the spot knocking waveform as shown in Fig. 2a and the induction knocking waveform as shown in Fig. 2b, it is necessary to stabilize the withstand voltage characteristics. In order to make high voltage aging of a color water pipe, the high voltage aging process should be performed by moving the color water pipe 13 itself as needed by the apparatus of FIG. 3a and FIG. 3b, respectively.

For example, a manual high voltage aging device that uses a conveyor to send a color water tube to the apparatus of FIG. 3a to perform spot knocking as needed or to use a fixed type may be used to manually apply the color water tube to the apparatus of FIG. 3a and 3b. In the meantime, high-voltage aging treatments must be applied to the characteristics of the color receiver.

Such a color water pipe aging processing apparatus and method requires a spot knocking transformer 7 and an induction knocking transformer 8 to perform spot knocking and induction knocking respectively, and accordingly, a high pressure aging power source 9, ( 10) are required, so the configuration is complicated, the cost of the device is high, and the spot knocking and induction knocking are alternately as desired. Therefore, spot knocking and induction knocking cannot be performed continuously and are interrupted in the middle. In addition, the aging process takes a lot of time, and also a lot of detachable crack defects occurred on the pins of the electron gun 5 to the grounding power socket 14 for the ground of the color water pipe 13.

The present invention is to improve the above problems, which is provided with a high pressure transformer capable of outputting both a spot knocking waveform and an induction knocking waveform under the control of a high voltage aging power supply and a microprocessor, It is characterized by being able to handle the desired high voltage aging in one place.

That is, as shown in FIG. 4, the high-pressure aging processing apparatus of the present invention includes a high-voltage aging power supply unit 12 and a high-voltage transformer 11 capable of outputting both a spot knocking waveform and an induction knocking waveform. By connecting to the high-voltage transformer 11 and the power socket 14 is configured to handle the desired high voltage aging in one place.

In addition, as shown in FIG. 5, the aging voltage output control circuit for controlling the output of the high voltage transformer 11 has a constant current for constant current with a constant voltage circuit portion 12A capable of changing an input power of 220 volts to 0-500 volts. There is a circuit section 12B, and a high voltage aging power supply section 12 composed of a condenser C ₁ for pulsing the constant current output of the constant current circuit section 12B is provided, and the output of the power supply section is selected and output as an induction / spot knock waveform. of which the SCR (16) of the switching means, and a microprocessor (17) induction knocking terminal (a) and selected to be switched selected as spot knocking terminal (b) switch (SW ₁₎ and a selection switch (SW ₁₎ to An aging voltage selector 15 including end gates 15B and 15C for outputting the selection output to a gate signal Va or a square wave signal Vb as shown in FIGS. Contact the gate terminal G of the SCR 16 The SCR 16 includes a transformer 11 for inducing high-voltage pulses generated by the capacitor C ₁ according to an on / off state, and a diode for rectifying the high-voltage pulses of the transformer 11. (D ₁₎ and the aging provided by a diode (D ₁₎ connected in parallel to the induction knocking relay (RYa) for which a and a diode (D ₁₎ spot knocking relay (RYb) and capacitor (C ₂₎ for smoothing the output It consists of the voltage output control part 11A.

The present invention configured as described above has the following effects and effects.

The operation of the present invention will be described with reference to FIGS. 4 and 5. First, the collar water pipe 13 is connected to the high voltage transformer 11 and the power socket 14, and then the high pressure aging power supply 12 is operated. Let's do it.

When the input power of the single phase 220 volts is first input, a voltage is output from the constant voltage circuit portion 12A which is variable from 0 to 500 volts, and this voltage is charged and discharged in the condensate C ₁ via the constant current circuit portion 12B.

At this time, when a pulse is generated and applied to the SCR 16 when discharging according to the capacity of the capacitor C ₁ , the SCR 16 is turned on or off according to the voltage state applied to the gate thereof, thereby reducing the voltage of the transformer 11. If the selection switch SW ₁ is switched to the induction knock terminal a by the microprocessor 17, the control signal and the gate signal Va of the microprocessor 17 are endgate 15B. ) is multiplied by logic it controls the gate voltage of the SCR (16) a discharge pulse generated at the capacitor (C ₁₎ is induced in the primary side of the transformer 11 is output to the induction knock waveform of the high-voltage pulse by the secondary side in After the high-pressure aging output through both ends of the induction knock relay (RYa).

On the other hand, when the selection switch SW ₁ is switched to the spot knocking terminal b by the microprocessor 17, the control signal, the gate signal Va and the square wave of the microprocessor 17 at the end gate 15c. Since the signal Vb is logically multiplied and applied to the gate of the SCR 16, the SCR 16 is provided only during the time when the gate signal Va and the square wave signal Vb are summed, that is, during the on-time of the square wave signal Vb. Since the SCR 16 is operated and the spot knocking relay RYb is driven, the output is rectified by the high-pressure diode D ₁ and the capacitor C ₂ via the transformer 11 to the _{second a} . A spot knocking waveform, such as a figure, is output, and high-voltage aging treatment can be performed on the color receiving tube 13.

In this way, the present invention can be carried out continuously in one place as desired for the color water pipe, so that the withstand voltage characteristics of the water pipe are improved, and the color water pipe is aged at one place, so that the crack defect due to the movement and handling of the water pipe is reduced. In addition, since the high-voltage transformer and its power is reduced by about half, it is a useful design that saves installation cost and requires less installation place.

Claims (1)

With a high voltage transformer 11 connected to a power supply unit capable of mode outputting a spot knocking waveform and an induction knocking waveform, and a color water pipe 13 connected to the high voltage transformer 11 and a power socket 14 connected to the power supply unit. The aging voltage output circuit for controlling the output of the high voltage transformer 11 includes a constant voltage circuit portion 12A for changing an input power supply, a constant current circuit portion 12B for constant current, and an output of the constant current circuit portion 12B. An aging power supply unit 12 composed of a condenser C ₁ for pulsing a pulse, an SCR 16 for selectively outputting the output of the aging power supply unit 12 as an induction or spot knocking waveform, and a microprocessor 17 ) end gate (15B, which outputs a selection switch (SW ₁₎ to be switched to the selection terminal in the induction or soup sat knocking control, logic for selecting an output of the selection switch (SW ₁₎ to a gate or a square-wave signal the product of the 15C) and an aging voltage selector 15 connected to the gate terminal of the SCR 16 and a pulse generated from the power supply unit 12 according to the on / off state of the SCR 16. diode for rectifying the high-voltage pulse of the transformer (11) for (D ₁₎ and, spot of the said diode (D ₁₎ parallel to the relay (RYa) for induction knocking connected to, smoothing the output of the diode (D ₁₎ An aging voltage output control unit (11A) composed of a knocking relay (RYb) and a condenser (C ₂ ).