SU728131A1 - Parameter monitoring device - Google Patents

Description

The invention relates to the field of automation, namely to systems for the automatic control of complex technical objects (thermal, chemical, metallurgical, etc.) ^{5 * * * *} with branched connections between their components and can be used, for example, in atomic control systems power station- . mi to determine the block, mechanism ¹⁰ or parameter that triggered the emergency protection of the station.

Known monitoring devices in which the circuit of the controlled object is performed in the form of a mnemonic 15 scoreboard with indicator elements [1]. The root cause of the event is displayed on the mnemonic diagram of the signal. Such devices are of little use in monitoring complex, τεχΗΗγ 20 objects, since they require the participation of the operator in the analysis of the situation.

The closest technical solution to the invention is a ^z device for indicating and the first 25 reasons for a series of events [2] / containing functionally connected blocks connected in series, displays with indicator elements arranged in rows, and threshold sensors jq connected to blocks of the controlled system, and the indicator elements of each row of the panel are connected to threshold sensors, the outputs of the latter are connected to the units of the controlled system, the threshold sensors of which are connected to indicator elements, located scored in subsequent rows of the scoreboard. In addition, the device formed complex communications between blocks of the controlled system. The root cause of the malfunction is determined by the signal of the indicator element of the board in a row with a large number.

However, the existing device for determining the root cause of a malfunction is unreasonably difficult even with a small number of monitored units. With a significant increase in their connection between the components of the device elements become even more complex. The number of indicator elements, the weight and dimensions of the device are proportionally increasing, and its reliability is decreasing. The complexity of the device causes difficulties in the perception of the information presented. Due to the fact that between the blocks of the controlled system there is a possible effect = - 728131, a malfunction of one of the blocks leads to deviation of the output parameters of not only this block, but also a number of other blocks beyond the tolerances. At the same time, indicator elements connected to the outputs of these blocks through threshold sensors record the malfunctioning state of these blocks as well. Thus, one can imagine the case when all indicator elements give out signals, which causes significant inconvenience for the operator, especially in an emergency.

The disadvantages of the known device should also include some uncertainty in identifying the root cause of the malfunction if there is a scoreboard in the row, by which it is determined. There is a faulty unit, two or more signals of indicator elements, as a result of which each of the faults is considered as the root cause.

The aim of the invention is to improve the accuracy of the device.

For this, a device for controlling parameters containing an indicator connected to the output of the control unit with an input connected to a reset unit, an address setting unit, a key and parameter sensors, a pulse generator, a prohibition element, a memory unit, and a switch, the first input of which is connected to the output of the address setting unit, the second input - to the output of the key, the remaining inputs - to the outputs of the parameter sensors, and the output - to the input of the memory unit, while the output of the memory unit is connected to the first input of the inhibit element, sec second input of which is connected to the output switch, the third input - with the output of the pulse generator, and an output - to a second input of the control unit and the input unit za-. Denmark address. '. .

The drawing shows a structural block diagram of the proposed device.

The device contains a pulse generator 1, a prohibition element 2, an address setting unit 3, a control unit 4, a reset unit 5, an indicator 6, a switch 7, a key 8, sensors 9 parameters, a memory unit 10.

The device operates as follows.

When applying with the key 8 an enable signal to the input of the gate element 2 and the gate input of the switch • 7 generated by the generator 1. pulses are fed to the inputs of block 3 and control unit 4. The pulse count of the generator 1 is carried out to a number determined by the number of controlled parameters, after which 'If there is no information about the failures, the reset unit 5 sets the control unit to its original state, and the entire counting cycle is repeated again. At the same time, the unit 3 for setting the address by supplying a coded signal to the address input of the switch 7 performs g “polling” of the sensors 9 parameters for the occurrence of events. In the absence of the latter, the logical information at the output of the switch does not interfere with the pulse counting, of generator 1, indicated by the indicator * ^υ indicator 6. In the event of failures, the first changes the logical information at the output of one of the sensors 9, which is then connected to the source of the failure, which then causes a number of other failures, and when it is called, at the output of switch 7. A memory block 10 (for example, a trigger) is triggered to prevent the loss of incoming information, the '20 inhibit element 2 blocks the passage of the pulses of the generator 1 to loci control unit 4 and the address assignment, pulse counting is stopped and the LED displays pervoprichi25 ^H Y failures (e.g., .in a number, which first cause code). The number of sensors 9 corresponds to the number of monitored events and can be any. The frequency of the pulses of the generator 1 is chosen such that the cycle (period) of the “polling” of the sensors 9 is less than the time of arrival of the next failure caused by the first.

This device compares favorably with the prototype, as it has a simpler structure, is convenient for the perception of information, is easily implemented on microcircuits, and in this design has particularly small dimensions, weight, high reliability and low cost.

Claims (2)

1. Author's certificate of the USSR No. 462178, cl. G 06 F 3/14, 1975. 2. USSR author's certificate №496559, cl. G 06 H 3/14, 1972 (prototype).