SU1670376A1 - Strain-gage device with automatic control of conversion ratio - Google Patents

Abstract

The invention relates to measuring equipment, to means of controlling the deformation of objects by electrical methods. The aim of the invention is to improve the measurement accuracy by adjusting the conversion factor of the device before measurement and periodically correcting it during the measurement process. Upon the command of the control unit 13, the switch 8 closes, the switch 7 connects the output of the sampling and storage circuit 11 to the balancing input of the balancing amplifier 3. The compensating amplifier 10 monitors the voltage so that a zero potential is established at the input of the programmable amplifier 4. Key 8 opens, circuit 11 goes into storage mode, key 6 closes and a calibration action arrives at the input of programmable amplifier 4, control unit 13 sets the gain of programmable amplifier 4 and switches the device to measurement mode. 1 hp ff, 3 ill.

Description

The invention relates to a measurement technique, to means of controlling the deformation of various objects.

The aim of the invention is to improve the measurement accuracy by adjusting the conversion factor of the device before measurement and periodically correcting it during the measurement process.

Figure 1 presents the block diagram of the device; Fig. 2 is a voltage chart at the input of the recorder; FIG. 3 is a control block diagram.

Strain gage device contains serially connected strain gauge 1, differential amplifier 2, balancing amplifier 3, programmable amplifier 4, comparator 5. key 6, switch 7, key 8, storage capacitor 9, compensating amplifier 10, sampling and storage circuit 11 the serially connected compensating amplifier 10, a switch 8, a storage capacitor 9. The output of the sampling and storage circuit 11 is connected through a switch 7 to the balancing input of the balancing amplifier 3.

The device also contains a calibration resistor 12 connected via a switch 6c with the input of the differential amplifier 2, a control unit 13. The first input of the comparator 5 is connected to the output of the programmable amplifier 4, the second input is connected to the output of the source 14 of the nominal reference voltage, and the output is connected to the control unit 13. The input of unit 13 is connected to the generator output 15 clock pulses, and the outputs to the control inputs of keys 6 and 8, switch 7. of programmable amplifier 4. The device contains a recorder 16, the input of which is connected with the output of programmable amplifier 4.

The control unit 13 consists of the flip-flops 17 and 18, the AND 19.20 circuits, the OR 21 circuit and the counter 22, the switch 23, which is switched by setting the operating state of the trigger 18. The trigger 17 serves to suppress the contact bounce of the switch 16 and simultaneously The key state is 8. which transfers the sampling and storage scheme 11 to the sampling mode. Circuit AND 19 permits the passage of counting pulses from generator 15 to counter 22, the output code of which controls the state of programmable amplifier 4. Circuit AND 20 controls the state of switch 6, which connects the calibration resistor 12 to the bridge diagonal. switch 7 which disconnects the circuit from the differential amplifier after

trigger 18 returns to its original state upon a signal from comparator 5.

The device works as follows.

The load cell 1 converts the mechanical stress into an electrical signal that is amplified by a differential amplifier 2, a balancing amplifier.

3, by a programmable amplifier 4 and recorded by the recorder 16.

At the command of the control unit 13, at the time ti, the switch 8 is closed, the switch 7 connects the output of the circuit 11

sampling and storage with the balancing input of the balancing amplifier 3, the compensating amplifier 10 monitors the voltage so that at the input of the programmable amplifier 4 a zero potential is established with an accuracy of bias voltage zero of the compensating amplifier 10,

At time t2, the key 8 is opened and the sample and hold circuit 11 goes over

in storage mode. The switch 6 is closed and the input of the programmable amplifier 4 receives a calibration action equivalent to that of the sensor of the nominal mechanical action.

At time t2, control unit 13 sets the minimum gain of programmable amplifier 4 and begins to increase gradually until the voltage at the output of programmable amplifier 4 is equal to the level of source 14 of the reference nominal voltage Don

At time xs, the comparator 5 outputs a signal to the control unit 13 about the end of the regulation process. The control unit 13 at time t3 switches the device to the measurement mode: the key 6 is opened, the switch 7 is closed to ground.

So on strain gauge

The device is set to a nominal conversion ratio. During operation, a conversion factor drift is possible, which is eliminated

using the process of periodic correction.

Claims (2)

1. Strain gauge device with automatic control of conversion coefficient, containing series-connected grounded strain gauge, differential and balancing amplifiers, calibration a resistor, the second output of which is grounded, and the first is connected using the first switch parallel to the grounded shoulder of the strain gauge, a compensating amplifier, a storage capacitor, the second output of which is grounded, a clock generator, the first and second switches, a recorder, characterized in measurement, it is equipped with a programmable amplifier, the input of which is connected to the output of the balancing amplifier, and the output - to the input of the recorder, a comparator, the first input of which is connected to the output of the program the second input is connected to the balancing input of the balancing amplifier; the second output is connected to the first output of the storage capacitor, and the third output is connected to the common bus; connected to the output of the balancing amplifier, the second input is grounded, and the output through the second switch is connected to the first output of the storage capacitor. 2. Pop-up device 1, characterized in that the control unit contains two flip-flops, two AND circuits, a second switch, an OR circuit and a counter, the outputs of which are connected to the control inputs of a programmable amplifier, the counting input with the output of the first And circuit, and the R input is with the direct output of the first trigger. The D-input of the second trigger, the second input of the OR circuit and the control input of the second key, the first output of the second switch — with the S input of the first trigger, the second output — with the R input of the first trigger, and the third output is grounded. the input of the second switch receives an external control pulse, and the inverse output of the first trigger is connected to the R input of the second trigger and the first input of the second AND circuit, the output of which is connected to the control input of the first key, and the second input to the inverse output of the second trigger and the first to enter first And, the second input is connected to the output of the clock generator, the C input of the second trigger is connected to the output of the comparator, the direct output to the first input of the OR circuit, the output of which is connected to the control input of the first switch. ABOUT t2 s FIG. 2 / J Us. 6 And a switch. one On KJJ. eight NAPS4 Fmz