SU809211A1 - Device for engineering equipment diagnostics - Google Patents

Description

The invention relates to instrumentation engineering and can be used to diagnose faults in engineering equipment in the housing sector. A device for diagnosing faults of technical objects is known, which contains a switching field, the input buses of which are connected via corresponding drivers with fault symptom sensors and a matrix distributor, and the input buses - with the first inputs of key elements, the second inputs of which are connected to a different matrix distributor, and the control unit connected to the control inputs of the matrix distributors threshold element, AND diagrams, storage device and matrix distributor, first the control input of which is connected to the combined outputs of the key elements, the second one with the control unit, and the outputs through the corresponding I circuits to the signal inputs of the storage device, the control input of which is connected to the control unit, the second inputs of the circuit And through the threshold element are connected to the combined key output l. The disadvantages of this device are as follows. The recognition operation is performed by searching for the necessary data in the array, which makes it necessary to use external storage media and devices, and this ultimately complicates the device. And the output information is presented in a form that requires additional processing by a specialist. The closest technical solution to the present invention is a device for automatic diagnostics of technical objects, comprising fault symptom sensors connected to the inputs of the code switch, an identification unit whose outputs are connected to the first input of the memory unit, the inputs of the Junction unit and the adaptation unit, the first output of which connected to the first input of the identification unit, as well as the comparison unit, the fault counter and the information input unit, the output of which is connected to the VTO1NMM input. memory, and the input to the second output of the adaptation unit, the input of the fault counter is connected to the third output of the adaptation unit, and the output to the third output of the memory unit, the output of the comparison unit is connected to the second input of the identification unit, one of the inputs to the output of the code switch, and the other with the corresponding output of the memory block, the other output of which is connected to the third input of the identification block 2.

The disadvantage of this device is its complexity and low speed.

The purpose of the invention is to simplify the device and increase its speed.

The goal is achieved by the fact that a device for diagnostics of engineering equipment, comprising a time signal sensor, serially connected constant-task setting unit and first encoder and serially-connected blocks, fault indication sensors, mutational clock, operational memory unit, and clock generator, the output of which is connected to the second input of the switching unit connected by the second output with the first input of the control unit, the second input of which is connected to the output of the control panel .ni, and the first input - to the second input of the RAM block, contains the OR element and the serially connected decoder, fault conditioner, second encoder and output switch, the second input of which is connected to the output of the first encoder, the third input - to the output of the time signal sensor and the fourth input to the second output of the control unit, the third output of which is connected to the second input of the fault conditioner, and the third input through the OR element to the decoder outputs that are connected to the output do block RAM.

The drawing shows the functional diagram of the device.

The device contains a block of 1 sensors for indications of malfunctions, a switching block 2, a clock generator 3, a block 4 of operational memory, a decoder 5, a block b of control, a driver 7 of signs of malfunction. In particular, the unit 8 sets the permanent features, the sensor 9 of the time signals, the console 10 controls 4 the second 11 and the first 12 decoders, the output switch 13 and the element 14 OR.

The principle of action of the device consists in continuous sequential polling of all groups of sensors in order to obtain information on the state of the monitored parameters, to record this information, to compare

it is located in the decoder and sequential output to the means of registration.

The device works as follows.

Unit 2 connects groups of sensors of unit 1 alternately to unit 4, as a result of which, during one survey cycle of the sensors of unit 1, in unit 4 there is information about the state of all monitored parameters of one object.

The decoder 5 records signs of faults in the monitored object. The set of these signs serves as the address at which the fault characteristic is located. The work of this decoder can be represented as a matrix superimposed on the field of symptoms of faults. The coincidence of all signs for certain types of faults leads to the operation of the device. Incomplete set of attributes or a set of signs, not provided for in the fault matrix, does not trigger the device.

If the set of received features corresponds to one or several faults introduced to the decoder 5, then the element 14 STI generates a signal by which the block b using shaper 7 begins polling all the output buses of the decoder 5, and when the fault signal is detected by the block b, the stop signals are generated shaper 7 and start KOMNQTaTopa 13, which sequentially polls the sensor 9, the encoder 11 and the encoder 12, ensuring the formation of the output data array that can be transferred. : on the means of registration.

At the end of the registration cycle by block b, further operation of generator 7 is allowed until the next fault signal is detected. If, when polling the next group of sensors of block 1, the fault signal by element 14 OR is not formed, then block 2 connects the next group of sensors of block 1.

For further work, the device makes a connection and, polling the next group of sensors, after which the entire operation cycle of the device is repeated.

The economic effect from the implementation of the invention is to reduce labor costs in the operation of central heating stations, elevator facilities and other engineering equipment.

Claims (2)

1. Authors certificate of the USSR 330456, cl. G About F 15/46, 1971. 2. Authors certificate of the USSR 546893, cl. G 06 F 15/46, 1974,