SU424042A1 - MEASURING DEVICE FOR A TESTING MACHINE FOR DYNAMIC TESTS OF SAMPLE MATERIALS - Google Patents

Description

one

This invention relates to the field of testing technology.

A measuring device for a testing machine for dynamic testing of material samples is known, comprising sensors of electrical signals proportional to the load and strain of the test specimen; signal comparison units, one input of each of which is connected to a corresponding sensor; compensators, for example, reichords, each of which is connected to a different input of the corresponding comparison unit; phase-sensitive amplifiers connected to the outputs of reference units; sensor signal differentiators; chart apparatus with a carriage and a tape mechanism; electric motors whose control circuits form systems of the next speed and are connected to comparison units and differentiators; and mechanical differentials, the input shafts of each of which are connected to the shafts of electric motors, and the output halls - with the carriage and tape drive mechanism of the chart apparatus.

The proposed device differs from the known one in that the inputs of the differentiators are connected to the outputs of phase-sensitive amplifiers.

Such an embodiment of the device allows

reduce the dynamic incidence of measure.

The drawing shows a structural diagram of the proposed device.

The measuring device for the test facility 1 contains sensors 2 and 3 of electrical signals proportional to the load and strain of the test specimen; units 4 comparison of signals, the input of each of

which is connected to the corresponding sensor 2 and 3; compensators, for example reichords 5; phase-sensitive amplifiers 6; differentiators 7, the inputs of which are connected to the outputs of phase-sensitive amplifiers 6;

a chart machine with a carriage 8 and a tape mechanism 9; electric motors 10 and 11, whose control circuits 12 and 13 form the following systems in speed and are connected to comparison units 4 and differentiators 7, and mechanical differentials 14, the input shafts of each of which are connected to the shafts of the electric motors, and the output shifts to the carriage 8 p tape mechanism 9 diagramme apparatus.

The described device operates as follows.

The signal from sensor 2 is fed to block 4 of comparison with a reohord 5. From the output of block 4 of comparison, the unbalance signal is fed to phase-sensitive} silica gel 6.

From the power source 15, the increased voltage frequency circuit is supplied. The DC output signal to the corresponding field from the phase-sensitive amplifier 6 is fed to the input of the first tracking system.

To the input of the second servo system, the output signal from the phase-sensitive amplifier 6 is passed through a differentiator 7.

At the output of the two following systems there is a mechanical differential 14, the output shaft of which is connected to the reohord 5 and the carriage 8.

The measurement channel of sensor 3 is constructed similarly to that described, only the output shaft of the differential is connected to a tape drive mechanism 9.

Subject invention

Measuring device for testing machine for dynamic testing of material samples, containing sensors of electrical signals proportional to the load

And deformation of the test specimen; units of comparison of sigals, each input of which is connected with the corresponding sensor; compectors, for example, reichords, each of which is connected to a different input of the corresponding comparison unit; phase-sensitive amplifiers connected to the outputs of comparison units; „Sensor signals differentiators; diagram-mms aggrat with a carriage and a tape-driving mechanism; electric motors whose control circuits form speed-following systems and are connected to comparison units and differentiators; and mechanical differentials, the input shafts of each of which are connected to the shaft of electric motors, and the output shafts - with a carriage and l (for example: a mechanism of a diagram device, characterized in that, in order to reduce the diamie measurement error, the inputs of the differentiators are connected to the outputs phase-sensitive amplifiers.