CS197145B1 - Connection of the resistance photoelectric sensing unit - Google Patents

Description

(54)

Connection of resistance photoelectric sensor

BACKGROUND OF THE INVENTION The present invention relates to the connection of a photoelectric sensor for contactless measurement of the change in the external dimensions of solid bodies.

Non-contact measurement of the change in external dimensions of solid bodies is used in a number of industries, such as drawing fibers, wires, rods or pipes.

Connections of resistive photoelectric sensors using bridges powered by direct voltage are known. Changing the external dimension of the measured body causes a change in the resistance of the photoelectric sensor and the bridge equilibrium breaks, resulting in a voltage gradient across the diagonal of the bridge. The polarity and magnitude of this potential difference is dependent on the nature of the change in the external dimension of the body being measured, and the possibility of utilizing said potential difference to provide feedback to the towing device is limited.

These disadvantages are eliminated by the connection of a resistive photoelectric sensor for contactless measurement of the change in external dimensions of the solid bodies according to the invention, in that the resistive photoelectric sensor is connected to a single bridge branch formed by resistors and secondary windings of the transformer. connected Indicator circuit.

If the bridge equilibrium is violated, a difference of potentials will arise between the throw and the emitter of the first transistor of the DC amplifier, which, depending on the nature of the sensor resistance change,

197 145

197 145 voltage change in one and two parts of the indication circuit connected to the collector of the amplifier's cono transistor.

The wiring of the resistance photoelectric sensor is better evident and the attached drawing, in which the wiring in the exemplary embodiment is schematically made.

Mains transformer 2 J® AC power supply for bridge power supply consisting of resistor 2, photo resistor 1 of photoelectric sensor and secondary windings 2 * 1 of transformer 2 « ⁷ diagonal of this bridge is connected by DC amplifier 6, which contains three PUP transistors connected so that transistor collector 8 is connected to the base of transistor 2 and the emitter of transistor 10. The base of transistor 8 is connected between a resistor 12 and a variable resistor 11 which forms a voltage divider. The voltage divider is bridged by capacitor 2. The resistor 13 is inserted between the collector of transistor 8, the base of transistor 2 and between the positive pole of capacitor 2 # the resistor 14 between the collector of transistor 2 and the positive pole of capacitor 2 in the forward direction, with the winding end points 2 * 1 and with the end points of the indication circuits of circuits 19 and 20. Opaque terminals of the indication circuits 19 and 20 are connected via diodes 17 and 18 in the reverse direction to the collector of transistor 10. are connected to the negative terminal of capacitor 2 ·

The wiring functions are as follows.

In the event of a bridge equilibrium, there is a potential difference between the base and the emitter of the transistor 8 of the DC amplifier 6 which, depending on the nature of the photoelectric sensor photo resistor change, causes a voltage step change in one of the two stages of the indicator circuit 19 or 20 connected to the collector 6. The voltage drop across the extreme points of the indicating circuit portions 19 and 20 is used to contact non-contact measurement of the change in external dimensions of solid bodies.

The voltage drop at the end points of the indicator circuits 19 and 20 can be used for optical or acoustic signaling of a change in the external dimension of the solid to be measured or to record this change or to provide feedback on the forming or other device.

Claims (1)

object of the invention Connection of a resistive photoelectric sensor for the non-contact measurement of the external dimensions of solids, characterized in that the resistive photoelectric sensor (1) is connected to a single branch of a bridge formed by resistors (1 and 2) and secondary windings (3 and 4) of the transformer (5) , wherein a DC amplifier (6) is connected in the diagonal of the bridge, to the output of which the indicator circuit (19 and 20) is connected.