SU391578A1 - DEVICE FOR ELECTRICAL MODELING OF TARIATING THRESHEADING SENSORS - Google Patents

Description

one

The invention relates to computing and can be used in strain gauge measuring installations for various purposes when feeding the strain gauge with alternating current. A particularly broad example of the invention can be found when using strain gauges for accurate measurements in conditions where high precision calibration tools cannot be used, where a long communication line is required between the sensor and the secondary gauge, and in the case where frequent calibration checks are required during the measurements.

Electric modeling devices are known for calibrating a strain gauge sensor in which electrical simulated calibration is performed by varying the resistance of the strain gauge of only one of the arms of the bridge sensor circuit.

However, in the case of an alternating current supply to such devices for electrical simulation of sensor calibration, the value of the sensor calibration coefficient depends on the parameters of the communication link and the frequency of the voltage sensor supply (even if the link length is constant, its parameters may change under the influence of external conditions).

The aim of the invention is to improve the accuracy of modeling the calibration of bridge load cells in the course of their operation during

the effects of various destabilizing factors on the communication line and on the secondary measuring annuature.

To do this, in the proposed device mechanically interconnected two-position switches are introduced, in which each precision resistor is connected in parallel to the corresponding sensor strain gauge, and the precision resistors corresponding to the mutually adjacent sensors of the resistance sensor are connected to opposite terminals of two-position non-switches.

In the drawing, a schematic of an apparatus for electrically simulated sensor calibration is shown, in which all four bridge strain gages are operational.

The device contains precision resistors /, 2, 3, 4 of the same size and two-channel switches 5. Precision resistors /, 2, 8, 4 are connected in parallel to all the strain gauges 6, 7, 8 and 9 of the bridge strain-gauge circuit in such a way that 9 are shunted with precision resistors .2 and - and other opposing resistance strain gages 6 and 8 are not bridged with precision resistors / and 5.

After balancing the strain gauge, ianrnmer using a balancing device located in the secondary device, the switches 5 are switched to the position in which the precision resistors are disconnected from the strain gauges 7 and 9 of the sensor, and the precision resistors / n 5 are connected in parallel to the strain gauges 6 and S. As a result such a switch at the output of the strain gauge with a Vits output voltage that exactly corresponds to the output voltage when applied to the sensor with an exemplary loading measure.

If necessary, conduct an electrical simulation of the calibration, at several points it is necessary to have a set of different in size precision resistors.

Subject invention

A device for electrical modeling and calibration of strain gauge sensors, comprising a bridge strain gauge sensor and precision resistors, characterized in that, for the purpose of new simulation accuracy, it contains mechanically interconnected two-pin switches, each one of which is connected in parallel to each other. The sensor's strain gauge, and precision resistors, correspondingly mutually suitable for measuring the resistance of the starter sensor, are connected to the opposite terminal m two-way switches.