SU861928A1 - Calculating strain gauge - Google Patents

Description

The invention relates to measuring technique, in particular for studying the strain on machines and structures operating under unstable loads.

A counting strain gauge is known (it contains serially connected generator, tensometer, amplitude amplifier discriminator, the outputs of which are black and free of charge cascades Q with a generator of rectangular pulses and scaling diagrams connected to the flow chart, and each of the flow diagrams, and each of the diagrams), each of the diagrams, and each of the diagrams, which are connected to the registra that: electric meters do not work reliably when testing a car because of thrusts and drives,

The closest to the proposed JQ invention of the technical essence and the achieved result is a counting strain gauge containing serially connected transforms

deformation in the electric amplitude discriminator, triggered, blocking cascades, to the inputs of which a generator is connected: real pulses, scaling circuits to the second inputs of which coincidence circuits are connected, connected to the nocdially connected generator of the interrogation pulses and setters for onpoc-j pulses, an output coincidence circuit, and a recorder {, 2. ;

The disadvantage of this Ro-tensometer is that recalculation schemes cannot store information when the supply voltage is removed, which makes it difficult to carry out long road tests of vehicles, which leads to the loss of some information.

The aim of the invention is to eliminate possible loss of information and ensure its storage for subsequent entry into a computer.

Claims (2)

