SU664082A1 - Machine diagnosis device - Google Patents

Description

The invention relates to mechanical engineering, in particular to test devices, and can be applied, for example, to diagnose internal combustion engines. Devices for machine diagnostics are known, comprising a measuring sensor connected via an amplifier to a phase selector input, the signal output of which is connected to the input. the recorder and the speed sensor connected via the camera with the comparator's input, the outputs of which are connected to the inputs of the signaling unit l However, this device does not control the speed mode of the machine in the measurement time interval, as a result of which the recorder can record the measurement results even when the speed mode deviates from the specified in the measurement interval. This leads to a low accuracy of diagnosis. The purpose of the invention is to improve the accuracy of diagnosis by controlling the speed of the test machine at a measurement time interval. For this purpose, a synchronization block was additionally inserted into the device, one output of which is connected to the phase output of the phase selector, the other with the output of the driver, the third with the first output of the comparator, and one of the outputs of the synchronization unit is connected to the control input of the alarm unit and two others the outputs are connected to the inputs of the installation and the inclusion of a registrar equipped with a memory element. At the same time, the synchronization unit contains a tracking interval shaper, a circuit for fixing the deviation of the speed limit E of the machine and the shaper of the synchronization signals, one of the inputs of the tracking interval shaper connected to the input of the synchronization block, connected to the phase selector phase output, and the output connected to one of the latching circuit inputs , other inputs of the tracking interval mapper and the latching circuit are connected to the input of the synchronization unit connected to the VYHLODOM of the lander, the third input of the junction latching circuit It is connected to the input of the synchronization unit connected to another output of the comparator, and the output of the latching circuit and the output of the tracking interval maker are connected to the synchronization signal generator of the synchronization unit, the outputs of which are connected to the sync unit outputs.

The drawing shows a block diagram of the proposed device.

The device contains a measuring sensor 1 connected through an amplifier 2 to an input 3 of the phase and electronic 4, a signal output 5 of which is connected to the input of the recorder 7, and a speed sensor; 8: connected through the driver 9 to the comparator input 11, outputs 12 and 13 They are connected to the inputs 14 and 15 of the signaling unit 16. The input 17 of the synchronization unit 18 is connected to the phase output 19 of the phase selector 4, the input 20 is connected to the output 21 of the driver 9, the input 22 to the output 23 of the comparator 11. The output 24 of the synchronization unit 18 is connected to control input 25 of the signal block. and 1 b. The outputs 26 and 27 of the synchronization unit 18 are connected to the inputs 28 and 29 of the installation and the activation of the recorder 7, which is equipped with a memory element (not shown). The synchronization unit 18 comprises a tracking interval imaging unit 30, a locking circuit 31 for the speeding operation of the ma: bus (not shown), and the .32 synchronization signal generator. The input 33 of the imaging unit 30 of the tracking interval is connected to the input 17 of the synchronization unit 18, as indicated by the phase output 19 of the phase selector 4. The output 34 of the imaging unit 30 is connected to the input 35 of the fixing circuit 31. The input 36 of the formers of the tracking interval 30 and the input 37 of the fixing circuit 31 are connected to the entrance of the 20 block. synchronization 18 connected to the output 21 of the imaging unit 9. The input 38 of the latching circuit 31 is connected to the input 22 of the synchronization unit 18 connected to the output 23 of the comparare 11, the output 39 of the fixation pattern 31 and the input 34 {of the tracking interval forming 30 30 and

41 formers 32 synchronization signals, outputs 42, THF and ft which are connected to the 24, 26 and 27 synchronization unit 18. ..

When diagnosing a machine, for example, an internal combustion engine, phase phaser4 generates an interval of measured values, for which the signal from sensor 1, amplified by force 2, passes through phase selector 4 to its alarm code 5,

Phase output 19 receives a pulse, measuring the measurement interval. At the time of the appearance of a pulse :, defining the measurement interval, the synchronization block .18 generates a signal, a signal, to the input 28 of the recorder 7 and resets it, the memory elements to their original state. Simultaneously, the signal from the phase output 19 of the phase selector 4 unit 18 forms; tracking interval, for short-term re--.

