SU406167A1 - - Google Patents

Description

COMPENSATED DEFORMATION METER

one

This invention relates to a measurement technique.

A compensated strain meter is known, which contains a chain-based strain-gauge circuit, a compensation bridge with two resistors and two strain gauges located on the same elastic sensing element together with the strain-gauge circuit chains, and the measuring diagonal of the compensation bridge is connected in series with the optron-amplifying cell in series with the power terminals of the circuit.

The proposed meter differs from the known one in that it is equipped with a second analogous compensation bridge and two oscillator-amplifying cells, the outputs of which are connected simultaneously, and the inputs respectively with the output of the chain-like circuit and the measuring diagonal of the second compensation bridge.

This allows for improved measurement accuracy.

Ia drawing shows a diagram of the proposed meter.

The compensated strain gauge contains a chain strain gauge circuit 1, compensation bridges 2, 3, each of which contains two strain gauges 4, 5 and two resistors 6, 7, three opto-amplifiers cells S-10, and sources P, 12 power. The inputs of the opto-amplifying cells 5, 9 are connected to the measuring diagonal m of compensation bridges 2, 3. The output of the cell 8 is connected in succession with the input of the chain strain gauge circuit / relative to the source // power supply. The output of the cell 9 is connected in series with the output of the cell 10, the input of which is connected to the output of the chain strain gauge circuit 1.

The meter works as follows.

Resistor 7 establishes the initial balance of the compensation bridge 2. At the same time, the collector current of cell 8 transistor provides a choice of the operating point of the optocoupler of cell 8. The bridge 5 and the tuning of optocoupler cells 9, 10 are similarly balanced. compensation bridges 2, 3.

At the output of circuit 1, a voltage appears, whose magnitude is proportional to the measured strain, and at the output of compensation bridges 2, 3, a voltage proportional to the strain of the resistance strain gages 4, 5. The voltage supplied to the input of the opto-amplifying cell 8 causes a decrease voltage falling at the output impedance of the optocoupler cell 8, a. consequently, an increase in the voltage supplying the circuit. it

increases the output level. At the same time, the deformation of the strain gauges 4, 5 of bridge 3 leads to the appearance of a voltage at the input of the optocoupler cell 9, which increases the output resistance of the optocoupler cell 9, thereby increasing the level of the output signal.

In the absence of deformation, a change in the temperature of the discharge medium causes a drift in the operating point of the device, resulting from a change in the resistance of the strain gauges of circuit 1. At the same time, the voltages taken from compensation bridges 2, 3 change. In this case, an additional change in voltage of bridge 2 supplied to the input of the chain strain gauge circuit /, thereby providing compensation for the drift of the operating point.

An additional change in the voltage of bridge 3 leads to a change in the voltage applied to the input of the optocoupler cell 9. However, the photodetector of the optocoupler of the cell 9, in the absence of deformation, operates in a mode in which a change in the photodetector illumination does not cause a change in the operating point voltage.

Subject invention

A compensated strain gauge containing a chain strain gauge circuit, a compensation bridge with two resistors and two strain gauges located on the same elastic sensing element along with the strand gauges of the chain diagram, and the measuring diagonal of the composition bridge is connected through an optical-amplifying cell in series

with power circuit terminals, characterized in that, in order to improve measurement accuracy, it is equipped with a second analogous compensation bridge and two optocoupler cells, the outputs

which are connected in series, and the inputs, respectively, with the output of the chained circuit and the measuring diagonal of the second compensation bridge.

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