KR0150267B1 - X-rays cutoff circuit - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and more particularly, to an X-ray blocking circuit of a monitor capable of removing the emission of harmful X-rays generated by a high pressure applied to a cathode ray tube and blocking the cathode ray tube. The present invention as described above is driven when the detection of the high pressure generated when the high pressure output from the flyback transformer (FBT) is detected by the Zener diode and the abnormality of the high pressure detected by the detection unit 1, The video signal is scanned by the X-ray cutoff unit 3 that stops the output of the horizontal deflection drive signal output from the horizontal deflection driver 2 and the horizontal deflection drive signal controlled by the X-ray cutoff unit 3. It consists of a horizontal deflection signal output section 4 which is processed to be possible.

Description

X-ray blocking circuit of the monitor

1 is a view showing the configuration of the X-ray blocking circuit of a general monitor,

2 is a view showing the configuration of the X-ray blocking circuit of the monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

1 sensing unit 2 horizontal deflection drive unit

3: X-ray cutoff part 4: Horizontal deflection signal output part

31: shaping part 32: control unit

R31, R32: resistor C31: capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and more particularly, to an X-ray blocking circuit of a monitor that can be generated by a high pressure applied to a cathode ray tube to remove harmful X-rays and to block the cathode ray tube.

In a typical monitor, a video signal is injected into a shadow mask of a cathode ray tube by a high pressure generated by a flyback transformer, and an X ray that is harmful to a human body is generated in a cathode ray tube by a high pressure generated by a flyback transformer. .

The X-ray blocking circuit of the monitor, which is generally used to remove X-rays generated from the cathode ray tube, is a sensing unit in which a high voltage output from a flyback transformer (FBT) is detected by a Zener diode, as shown in FIG. An X-ray blocking unit 300 driven by the abnormality of the high voltage detected by the detection unit 100 to stop the output of the horizontal deflection signal output from the horizontal deflection driving unit 200, and the X-ray blocking unit And a horizontal deflection signal output unit 400 which is processed to scan the video signal by the horizontal deflection signal whose input and output is controlled by the 300.

Here, the X-ray blocking unit 300 is configured as a predetermined integrated chip so that the input and output of the horizontal deflection signal is controlled when high voltage is applied.

Then, in the X-ray cut-off circuit of the general monitor configured as described above, when the excited high voltage of the flyback transformer (FBT) is detected by the sensing unit 100, the sensing unit is detected if the detected high voltage is below the set voltage of the zener diode. The zener diode of 100 is turned off.

In addition, since the power is not applied to the X-ray blocking unit 300 by the turn-off operation of the zener diode of the sensing unit 100, the X-ray blocking unit 300 is not driven.

Meanwhile, the horizontal deflection signal output from the horizontal deflection driver 200 is applied to the cathode ray tube through the horizontal deflection signal output unit 400.

However, the excited high voltage of the flyback transformer FBT is sensed by the detector 100, and when the detected high voltage is equal to or higher than the set voltage of the zener diode, the zener diode of the detector 100 is turned on.

Then, power is supplied to the X-ray blocking unit 300 by the turn-on operation of the zener diode of the sensing unit 100, and the X-ray blocking unit 300 is driven to output a horizontal deflection signal output from the horizontal deflection driving unit 200. Is controlled not to be applied to the cathode ray tube through the horizontal deflection signal output unit 400.

As described above, since the X-ray cutoff circuit of a general monitor is composed of one chip, there is a problem that the cost is high and the light and small size is impossible because the area to be installed is large and the price is high.

Accordingly, the present invention is to solve such a problem, an object of the present invention is to provide an X-ray blocking circuit of a monitor that can reduce the cost and light and simple, because the circuit configuration of the X-ray blocking unit is simple.

The object of the present invention is to detect the abnormality of the high voltage generated by the flyback transformer, the monitor consisting of an X-ray blocking unit for controlling the input and output of the horizontal deflection signal output from the horizontal deflection drive unit, which is input to the X-ray blocking unit X-ray cut-off circuit of the monitor comprising a shaping means for distributing and smoothing the high pressure, and a control means for muting the horizontal deflection signal output from the horizontal deflection drive by switching by the high pressure shaped by the typical means. Can be achieved by providing.

