KR0128164Y1 - Illumination apparatus controlling circuit of ccd camera - Google Patents

Abstract

The present invention is a circuit for controlling the illumination of a CCD camera mounted on a waveform inspection regulator, which receives an up / down signal from a PLC, and is a light emitting diode of a CCD carrera installed in a press bar when the waveform inspection regulator is placed up / down. The present invention relates to a lighting device control circuit of a CCD camera for controlling the brightness of a light source. In a conventional circuit for turning on, a filter comprising a resistor (R6) and a capacitor (C2) to remove noise mixed in the relay 20 and the relay 20 that is operated when the output signal of the PLC is low ( 30) and an inverter IC1 (IC2) connected in series to clarify the output signal of the filter 3 and a variable resistor VR for controlling the brightness of the light emitting diode LED. The waveform check regulator is not affected by the noise when falling and the brightness is controlled by the variable resistor (VR) so that the light emitting diode (LED) is stably lit so that the CCD camera can accurately recognize the target.

Description

Lighting device control circuit of CCD camera

Fig. 1 (a) and (b) are illuminator circuit diagrams applied to a CCD camera of a conventional waveform inspection regulator.

2 is a lighting device control circuit diagram applied to the CCD camera of the waveform inspection regulator according to the present invention.

* Explanation of symbols for main parts of the drawings

10: NAND circuit 20: relay

30: filter IC1, IC2: inverter

LED: light emitting diode TR: Transistor

VR: Variable resistors R1 to R7: Resistance

C1, C2: Capacitor

The present invention relates to a circuit for controlling the illumination of a CCD (charge coupled device) camera mounted on a waveform inspection regulator. In particular, the waveform inspection is performed by receiving an up / down signal from a programmable logic controller (PLC). The present invention relates to a lighting device control circuit of a CCD camera for controlling the brightness of a light emitting diode (LED), which is a lighting device of a CCD camera installed at a pressbar when the controller is placed up / down.

More specifically, the light emitting diode (LED), which is the illumination device of the CCD camera, is turned off when the waveform inspection regulator upper teeth are up and the effect of noise when the waveform inspection regulator upper teeth is lowered. The brightness of the light emitting diode (LED) is turned on by controlling the brightness by controlling the variable resistance (VR) so that the CCD camera can accurately recognize the target.

The illumination device of the CCD camera mounted on the press bar of the conventional waveform inspection regulator upper fixture has a low signal output from the PLC when the upper fixture of the waveform inspection regulator is up (as shown in FIG. 1A). Its signal is applied to the transistor TR base terminal via the resistor R1, but the low signal applied to the transistor TR base terminal does not operate the transistor TR, so the light emission connected to the emitter terminal thereof The diode LED does not light up.

On the other hand, when the upper end of the waveform inspection regulator is down, a high signal is output from the PLC, and its signal is applied to the transistor TR base terminal via the resistor R1 to operate the transistor TR. Therefore, the light emitting diode LED connected to the emitter terminal is turned on by the power supply Vcc applied to the collector terminal thereof, so that the CCD camera can recognize the target.

Also, as shown in (b) of FIG. 2, when the upper fixture of the waveform inspection regulator is up, a high signal is output from the PLC, and the signal thereof is input to the NAND circuit 10 so that the NAND circuit 10 ) Outputs OV so that the LED does not light up.

On the other hand, when the upper end of the waveform inspection regulator is down, a low signal is output from the PLC, and the signal thereof is input to the NAND circuit 10 so that the NAND circuit 10 outputs 5V so as to emit a light emitting diode (LED). ), The CCD camera can recognize the target.

However, the illumination device of the CCD camera mounted on the press bar of the conventional waveform inspection regulator above does not remove the mixed noise so that the light emitted from the light emitting diode is not constant and the brightness of the light emitting diode is adjusted. Because no additional volume is added, the CCD camera does not recognize the target accurately even if it is a little farther than the reference value set from the target.

