SU1523902A1 - Strain measuring device - Google Patents

Abstract

The invention relates to a measurement technique and, in particular, to devices for measuring deformations of rotating objects. The purpose of the invention is to simplify the design and reduce the size by allowing the use of small rotary capacitors for current collection. For this, the strain gauge device is equipped with an automatic gain control unit 9 and a notch filter 10 tuned to the frequency of the sinusoidal voltage generator 6. Block 9 and filter 10 are connected between current sensor 7 and recorder 11. 1 slug.

Description

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The invention relates to a measurement technique, in particular, to devices for measuring deformations of rotating objects.

The purpose of the invention is to simplify the design and reduce the size by allowing the use of compact rotary capacitors for current collection without placing electronic equipment on the object.

The drawing shows a structural diagram of the strain gauge device.

The device contains a worker 1 and a compensation 2 strain gauges, diodes 3 and 4, a current collector 5 made as a small rotating capacitor, a sinusoidal voltage generator 6, a current sensor 7, a second current collector 8, an automatic gain control unit 9, a notch filter 10 and a recorder 11 The first pins of the working 1 and compensating 2 tensor resistors are connected to the movable plate of the first rotary capacitor 5. The second output of the working strain gage 1 is connected to the anode of the first diode 3, and the second output The resistance strain gage 2 to the cathode of the second diode 4 of the first diode 3 and the anode of the second diode are connected to a movable plate GG of the second rotating capacitor 8. There is no connection to the plate of the first capacitor 5 connected to the output of the generator 6 sinusoidal voltage. The fixed plate of the second rotating capacitor 8 is connected to the current sensor 7. to which the input of the automatic gain control unit 9 is connected. The output of the block 9 is connected to the input of the gear filter 10, the output of which is connected to the input of the recorder 11. The tensometric device works as follows.

A sinusoidal voltage generator 6 generates a sinusoidal voltage at a stable frequency. During the positive half-wave voltage, the current flows through the working tensoriser 1, and during the negative one through the compensating resistor 2.

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Therefore, a voltage of asymmetrical form appears on the current sensor 7, containing harmonics whose frequencies differ from the frequency of the generator 6. The voltage from the current sensor 7 goes to the automatic gain control unit 9, the output of which maintains the effective voltage value . The voltage from the output of the automatic gain control unit 9 is fed to the rejector filter 10, tuned to the frequency of the sinusoidal voltage generator 6. After the notch filter 10, the signal without the first harmonic is applied to the recorder 11, for example, a voltmeter of the rms voltage, the scale of which is programmed in units of the relative magnitude of the deformation.

The use of the invention permits one to measure-deform on rotating objects using small capacitive current collectors without placing additional electronic equipment on the rotating object.

Claims (1)

Invention Formula A strain gauge device containing a working and compensating strain gages, two diodes, two currents for current collection during rotational motion, a sinusoidal voltage generator, a current sensor, a recorder and a measuring circuit are connected between the current sensor and the recorder, one of the terminals of each The strain gauge is connected via the first current collector to the generator output, and the other leads of the strain gauges are connected through opposite diodes and the second current collector are connected to the current sensor, characterized in that oshchenilas construction and reducing overall dimensions, the measuring circuit is implemented in the form of automatic gain control unit and a notch filter connected in series, and the current collectors as reported in Ref small rotating capacitors.