SU935829A1 - Device for piezo pickup remote checking - Google Patents

Description

(5A) DEVICE FOR REMOTE CONTROL OF PEDIQUE SENSORS

Claims (1)

The invention relates to electrical measurement equipment and can be used to test piezo sensors. Closest to the proposed technical entity is a device for remote control of piezoelectric sensors, containing a switch, the first input of which is connected to the piezosensor, and the output is connected to the first input of the control signal generating unit, the first output of which is connected to the first input of the coincidence unit, the second input is connected with the second input of the switch and the first input of the control unit, the second input of which is connected to the second input of the control signal generation unit, the third input of which is connected to stroke generator having an input coupled to an output of the control unit and the second input of the coincidence, the output of which through a series connected differential unit and derivations threshold element is connected with the indicator and the second input switch. Piezodatmic monitoring is performed by compensating for the capacitive load of the connecting cable, generating a control signal when the generator frequency changes in a certain frequency range, and fixing the sensor response to this change. A different response from a working and faulty sensor allows reliable remote monitoring 1. The drawback of the device is that different types of piezo sensors used differ from each other both in sensitivity and frequency range, which, with a large number of sensors at the control object, can lead to a confusion of the sensor type and an unreliable measurement result, and the control device does not can divide sensors by type. The whole invention is to improve the quality of the remote control. The goal is achieved in that the device containing the switch, the first input of which is connected to the piezo sensor, and the first output is connected to the first input of the signal conditioning unit, the first output of which is connected to the first input of the matching unit, the second input is connected to the second input of the switch and the first input of the block control, the second input of which is connected to the second output of the control signal generating unit, the third input of which is connected to the output of the generator, the input of which is connected to the output of the control unit and the second input of the block matches, the output of which is connected through a serially connected differentiation unit and a threshold element connected to the indicator input, a program block, a generator range switching units, AND elements, OR elements, an NOT element are entered, the indicator input is connected to the first inputs of the AND elements, and the second inputs are the first. the groups of elements AND are connected respectively to the N outputs of the program block, and the outputs are connected respectively to the I inputs of the first OR element, the output of which is connected to the first input of the control unit, and through the element NOT connected to the second inputs of the second group of AND elements, the third inputs of which are connected respectively but with the third inputs of the first group of elements And and respectively with the first outputs of the generator range switching units, which are connected respectively to the N inputs of the generator, the input of which is connected to the first input Home of the first switching unit of the generator ranges, the second output of which is connected to the first input N of the generator switching unit of the generator, the second output of which is connected to the second input of the indicator the input of which is connected to the second output of the switch and the input of the program block, and the N inputs are connected respectively to the outputs of the second group of elements AND and the N inputs of the second element OR, the output of which is connected to the second inputs of the blocks Switchgears generator ranges, with the third input of which is connected a second input of the switch. FIG. 1 shows a block diagram of the device; in fig. 2 - signal plots. The device contains piezoelectric sensors 1, switch 2, block 3 of forming a control signal, control block k, generator 5, block 6 coincidence, block 7 of differentiation, threshold element 8, indicator 9 program block 10, blocks 11 of switching the generator (in the amount of N), elements AND of the first group, elements AND 132N of the second group, two elements OR 14 and H2. element 15. The positions 16-31 denote signal plots (Fig. 2). The device works: em as follows. When a control pulse is applied to the second input of the switch 2, the controlled piezosensors 1 (plots 16-18) are alternately connected to the block 3. In this case, compensation is made for the effect of the capacitive load of the connecting cable on the sensitive element, for example, by means of a bridge element. To the third input of unit 3, a sinusoidal signal is sent from generator 5 operating in the fixed frequency mode in a certain range. The signal that goes to the first input of block 6, when the control signal from block 4 (plot 20) passes to block 7. At the end of the cable capacitance, the second input of block k receives a signal (plot 1)), as a result The output signal from the block output k opens the trip; the act of passing the control signal of the piezo sensor, changes the operation mode of the generator 5 which starts working in the generator, sweeping frequency (plot 21), allows the generator to increase to the first range, connecting block 11 (the number of blocks equals N by the number of types of drinks zolatchikov, since each type has a different resonance frequency). If the piezo sensor fails or if the type of sensor being tested does not match the set frequency range, the change in the control signal of block 3 is monotonously 5 varying signals (plots 222, 22з, 225) that after block 7 does not pass through threshold element 8 (ep1 & 242 , 2t, 2Aj). A good piezo sensor circuit has a very different reaction from the faulty generator frequency change 5, since when the