The present invention is to solve the above-mentioned shortcomings, and receives the up / down signal from the PLC to adjust the brightness of the light emitting diode (LED), which is the illumination device of the CCD camera installed in the press bar when the up / down of the waveform inspection regulator is placed up / down. In order to ensure that the light emitting diode (LED) is stably lit by controlling the luminance by controlling the variable resistance (VR) without the noise being affected by the upper end of the waveform inspection regulator, The purpose is to improve the reliability of the equipment by providing a lighting device control circuit that can recognize and examine the waveform, a relay that is turned on / off by the input signal to the CCD camera lighting device control circuit of the conventional waveform inspection regulator And a filter for filtering out the mixed noise, an inverter for clarifying the high-low state, and a variable resistor for adjusting the brightness of the light emitting diode. It is the main feature of the present invention.

This will be described with reference to the accompanying drawings.

2 is a circuit diagram of a lighting device applied to the CCD camera of the waveform inspection regulator according to the present invention.

In a conventional circuit in which a signal (high or low) output from a PLC turns on a light emitting diode (LED) through a NAND circuit 10 so that a CCD camera of a waveform inspection regulator can recognize a target, the output signal of the PLC The output signal of the filter 30 and the filter 3 made of the resistor R6 and the condenser C2 is clearly cleared in order to remove the noise mixed in the relay 20 and the relay 20 operated when is low. In order to achieve this, a series resistor (IC1) (IC2) and a variable resistor (VR) for adjusting the brightness of the light emitting diode (LED) are provided.

Hereinafter, the operation and effects of the present invention will be described with reference to FIG. 2.

Waveform inspection regulator receives an input signal from the PLC to adjust the brightness of the illumination device of the CCD camera mounted on the press bar of the upper teeth.

At this time, when the upper stage of the waveform test regulator is up, a high signal is output from the PLC, and its signal and current supplied from the power supply Vcc1 terminal (for example, 24V) are reduced to a predetermined level via the resistor R4. (Eg, from 24V to 12V) is applied to the relay 20, but since the signal output from the PLC is a high signal, the relay switch is turned off because the relay 20 cannot be driven so that the filter 30 cannot be formed. The signal input to the inverter via the signal goes high.

Therefore, when the inverter IC1 inverts the polarity of the high signal and outputs a low signal, and then inputs the low signal to the inverter IC2, the inverter IC2 reverses the polarity as the inverter IC1 in the previous stage to output the high signal. Input to NAND circuit 10.

The reason why the inverters IC1 and IC2 are connected in series is to invert the polarity of the input signal again to clarify the state of the originally input signal.

Therefore, since the NAND circuit 10 outputs the OV by the high signal input from the inverter IC2, the light emitting diode LED is not turned on, so the CCD camera does not recognize the target.

On the other hand, when the upper end of the waveform inspection regulator is down, a low signal is output from the PLC so that the current supplied from the signal and the power supply (Vcc1) (e.g. 24V) is maintained at a constant level via the resistor R4. Down (eg, from 24V to 12V) is applied to the relay 20, the signal output from the PLC is a low signal to drive the relay 20, the relay switch is turned on to form a loop resistor (R6) After the noise mixed through the filter 30 of the condenser C2 is filtered, the signal input to the inverter IC1 goes low.

Therefore, when the inverter IC1 inverts the polarity of the low signal and outputs a high signal, and inputs a high signal again to the inverter IC2, the inverter IC2 reverses the polarity like the inverter IC1 in the previous stage to output the low signal. Input to NAND circuit 10.

Therefore, since the NAND circuit 10 outputs 5V by the low signal input from the inverter IC2, the light emitting diode LED is turned on so that the CCD camera recognizes the target.

In this case, the brightness of the light emitted from the light emitting diodes (LEDs) is appropriately adjusted by controlling the variable resistance VR so that the CCD camera can accurately recognize the target.

As described above, the present invention controls the brightness by controlling the variable resistor (VR) without the noise of the waveform inspection regulator upper fall, thereby stably lighting the light emitting diode (LED) as the illumination device of the CCD camera. It is possible to improve the reliability of the equipment by allowing the CCD camera to accurately recognize the target.

Claims (1)

In a conventional circuit in which a signal output from a PLC turns on a light emitting diode (LED) through a NAND circuit 10 so that a CCD camera of a waveform inspection regulator can recognize a target, the operation is performed when the output signal of the PLC is low. Serial connection to clarify the output signal of the filter 30 and the filter 3 of the resistor R6 and the capacitor C2 to remove the noise mixed in the relay 20 and the relay 20 And an inverter (IC1) (IC2) and a variable resistor (VR) for adjusting the brightness of the light emitting diodes (LEDs).