SU879385A1 - Device for testing materials for fatigue strength - Google Patents

Description

(54) DEVICE FOR TESTING MATERIALS FOR TIRED STRENGTH The invention relates to a test technique, namely, devices for testing materials for fatigue strength. A device for testing materials is known, which contains loading mechanisms, feedback sensors connected through a selector to the input of the comparator unit, to the second input of which the loading parameters adjusters are connected. The drawbacks of the device are the impossibility of obtaining load rates and low reproducibility of the specified loading parameters. . The closest to the invention to the technical essence is a device for testing materials for fatigue strength, containing a serially connected master oscillator, a controlled frequency divider, a reversible counter, a digital-to-analog converter, a first comparison unit, a power amplifier and an electro-hydraulic converter with a spool position sensor hydraulic cylinder , feedback circuit, including load sensors, deformations of the sample of the test material re-displacement of the hydraulic cylinder rod, the outputs of through the selector, they are connected to the second input of the comparator unit of the amplitude values of the loading parameter, the second comparator unit, the inputs of which are connected to the amplitude of the amplitude values and the output of the digital-analog converter, and the output to the control input of the reversible counter 2. The disadvantage of this device is the low reproducibility amplitude values of the loading parameters, due to the fact that during the test the specified values are compared with the signal proportional to the current value load without taking into account the error of the loading mechanism, compressibility of the working fluid, etc. The purpose of the invention is to improve accuracy. This goal is achieved in that the device is equipped with a switch, the inputs of which are connected to the outputs of the selector and the digital-analog converter, and the output to the input 1 of the second comparison unit.

 The drawing shows a block diagram of the proposed device.

The device contains a charging mechanism 1, a hydraulic cylinder 2, an electro-hydraulic converter 3 with a spool position sensor 4, a feedback circuit including load sensors 5,6,7, sample deformation of the test material, and displacement of the hydraulic cylinder rod 2, respectively, the outputs of which are connected to the selector 8 , the second comparison unit 9, to the inputs of which the setpoint adjusters 10, 11 of the amplitude values of the loading parameters are connected, are connected in series to the master oscillator 12, a controlled frequency divider .13, a reversible counter 14- , to the control input of which the output of the second comparison unit 9 is connected, and the digital-to-analog converter 15, the output of which is connected to the inputs of the switch 16 and the first comparison block 17, the second input of the switch 16 is connected to the output of the selector 8, and the output is connected to. the input of the second comparison unit 9, the output of the comparison unit 17 through the power amplifier 18 is connected to the input of the electro-hydraulic converter 3.

The device works as follows.

The master oscillator 12, which forms frequency-stable pulses, fills a reversible counter 14 connected to a digital-to-analog converter 15 through a controlled frequency divider, at the output of which a linear-varying signal is formed. The rate of change of the loading parameter is determined by the pulse repetition rate, and the direction of change of the stretch is reduced by the counting mode of the reversible counter 14. Thus, in the summation mode, linearly increasing loads are formed, and in subtraction mode, linearly decreasing loads. .

Using the setting devices 10, 11, the amplitude values of the loading parameters are set, which are compared by the comparison unit 9 with the value measured by one of the feedback sensors 5,6,7. If the compared values are the same, a command signal is generated at the output of the comparator unit 9, according to which the counter 14 senses a change in the loading mode: the tension is replaced by compression, and then the process repeats.

The signal from the output of the counter 14, converted to analog form, is fed to the input of the comparator unit 17, to the second input of which the signal of one of the sensors 5, 6, 7 arrives.

The error signal is amplified by the power amplifier 18 and processed by the electro-hydraulic former 3 in such a way as to reduce it to zero.

The proposed device improves the reproduction accuracy of the amplitude values of the loading parameters.

Claims (2)

1. Testing machine URS 20/6000, Supplement to the nomenclature for 1977-78, M., ochmashpribor. 2. Testing machine UE-50. Nomenclature. M., Tochmashpribor, 1977 (prototype). w P . + if II L.U