resonance frequency of the piezo sensor is reached, block 3 becomes unbalanced and the signal (plots 22, 22) through threshold element 8 (plots 23, 23) and indicator 9 ( epures, 2k) is fed to the first input of the elements of the first and second groups. The control signal, with a good sensor and no entanglement, passes through only one of the N elements AND of the first group, to which checks are simultaneously sent simultaneously, control signals from the corresponding generator range switches (plots 25-27) and output of the unit 10 purses 28-30) . Each of the N switches 11 of the generator range is connected to the corresponding generator input 5, which ensures alternator generator operation at one of the frequency ranges (in the order of increasing nominal values) corresponding to a specific type of piezoelectric sensor being tested (plots 21, 25, 26, 27) . At the same time, from the first outputs of the l –lljq blocks, a signal is sent to the corresponding elements AND blocks 12 12j and 32N to prepare the signal paths through one of the 2N elements AND (plots 25, 26, 27) The second inputs of each of the N elements of the first group give a signal from the corresponding output of block 10 (plots 28–30) i set 110 the first type of sensor to be checked. The operation of the unit 10 is controlled by the switch 2, according to the position of which a signal is output on one of the N outputs in accordance with the predetermined mm type of the sensor under test at the given position of the switch. If the sensor type is identical, for this block 10, with the type of the tested one (plots 24, 25, 28, 7, .30) in the case of a working sensor, a pilot signal pulse is connected to the input of the Tt 2 element (plot 3t) and further to the second inputs switch 2 (connecting the next sensor for the control), block 3 (setting the compensation element in the initial position), 9 k blocks (closing the 6 block and changing the generator 5 operating mode), blocks (resetting the generator range intersectors to the initial position), and to the element NOT 15 And the second group). In the case of a faulty sensor at the output of the element H2. the pulse does not appear (plots 27, 30), the auto-check mode is terminated. is. At the end of the generator operation in the mode specified by the 1t | block, the signal from its second output enters the input of the indicator 9 fixing the failure of the piezo sensor circuit. In this case, the third input of indicator 9 receives a signal from the second output of switch 2, fixing, for example, the sequence number of the faulty circuit. If the type of the sensor under test does not match the TWIOM specified by the unit, the automatic test mode also stops, since it is output. the impulse does not appear due to the mismatch of the numbers of the elements AND of the first group, to which the impulse of the block 10 and the impulse from the block 11-11j4 comes. The absence and "1 pulse output element 1 / j. opens the elements And the second group, the pulse from the output of the threshold element 8 passes only through the element And, which is currently applied pulse from the corresponding switch 11 ranges of the generator. The signal from the output of each element And the second group is fed to the corresponding input of the indicator 9, fixing the installed sensor type. From the output of element 1, the pulse stops further operation of the range switches. In this way, automatic remote sensing of both the condition of piezosensor circuits and the detection of entanglement in controlled circuits is ensured. In the presence of entanglement, the type of piezo sensor being tested is determined. The invention of the device for remote control of piezodasers, containing a switch, the first input of which is connected to a piezo sensor, and the first output is connected to the first input of the control signal forming unit, the first output of which is connected to the first input of the coincidence unit, the second input is connected to the second input of the switch and the first input of the block control, the second input of which is connected to the second output of the block forming the control signal, the third input of which is connected to the output of the generator, the input of which is connected to the control unit stroke and the second input of the coincidence unit, the output of which is connected through the serially connected differentiation unit and threshold element to the indicator input, characterized in that, in order to improve the quality of control of the piezoelectric sensors, the program block, alternator switching units, elements are introduced And, elements OR, element NOT, and the indicator input is connected to the first inputs of elements AND, the second inputs of the first group of elements AND are connected respectively to the N-outputs of the program block, and the outputs are connected Ina respectively with the N-inputs of the first element OR, the output of which is connected to the first input of the control unit and through the element is NOT connected to the second inputs of the second group of elements AND, the third inputs of which are connected 9b respectively to the third inputs of the first group of elements AND and respectively to the first outputs generator switching units, which are connected respectively to the N-inputs of the generator, the input of which is connected to the first input of the first generator switching unit, the second output of which through the first the input and the second output of the next (N-2) generator switching units are connected to the first input N of the generator switching unit, the second output of which is connected to the second indicator input, the third stroke of which is connected to the second output of the switch and the input of the program block, and N inputs the corresponding outputs of the second group of elements AND and N are connected to the inputs of the second element OR, the output of which is connected to the second inputs of the generator range switching units, the third inputs of which are connected to the second commutation input tator. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2820132, cl. G 01 V 13/00, 1979 (prototype).