SU807306A1 - Device for diagnosis of objects - Google Patents

Description

one

The invention relates to computing and can be used in diagnosing the object of automatic and automated control systems at the stages of their design and operation.

A device containing a reference model of the object being diagnosed, a master oscillator, a switch, a bitwise comparison unit, a counter, a control unit and a set1 unit and initial sequences whose output through the switch is connected to the input of the reference object model is known, the meter input is connected to the model output, and the output, to the input of the indication block, the input of the master oscillator is connected to the output of the control unit l.

The device allows finding indicators of the state of an object and its performance at a certain discrete point in time.

The drawback of the device is the great laboriousness in constructing subsets of possible malfunctions, based on the topology of the objects being diagnosed, as well as the possibility of modeling the processes of change.

states of objects at future times.

The closest in technical essence to the present invention is a device comprising a conversion unit, a switch, scale building factors and rates of change of parameters, a computing unit and control units,

0 registration and display. The outputs of the conversion unit through the switch are connected to the inputs of the blocks for specifying the scaling factors, the rates of change of the parsheters whose outputs are connected to the computing unit, the recording and display units. The device makes it possible to predict changes in the state of technical objects according to pre-established mathematical models and specified programs 2.

However, the compilation of mathematical Codes is associated with the display of logical and functional relationships between objects. It is especially difficult to imitate functional inter-element communications. For complex technical objects, they are not completely reproducible in mathematical models.

The drawback of the device is the low reliability of the diagnostic results due to methodological errors resulting from the compilation of mathematical models of complex objects, as well as due to the impossibility of fully taking into account random factors and specific features of exploitation of the objects being studied in specified hard programs.

The purpose of the invention is to increase the reliability of the diagnostic results.

The goal is achieved by the fact that a device containing an object model, a serially connected unit for setting initial values of parameters, a first decoder, a memory unit, a switchboard and a serially connected comparators unit, a computing unit and a display unit, further comprises a serially connected velocity setting unit, a relay time, a generator of gating pulses and a second decoder and a unit of integrators connected in series, the second input of which is connected to the first output of the generator with gating pulses, and the output to the second input of the switch connected by the output through the object model to the input of the comparators block, and the third input to the second output of the gating generator, the second input of which is connected to the second output of the comparators block, and the input of the second decoder to the second output block set speed.

The drawing shows a block diagram of a device for diagnosing objects.

The device contains a block 1 setting the initial values of parameters, decoders 2 and 3, block 4 of memory, switch 5, block 6 of integrators, block 7 of setting speed, time relay 8, generator 9 of strobe pulses, object model 10, block 11 of comparators, computing unit 12 and the display unit 13.

Unit 1 of setting the initial values of the parameters consists of relay arrays and semiconductor signal conditioners. The output of block 1 is connected to the input of the Topia 2 matrix decoder, which serves to convert the code information about the values of the elements of the diagnosed objects into the control signals of the layout 1 "and elements in model 10. The output of the decoder 2 is connected to the memory block 4, which can be executed on typical elements, for example, on ferrite cores with BCP, on operational amplifiers, on TIR transistors, etc.

The output of memory block 4 is connected to the first input of switch 5, consisting of transistor or optoelectronic switching circuits. A decoder 3 is connected to the second input of the switch, which serves to convert the rate of change of the object parameters recorded in Block 7 into control signals of the object model 10 changes over time.

Relay 8 is designed to set a time program for modeling the processes of changing state of an object. With it, the required time points are preliminarily set at which the states of the object need to be fixed.

The gating pulse generator 9 serves to control the integration processes in block 6 and switchings in switch 5, to the inputs of which its first and second outputs are connected.

Model 10 consists of mock-ups of elements connected according to the principal or functional diagrams of the object being diagnosed. As functional elements, electronic functional units are used with variable in time or space and controlled by defining parameters. Layouts serve to simulate the process of changing properties and states of an object. For each specific object being diagnosed, the mockups of the elements are constructed from typical functional digital or digital-amplifying nodes. .

The comparator unit 11 consists of amplitude, phase, frequency selection circuits and pulse shapers designed to set the time points for the output of the determining parameters of the object model beyond the specified tolerances and constraints.

The outputs of the block 11 is connected to the input of the computing unit 12 and the second input of the generator 9.

In computing unit 12, the numerical values of an object's working capacity for each of the parameters, the time variations of which are simulated, are determined using serial arithmetic devices.

The display unit 13 contains typical devices for displaying information from a computer including, for example, alphanumeric punching and printing machines, visual indicators and audible alarms, etc.

A device for diagnosing objects operates as follows. The initial values of the parameters of the elements of the object are specified as code information in block 1. The pulses fed to the input of the matrix decoder 2 are converted into control signals, which are stored 65 in memory block 4.

Claims (1)

Claim A device for diagnosing objects containing an object model, a series-connected unit for setting initial values for the parameter · ⁰ , a first decoder, a memory block, a switch and a series-connected comparator block, a computing unit and an indication unit, characterized in that, in order to increase the reliability of the diagnostic results, the device comprises serially connected speed setting unit, time relay, strobe pulse generator and serially connected second decoder and integrato a ditch, the second input of which is connected to the first output of the strobe pulse generator, and the output - to the second input of the switch, connected by the output through the object model to the input of the comparator unit, and the third input - with the second output of the strobe generator, the second input of which is connected to the second output of the block comparators, and the input of the second decoder is connected to the second output of the speed setting unit.