The goal is achieved due to the fact that the counting strain gauge is equipped with input 3 Pus and. the output of the OR circuit, the interrogation pulse switch, the pulse delay generator, the recording unit with the switch and the playback unit with the switch, and the outputs of all scaling circuits through the input circuit OR are connected to the control input of the interrogation pulse switch, the odd inputs of which are connected to the input coincidence circuits , even through the output circuit OR is connected to the output matching circuit, the control output of the interrogation pulse switch is connected to the square pulse generator and the Poll impulse generator Likewise, its second input is connected through a delay generator, pulses to the output of the set knob, the polling pulses are honest, the latter is connected to the control input of the recording switch, the code outputs of the recorder are connected to the recording unit through the switching inputs, and the second input is connected to the control one , the output of the switch of interrogation pulses, and the code inputs of the recorder. From the switching outputs of the switch of the recording playback, is connected to the playback unit. The drawing shows the block diagrams of the proposed counting. Tensometer. It contains series-connected transducer 1. Deformation amplitude discriminator c. cells 2-6, triggers 7-11, locking cascades 12-16, controlled by a generator, 17 rectangular pulses, input circuits 18-22 coincidence, scaling circuits 23-27, input circuit OR 28, switch 29 interrogation pulses, output the OR 30 circuit, the output coincidence circuit 31, and the recorder 32. At the code inputs of the recorder 32 are connected in series. co.Edinned b ca. 33 reproduction. and switch 34. recording playback. The code outputs of the recorder 32 are connected to a serially connected switch 1 to the record 35 and block 36 to the recording. In addition, the strain gauge contains, in series, the connected generator 37 delay pulses, the generator 38 interrogation pulses, and the unit 39 of the number of interrogation pulses, the output. which is connected to the switch 35 records. The counter strain gauge works as follows. 4 Investigation of the deformation by the transducer 1 is converted into an electrical signal, which is fed to the input of the amplitude discriminator, cells 2-6 of which are always set to a certain value of the input voltage, when the cell, for example, cell 2, is triggered, and the signal to the trigger 7 The trigger 7 is triggered and opens the closing cascade 12, through which the pulses from the generator 17 into the conversion circuit 23 begin to pass. With a further increase in the input voltage, the next cell 3 of the discriminator and the pulse From the generator 1 7:. Come next, p.eres.chetnuk. scheme 24. At the same time, in the recalculated scheme 23 pulses are not received since the locking cascade 12 is closed. In the event that the number of pulses equal to the memory capacity of these circuits arrives in any of the scaling circuits 23-27, an overflow signal appears at the output of the latter. This sig.n.al through the input circuit OR 28 enters on. The control input of the switch is 29 interrogation pulses. At the first switch output of the switch .29, there is an enable signal, which is supplied. on one of the inputs of the circuit 18 coincidence. Pulses from the generator 38 of interrogation pulses, which are triggered by a pulse from the control output of the switch 29, begin to flow into the counting circuit 23 and the unit 39 of the number of interrogation pulses. Simultaneously. this pulse turns off the generator 17 and turns on the writing unit 36 ;. B recalculate circuit 23 pulses arrive before its overflow. By the overflow signal through the OR circuit 28, the switch 29 is transferred to the next position, in which the enabling signal is removed from the first output. and enters the second switching output. This signal enters through the VESOD circuit OR 30 to the output coincidence circuit 31, through which the pulses begin to pass into the recorder 32 from the generator 38 of interrogation pulses. Pulses are sent to recorder 32 until an overflow signal is received from setpoint 39. The overflow signal is obtained when the unit 39 receives the number of pulses equal to the volume of the scaling circuit 23. At the same time, the number of pulses of sowing equal to the number of pulses located in the scaling circuit 23 will arrive to the register 32 at the time of the start of the poll. Indeed, if in the scaling circuit 23, the number of pulses is hj-, then when the number of pulses in it is equal to N - Hj, where N is; the volume of the scaling circuit 23 is recalculated cf 23 i overflows i But since the generator 38 pulses W, as set in the setting unit 39 ,, then the pulses N- (N-AND j) -VIJ will go to register4tor 32, i.e. the number of pulses that was in the Scaling circuit 23. The overflow signal from the setpoint 39 turns on the generator 37 of the delay pulse, which turns off the generator 38 of interrogation pulses. Through the scheme OR 28, the switch 29 of interrogation pulses is switched to the position in which the permissive signal At the third commutation output, connected to the input matching circuit 1, and the recording dial switch 35 is started. This switch 35 is used to sequentially connect the decadapter 32 code outputs to the input of the recording unit 36, which records the output of the parallel code recorded 32 as pulses, the logical one being written with a positive polarity pulse and rusti. The duration of the delay pulse from the generator 37 is chosen to be equal to the time required for the full cycle of the operation of the dial switch 35, i.e. when the code outputs of all bits of the recorder 32 are polled. Upon completion of the delay pulse, the generator 38 starts up again and the second conversion circuit 24 is polled. The operation cycle is similar to the survey of the first conversion circuit 23. Thus, the accumulated information results are automatically recorded in circuits 23-27 on magnetic tape 36 records. After polling the last scaling circuit 27, the switch 298 interrogation pulses are reset. At the control input of the switch 29, a signal is generated, which turns off the block 36 for the fox and the generator 38 of interrogation pulses and turns on the generator 17 of the rectangular pulses, and the counting one. The strain gauge continues to measure deformation. After lengthy tests, the recorded information from block 36 is also recorded using this counter strain gauge. For this purpose, the playback unit 33 and the different polarity pulses, which carry the information about the logical 1 and the logical O, are sequentially received at the playback switch 34. Depending on the polarity of the incoming signals, the corresponding signals will appear setting signals on the corresponding comms of the digital outputs of the playback switch 34. These signals are received by: Posting. The internal inputs of the recorder 32. After completing the input of the setup signals to the recorder 32 and with the arrival of a polling end pulse of the first recalculation circuit 23, a command is received to transfer information from the recorder 32 to the computer (not shown in the drawing, which produces a processing of the information received. Thus, this counter strain gauge eliminates the loss of information when power is removed from it and provides storage of information for subsequent input into a computer, Claims of the invention a strain gauge containing a serially connected strain-to-electric converter, an amplitude discriminator, triggers, blocking cascades, to the inputs of which a square pulse generator is connected, scaling circuits, to the second inputs of which coincidence circuits are connected, connected in series by a polling pulse generator and a quantity reference interrogation pulses, output C}: it matches and the registrar differs in that, in order to exclude possible information and provide It is not wounded for subsequent input into the VM, it is equipped with 1 input and output OR circuits, an interrogation pulse switch, an impulse delay generator, a recording unit with a switch and a playback unit with a switch, and all outputs are recalculated via an input circuit OR are associated with a control input of the interrogation pulse switch, its inputs, odd, are connected to the input matching circuits, even through the output OR circuit, to the higher input matching circuit, the control output of the interrogation switch is connected to the generator of the second pulse is connected via a pulse delay generator to the output of the unit for the number of polled pulses, the latter is connected to the control input of the recording switch, the recorder code outputs are connected to the recording unit via the switching input of the recording switch, the second input is connected from the control output of the switch of the interrogation pulse, and the code inputs of the playback recorder Records are connected to the recording playback unit. Sources of information taken into account in the examination. USSR author's certificate number 638841, cl. G01 7/16, 1975. 2. USSR author's certificate in application 2312383 / 25-28, cl. G 01 B 7/16, 1978 (prototype).