A press, the limits of which are formed by a pulse, enters the block 18 from the output 21 of the former 9. From the signal output 5 of the phase selector 4, the measured signal arrives directly at the input 6 of the recorder 7, where it is measured and stored. The measurement result is recorded in the event that the input of the enabler 29 of the recorder 7 at the end of the tracking interval a receives the signal from the 27th input of the block 18. This signal occurs when there is a signal at the output23 of the comparator 11 during the entire tracking interval. The signal at the output 23 of the comparator 11 occurs if the rotation frequency detected by sensor B does not exceed the limits specified by the test conditions and entered into the comparator 11 before the test begins. The output signal 23: will be (absent if the frequency rotation on the interval of the next. Or, Deviate from the set at least once. In this case, block 18 will not generate a signal to turn on the recorder 7 and the measurement result will not be fixed on the recorder 7. At these times, the outputs appear on the outputs 12 or 13 of the comparator 11 feeling out in moves 14 or 15 of the signaling unit 16, to the control input 25 of which signals 24 are output from the output 24 of the block 18; a predetermined tracking interval As a result, the alarm unit 16 informs about the deviation of the nbgs5 mode speed during the tracking interval. The comparator 11, which appears behind the limits of the tracking interval, is not fixed by block 16. This thus ensures that the tracking interval can also be maintained at a predetermined rotational speed.

Claims (2)

According to the signal that sets the measurement interval and arrives at the tracking interval imaging unit 30, the latter triggers and generates a potential signal at its output 34. The input 36 of the imaging unit 30, to which the rotational frequency signals are received, is blocked. On the leading edge of the signal from the output 34 of the imaging unit 30, the imaging unit 32 signals. (Synchronization generates a short pulse arriving at the output 26 of block 18. In addition, the signal from the output 34 of the imaging unit 30 unlocks the speed deviation circuit 31, which inputs 37 and 38 respectively rotational and comparing signals. In the presence of a comparing signal, the rotational frequency signals do not change the state of circuit 31. In the event that the comparing signal is absent, and this is a consequence of the deviation of the set speed, the first rotational frequency signal input to input 37 triggers the circuit 31, FO 4Isrc, at its output 39, a potential signal input to input 40 of the imaging unit 32. At the end of the measurement interval, input 36 of the imaging instrument 30, on which speed signals are received, unlocked, and the shaper 30 returns to its original state. If the signal at output 39 of circuit 31 is absent, then at a predetermined signal of Shaper 30, shaper 32 produces a short pulse arriving at Exit 27 of unit 18. When a signal is present at the output 39 of circuit 31, a signal shaper 32, arriving at the output of block 27, 18 is blocked. Circuit 31 sets the initial state on a predetermined front of the signal of the imaging device 30. At the output 24 of the unit 18, the signals of the integer tracking are received. Claim 1. Device for diagnosing machines, for example, an internal combustion engine, comprising a measuring sensor connected through an amplifier to a phase selector input, a signal output of which is connected to the recorder's input, and a speed sensor connected via a driver to the input of a comparator whose outputs are connected to the inputs of the alarm unit of the T L and h a n e with. That, in order to improve the accuracy of diagnostics by controlling the speed limit of the test day -. | gatel in the time interval and measurement, the synchronization block is additionally entered into the device, one output of which is connected to the phase output of the phase selector, the other - with the output of the driver, the third - with the first output of the comparator, and one of the outputs of the synchronization block. - and the other two outputs are connected to the inputs of the installation and activation of a recorder equipped with a memory element. 2. The device according to claim 1, wherein the synchronization unit comprises a tracking interval generator, a motor speed deviation detection circuit and a synchronization signal generator, one of the inputs of the tracking interval generator connected to the synchronization unit input connected to the phase the output of the phase selector, and the output is connected to one of the inputs, the latching circuit, the other inputs of the tracking interval imaging unit and the latching circuit are connected to the input of the synchronization unit connected to the output of the imaging unit , The third input of the latching circuit is connected to the input of the synchronization unit connected to another output of the comparator, and the Velokhod latching circuit and the output of the tracking interval generator are connected to the input of the synchronization signal generator, the outputs of which are connected to the outputs of the synchronization unit. Sources of information taken into account during the examination 1. USSR author's certificate № 427263, cl. G-01M 15/00, 1973 ..