Hereinafter, an embodiment of an X-ray blocking circuit of a monitor according to the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view showing the configuration of the X-ray cut-off circuit of the monitor according to the present invention, as shown therein, a sensing unit (1) for detecting whether the high voltage output from the flyback transformer (FBT) is applied, and the detection When the high pressure detected by the unit 1 is detected as an abnormal state, the X-ray blocking unit 3 stops the output of the horizontal deflection signal output from the horizontal deflection driving unit 2, and the input and output by the X-ray blocking unit 3 And a horizontal deflection signal output section 4 for processing the video signal to be scanned from this controlled horizontal deflection signal.

Here, the sensing unit 1 is a resistor (R11), a diode (D11) and a capacitor (C11) for smoothing the rectified high voltage half-wave rectified, and the smoothed voltage of the capacitor (C11) (R12) R13 and the divided voltages of the resistors R12 and R13 are switched according to whether or not the set voltage is abnormal, and the voltage inputted through the zener diode ZD11 is biased. It consists of a resistor R14 and a capacitor C12 for charging.

On the other hand, the X-ray blocking unit 3 is output from the horizontal deflection drive unit 2 while being switched by the shaping unit 31 smoothed after the input high pressure is distributed and the high pressure shaped by the shaping unit 31. And a control unit 32 for muting the horizontal deflection signal.

Here, the shaping section 31 includes a resistor R31 (R32) for distributing the output voltage of the capacitor C12 of the sensing unit 1, and a capacitor C31 for smoothing the divided voltage of the resistor R31 (R32). The control unit 32 is switched by the smoothed voltage of the capacitor (C31) transistor Q31 to control the input and output of the horizontal deflection drive signal output unit 4 output from the horizontal deflection driver (2). It consists of.

In the X-ray cut-off circuit of the monitor according to the present invention configured as described above, the high voltage generated by the flyback transformer (FBT) is sequentially through the resistor (R11) of the detector 1 to the diode (D11) and the capacitor (C11). It is applied and half-wave rectified and then smoothed.

The smoothed voltage of the condenser C11 is applied to the zener diode ZD11 after being distributed by the resistors R12 and R13, and when the divided voltage is less than or equal to the set voltage of the zener diode ZD11, the turn is turned. It is switched off, but when it is above the set voltage, it is switched on.

That is, the presence or absence of a high voltage is detected by the switching state of the zener diode ZD11, and the voltage output from the zener diode ZD11 is charged after being biased by the resistor R14 and the capacitor C12.

For example, when the high voltage output from the flyback transformer FBT is a normal voltage, the zener diode ZD11 is switched to the off state so that the charging voltage of the capacitor C12 is at a low potential state, but if the flyback transformer is When the high voltage output from the FBT is an abnormal voltage, the zener diode ZD11 is switched to the on state, and the charging voltage of the capacitor C12 is in a high potential state.

Then, from the high potential state of the condenser C12, the output voltage through the condenser C12 of the sensing unit 1 is applied to and distributed to the resistors R31 and R32 of the X-ray interrupting unit 3, and then the condenser ( As smoothed by C31, the transistor Q31 of the control unit 32 is turned on, thereby muting the output signal of the horizontal deflection driver 2.

On the other hand, when the charging voltage of the capacitor C12 is at a low potential, that is, when an abnormal voltage according to a high voltage is not generated in the flyback transformer FBT, the transistor Q31 is switched to a turn-off state so that the horizontal deflection driver 2 The horizontal deflection drive signal outputted from is applied to the horizontal deflection signal output unit 4.

As described above, the X-ray blocking circuit of the monitor according to the present invention is simply implemented as a resistor, a capacitor and a transistor so that the input and output of the horizontal deflection signal is controlled to block the emission of X-rays according to the presence or absence of high voltage, Productivity improvement and cost reduction are possible with cost reduction.

Claims (1)

A shaping means 31 for distributing the high pressure generated by the flyback transformer FBT and being flattened, and a control means 32 for muting the horizontal deflection drive signal by switching by the shaping high pressure from the shaping means 31. In the X-ray blocking unit 3 of the monitor to block the X-ray, the typical means 31 is a resistor (R31) (R32) for distributing the abnormal voltage when the abnormal voltage is detected by the flyback transformer (FBT) And a condenser C31 for smoothing the divided voltages of the resistors R31 and R32, wherein the control means 32 is switched by the voltage shaped by the shaping means 31 to control the horizontal deflection drive signal. X-ray cut-off circuit of the monitor, characterized in that consisting of a transistor (Q31) for controlling the output.