SU1229561A1 - Device for testing displacements - Google Patents

Abstract

The invention relates to a measurement technique, is intended to control movements, provides a visual control of breaks and short circuits in the windings of an inductive sensor and in its communication line with a power generator. The device contains an inductive displacement transducer, connected to it via a communication line, a series-connected power generator and a capacitor, and an indicator connected to the communication line in the form of a series-connected ballast resistor and an LED. If there are short circuits, the voltage drop on the communication line is close to zero and the indicator goes out. In the event of a break in the communication line or in the primary winding of the sensor, the capacitor is charged by the direct current of the LED to the peak value of the generator voltage, the current through the LED decreases to zero and the LED goes out. Illumination of the indicator indicates the normal state of the communication line, sensor and power generator. 1 il. S SL ND Yu SO JV Oi

Description

The invention relates to a measurement technique and can be used to control the movements of remote objects.

The aim of the invention is to increase the reliability of control by visualizing a break and a short circuit in a communication line or in a displacement sensor.

The drawing schematically shows a device for controlling movements.

The device contains an inductive displacement sensor 1, which includes the primary winding 2, the secondary winding 3 and ferromagnetic measles 4. A communication line is connected to the displacement sensor 1, made in the form of two-wire cables 5 and 6. The cable 5 is connected to the primary winding 2, and the cable 6 - to the secondary winding 3 sensors.

At the other end, a measuring unit 7 is connected to the communication line, which includes a power generator 8, a capacitor 9, an indicator made in the form of an LED 10 with a ballast resistor 11 connected in series with it, and a cascade connected amplitude detector 12, a DC amplifier 13 and a recording device 14.

The cable 5 of the communication line with the primary winding of the sensor 1 is connected at one end to the terminals 15 and 16 of the winding 2, and at the other end to the terminals 17 and 18 of the measuring unit 7. The clamp 17 is connected to terminal 19 of the generator 8, and the clamp 18 is connected to one of capacitor leads 9.

The second terminal of the capacitor 9 is connected to the terminal 20 of the generator 8. To the points of connection of the cable 5 of the communication line to the capacitor 9 and the generator 8 an indicator is connected, made in the form of a ballast resistor 11 and an LED 10. The input of the amplitude detector 12 is connected to the cable 6 zi

The capacitance value of the capacitor 9 is selected based on the equality of the natural frequency of the resonant circuit formed by it with the inductance of the sensor 1, and the frequency of the power supply generator 8.

The device for controlling movements works as follows.

In the initial position with the symmetric position of the core 4 relative to the windings 2 and 3, the coupling coefficient of its windings is maximum and, at the value of its primary winding 2, a voltage resonance mode is provided. As a result, the output voltage of the sensor on the winding 3 is maximum. Accordingly, it is equal to the maximum value and the voltage shown by the recording device 14. This indicates the initial zero position of the core 4.

When moving the core 4, the inductive coupling coefficient between windings 2 and 3 decreases, and hence the inductance of the sensor is full. Resonance conditions

the voltages in the circuit of the primary winding 2 of the sensor are broken and the voltage on its secondary winding 3 drops. The voltage shown by the recording device 14 decreases accordingly. The amount of controlled movement is determined from its readings. In the absence of short circuits in the communication line and windings 2 and 3 of sensor 1, the voltage at terminals 17 and 18 (at the indicator input) is equal to or greater than (in the case of resonance) the supply voltage at terminals 19 and 20 of the generator 8. At the same time, LED 10 lights, indicating the normal state of the communication line, sensor 1 and power generator 8. When a short circuit occurs in the circuit of the communication line or the windings of the sensor 1, the input resistance of the communication line (at terminals 17 and 18) drops to a value close to zero. As a result, the voltage drop between these zazh.imami, and therefore, at the input of the indicator is also reduced to a value close to zero, as a result of which the LED goes out. This indicates an emergency condition of the communication line or sensor 1. When there is a wire break in the cable 5 of the communication line or primary winding 2 of sensor 1, the resistance between terminals 17 and 18 tends to be infinitely large. Since the LED 10 has rectifying properties, the capacitor 9, which cannot be discharged through the circuit, is charged by a constant component of the current passing through the LED 10 to a peak value corresponding to the amplitude of the voltage on the terminals of the generator 8. As a result, the current through the LED 10 drops to a value close to zero and it goes out. Thus, the LED 10 of the indicator is illuminated only in the absence of short circuits and interruptions in the circuit of the communication line or sensor 1. This ensures visualization of the normal state of the communication line and the health of the displacement sensor, which increases the reliability of control.

Claims (1)

Invention Formula A device for controlling movements, comprising an inductive displacement sensor and connected in series through a communication line, a series-connected power generator and a capacitor, characterized in that, in order to increase the reliability of the control by visualizing a break and short circuit in the communication line or in a displacement sensor, equipped with an indicator made in the form of a series-connected LED and a ballast resistor, one indicator input is connected to the connection point of the communication line with the power generator, and the other the input is to the point of connection of the communication line with the capacitor. L NX sixteen - g Ts X f Ti /  Thu V s / 7 / K  7 | / J f I f 0 eight /