SU781669A2 - Apparatus for monitoring specimen rupture - Google Patents

Description

The invention relates to testing equipment, in particular to devices for monitoring the destruction of a sample during software fatigue tests in a self-oscillating mode. According to the main auth. No. 531058 is an identi fi ed device for controlling the destruction of a sample in a single-sided fatigue test with self-oscillations, containing a control unit associated with a software unit, an input driver and a generator of counting pulses, the outputs of which are connected to the control unit are serially connected to a memory counter. , the rewriting unit, the sukmator and the output unit, the inputs of which are connected to the control unit 1. A disadvantage of the known device is that it measures the oscillation period of the sample followed by m by calculating the difference in the durations of the periods and the beginning of the tests and in the process of testing by filling the pulses with an increased frequency of one sample oscillation period. Due to the fact that the frequency of auto oscillations of samples made from materials with different mechanical, geometric and strength characteristics is different, the number of pulses that characterizes one and the same frequency of oscillations of the tested samples is different. The price of one pulse obtained as a result of calculating the difference in the durations of periods at the beginning and during the test is given by the formula -y. . , HZ / impulse, where P is the current frequency value. specimens, f is the frequency of filling the sample oscillation period. So, for example, at 10bhz; P 200 Hz permissible frequency deviation of the sample in 1 HZ corresponds to a period difference of 25 pulses, and for F 100ru, the frequency difference of 100 pulses corresponds to the frequency deviation. Therefore, the determination of the moment of inception of a fatigue crack at different frequencies of oscillations of the samples while fixing the permissible deviation of the frequency of production is made with an error. The purpose of the invention is to improve the measurement accuracy. The goal is achieved by the fact that the device is equipped with a digital frequency multiplier, the input of which is connected to the output of the driver, the input signal, and the output to the input of the control unit and the drivers of the reference BP. mannose interval, connected to the generator of counting pulses, and the output to the input of the control unit. The drawing is a block diagram of the device. The device contains a form of 1 input signal, a digital S-band 2 frequencies, a control block 3, a shaper 4 of the reference time interval, a generator of 5 counting bits, with a h of the h tb block t and a, f ok: 7 overwrites, adder 8, output unit 9. The input device shaper 1 is associated with the exciter. Control block 3 is connected to an n-type block. (Oscillator and programmer / 1My block are not shown in the diagram. Overwriting counter 6, 7, adder 8, output block 9 BK (serialized. The inputs of all these blocks are connected to control block 3 . -, The device works as follows. ...,., -. -,;: ----. After switching on the test set after some time is sufficient for the controller to run the autolarbate from the system to „stable oscillation mode, the signal coming from program block, include the proposed device. the exciter, the passage through the shaper 1 input signal. digit) It is multiply; frequency 2, set & t: p control unit 3, where it fills the first 6 time interval, the input of the control unit 3 through the shaper 4 of the reference time interval from generator 5 pulses. The lyjiHOKeHHoft pulses, oscillations of the sample are counted with counter 6. The information recorded in counter 6, corresponding to the multiplied oscillation frequency 6 BRA: 3–3 of this load step, is kept until the end of the test. The number of counters is determined by

Claims (1)

781669 with the number of load levels of the program. Upon completion of the recording in control unit 3, a command is generated for analyzing the state of output unit 9, and since at this stage in adder 8 there is no information about the oscillation frequency of the movable part of the installation, no signal indicating a change in frequency is received from the decoder 9. The next command from control block 3 records the rewriting of information block 7 contained in counter 6, in cy / Imatr 8, then in control block 3, the second time interval is filled with sample frequency multiplied pulses, which are read out in adder 8 adds the code of the number rewritten from counter 6 / with the code of the number corresponding to the multiplied frequency of the sample, obtained by filling the second time interval. After that, the command for analyzing the state of the output block 9 / is formed again, taking into account the state of the adder 8, and the output block 9 issues a conclusion about the equality or inequality of the compared multiplied oscillation frequencies. The same sequence is observed when working on other loading stages with the only difference that in the adder 8 the information contained in the meter counter is rewritten. Claims of Invention A device for monitoring the destruction of a sample of an auth. 531058, it is distinguished with teM that, in order to increase accuracy, it is equipped with a digital frequency multiplier, the input of which is connected to the output of the input signal shaper, and the output - to the input of the control unit, and the driver of the reference time interval, connected by the input to the counting pulse generator, and output - to, the input of the control unit. Sources of information accepted in, during the examination 1. Authorship certificate USSR 531058, c. 01N 3/06, 1977 (prototype). Lp guogrvtnogv length