SU742955A1 - Centralized monitoring device - Google Patents

Description

The invention relates to measuring information systems and can be used in machines of centralized control and regulation.

A measurement information system with data compression is known, which contains sensors whose outputs are connected through the conversion blocks to the inputs of the first switch, the output of which is connected to the input of the display unit through a series-connected digital converter and processing unit, the second switch, a compression block, the inputs of which are connected to the outputs by the converter unit, and the outputs through the second switch to the input of the digital converter, decoder, trigger, clock generator, installation unit, two 20 circuits matches and two counters P].

A disadvantage of the known device is the impossibility of servicing the worst (most active) para-25? IeTpa in the first place, which does not allow ensuring sufficient monitoring efficiency.

Closest to the proposed device is a centralized control and regulation of technological processes, containing in each channel sequentially connected sensors, unification units and subtracting units, as well as measuring keys connected to the outputs of the unification units, connected by the outputs to the detection and registration unit for deviations, and a task unit, setting the nominal values of the parameters, the outputs of which are connected to the subtracting units [2].

A disadvantage of the known device is a rigid (sequential) channel polling program, which leads to insufficient monitoring efficiency. This is because the choice, the frequency of control operations and, ultimately, the polling frequency of the channels by the switch in order to ensure a given reliability of control is carried out taking into account the extreme dynamic properties of the active parameter itself, which leads to an excessive number of control operations, the need to use high-speed switches and the possibility of a significant excess of a couple of 3 meters of an acceptable value while waiting for its service queue.

The purpose of the invention is to increase the efficiency of control by reducing the number of control operations, providing the possibility of using less high-speed switches as compared to sequential polling, and providing control operations for the most active parameters in the first place.

This goal is achieved by the fact that in each channel between the subtracting blocks and measuring keys, series-connected comparison blocks and coincidence elements ^ are included and a channel selection block is introduced, the inputs of which are connected to the outputs of the subtracting blocks, and the outputs are connected to the coincidence elements, and the unit for setting the permissible error and priority, the outputs of which are connected to the inputs of the comparison units.

The drawing shows a functional block diagram of a centralized control device.

The centralized control device contains series-connected sensors 1, designed to convert the process parameter into an electrical signal, unification units 2, designed to normalize the output signals of the sensors, subtracting units 3, designed to obtain the deviation of the current parameter value from the nominal value, comparison units 4, intended for comparison deviations of the current value of the parameters from the nominal with an acceptable value, coincidence elements 5 and measuring keys 6, with unified with the unit 7 for detecting and recording deviations, as well as the unit 8 for setting the permissible error and priority, designed to set the minimum permissible deviation of the parameter from the nominal value and introduce a specific priority, the outputs being connected to the second inputs of the comparison units 4. The device also contains a channel selection unit 9, designed to find the channel with the greatest deviation of the current parameter value from the nominal one, the inputs of block 9 being connected to the outputs of the subtracting blocks 4, and the outputs to the second inputs of coincidence elements 5, as well as a block 10 for setting nominal parameters the outputs of which are connected to the inputs of the subtracting blocks 3.

The device operates as follows.

The voltage from the output of the sensor 1 is supplied to the input of the unification unit 2 From the output of the unification unit 2, the unified signal is fed to the input of the subtracting unit 3, where the voltage difference from the unification unit 2 and the unit 10 of the nominal value setting is calculated. The differential signal from the output of the subtracting unit 3 is fed to the input of the channel selection unit 9, where the parameter is determined with the greatest deviation of the current value from the nominal at this stage and the signal ¹ '1''is output to the inputs of the coincidence elements 5. The difference signal from the output of the subtracting unit 3 is also fed to the input of the comparison unit 4. To the second input of the comparison unit 4, a permissible deviation value of the current value of the o-nominal parameter is supplied. If the voltage at the output of the subtracting unit 3 exceeds the permissible value, then at the output of the comparison unit 4, a signal '' 1 '' appears, which is fed to the second input of the corresponding coincidence element 5. In the case of a signal * * 1 '· arriving at both inputs of coincidence element 5, which corresponds to a channel with a maximum deviation of the current signal value from the nominal value and the value of this deviation exceeding the permissible value, an enable signal is input from the output of coincidence element 5 to the input of the corresponding key 6, which carries out the connection of the output signal of the unification unit 2 to the deviation detection and registration unit 7, where the control results are registered and processed. Thus, only those parameters that exceed the permissible value are subjected to control operations and the subsequent processing of control results, and, first of all, those that have the greatest deviation of the current parameter value from the nominal value, which significantly reduces the number of control operations.

Claims (2)

1. Author's certificate of the USSR 450955, cl. G 01 D 5/00, 1973. 2. Tsapenko M.P. Measuring information systems. M., Energie, 1974, p. 248. AND