SU894341A1 - Method and device for determination of structure load carrying element stressed condition - Google Patents

Description

and the output of the polling unit is connected to the recorder.

The drawing shows a block diagram of a device that implements the described method.

The device contains a product 1 installed on a testing machine 2, through which a certain stress state is created in the product 1. Using a shock cam 3, a normalized shock effect is produced on the test product 1. This effect causes its own oscillatory process in product 1, the energy the spectrum of which is converted by sensor 4 into an electrical signal. A signal proportional to the energy spectrum is fed to the input of amplifier 5 and then to the input of spectrum analyzer 6. The output of the spectrum analyzer is connected to switch 7, one of the terminals of which is connected to block 8 of long-term memory, and the other to block 9 of short-term memory, the output of the short-term memory unit 9 is connected to one of the inputs of the comparator 10 spectra and to one of the inputs of the polling unit 11, the output of the polling unit 11 is connected to the triggering input of the long-term memory unit 8, the output of the long-term memory unit 8 Inonii to another input of the comparator 10 spectra spekrov comparator output 10 is connected to another input unit 11 interrogation and interrogation unit 11 is connected to the output recorder 12.

The method is carried out as follows.

The impact cam 3 produces a normalized shock effect on product 1. As a result of the impact, self-oscillations occur in a stressed element of product 1, the energy level of the spectrum of which is converted by sensor 4 into an electrical signal, which is amplified by amplifier 5 and fed to the input of spectrum analyzer 6. After the signal is processed by the analyzer 6, the energy level of the spectra of forced oscillations of the stressed element of the product 1 is transferred through the switch 7 to the block 9 short-term memory, from where it is simultaneously fed to the first input of the comparator 10 spectra and the first input of the polling blot 11. The signal received from the polling unit 11 triggers the non-volatile memory unit 8, and the previously recorded energy spectra levels from the non-volatile memory unit 8 are fed to the second input of the comparator 10 spectra. As soon as the comparator 10 spectra selects from a number of spectra received from block 8 of long-term memory.

The energy level of the spectrum, identical to the spectrum received by the 10 spectra comparator from the short-term memory unit 9, to the 1 spectator 10 spectra, sends to the second input of the polling unit 11 a signal that carries information about the spectrum that is identical to the spectrum of the forced oscillations of the product, in turn, unit 11 Interrogation turns off the non-volatile memory unit 8. At the same time, the received signal from the comparator 10 of the spectra produces a corresponding signal for fixing it in the recorder 12, which enters it through the second output of the polling unit 11, and on the scale of the recorder 12 information on the degree of intensity of the structural element under investigation appears.

Thus, this method and device for its implementation allows to determine the strength of the product design without preloading and subsequent force loading and can be used in determining the stress state of a structure after an unexpected change in operating conditions as a result of seismic effects, explosion, changes in the ground, etc.

Claims (2)

1. A method for determining the stress state of structural elements, which consists in measuring the stress state of an object using string strain gauges and recording the natural vibration frequencies of the string, characterized in that, in order to improve the accuracy of measurements, a normalized shock the effect on the object under study and on the energy level of the object's natural spectrum of the object determines the degree of stress of the structure. 2. A device for determining the stress state of the supporting structural elements, comprising a series-connected sensor, amplifier, switch, long-term memory unit and recorder, characterized in that In order to increase measurement accuracy, it is equipped with a spectrum analyzer, short term memory unit, spectra comparator and interrogator unit, a spectrum analyzer is connected between the amplifier and the switch, the short term memory unit input is connected to the spectrum analyzer output through the switch, the short term memory unit output is connected to one from the inputs of the comparator cneKT toB and to one of the inputs of the polling unit, the output of the polling unit is connected to the triggering input of the long-term memory unit, the output of the latter is connected to another input of the spectra comparator, the output of which is connected & another input of the polling unit, and the output of the polling unit is connected to the recorder. Sources of information taken into account in the examination 1. Strain gauge in mechanical engineering. Ed, R.A. Makarova, M., Mechanical Engineering, p. 7, 12, 1975 (prototype). 2. USSR author's certificate number 445826, cl. G 01 B 7/16, 1972 (prototype). CX h h