SU1201531A1 - System of automatic power unit regulation - Google Patents

Abstract

SYSTEM.AUTOMATIC REGULATION OF THE POWER SUPPLY, contains sensors of external master signals, for example, network frequencies, process parameter adjusters, the outputs of which are connected through adders to relay control devices, the outputs of the latter through. the control units are connected to their actuators, and the sum of the sum of the alarms is connected via the zero-organs and OR-NOT elements to the interrupt units whose outputs are connected to the control inputs of the corresponding control units, so that By eliminating the failure of actuators to fail when the external reference signals change, it additionally contains successively installed pers for each sensor of the external reference signal (O left null organ, integrator with a second integration speed, (L is the second null-organ and the logical element SH-NOT, the output of the external master signal sensor and the integrator outputs are connected to the inputs of both additional null-organs, and the output of the logic element OR NOT is connected to the blocking inputs of all interrupt units. ate with

Description

The invention relates to a power system, in particular to the automation of power unit management. The purpose of the invention is to increase the reliability of the system by eliminating the failure of the executive mechanisms when changing external driver signals. The drawing shows the block scheme of the automatic control system of the power unit. The system contains sensors 1 external master signals, for example, network frequencies, setters 2 and 3 of technological parameters, adders 4 and 5, relay control devices 6 and 7, blocks 8 and 9 of the control actuators 10 and 11, null-bodies 12 and 13, the OR14 and 15 elements of the interrupt blocks 16 and 17, as well as additionally zero-organs 18 and 19, the integrator 30 with a constant integration rate and a logical element OR-LE 21. The system works as follows. If at a constant value of the signals coming from the sensors 1 of the external reference signals, the spread at the inputs of the relay control devices 6 and 7 exceeds the specified allowable, then at the outputs zero of the bodies 12 and 13 appear discrete signals that pass to the inputs of the logic elements WN-NOT 14 and 15. These signals are command signals for interrupt units 16 and 17. As a result of the effect of the signals, interrupt blocks 16 and 17 on the control blocks 8 and 9, the flow of command pulses from the relay control devices 6 and 7 to their actuators 10 and 11 is stopped. In the case when the magnitude of the signals coming from sensors 1 outside the driving signals changes, the presence of imbalance at the inputs of relay control devices 6 and 7, 31g which exceeds the set value, should not be inhibited during the time determined by the magnitude and rate of change of the input signal. signal. For this, the signals from sensors 1 are transmitted to the inputs of serially connected zero-body 18 and integrator 20 at a constant integration rate, forming a non-linear tracking system. The duration of the presence of an error signal at one of the outputs of the null organ 18 depends on the magnitude of the change in the sensor signals 1, as well as on the speed of this change. By choosing the integration speed, this duration can be set to deliberately exceed the lifetime at the inputs of the relay control devices 6 and 7 of the imbalance exceeding a predetermined value when the external reference signal is processed. The null organ 19 is tuned with a triggering limit exceeding the triggering | 1 of the zero-organ 18 and selected from the conditions under which the signal at its output does not appear when the magnitude of the unbalance to the input of the relay devices 6 and 7, determined by the change of the signals of the sensors 1, should not exceed the specified allowable. Thus, if the change in the reference signals exceeds the value at which the imbalance at the inputs of the relay control devices 6 and 7 can exceed the specified permissible value, a discrete signal appears at the input of the zero-body 19, which causes the output of the element SHI-HE 21 zero discrete signal, prohibiting the operation of interrupt blocks 16 and 17 for a time sufficient for existence at the inputs of the relay control devices 6 and 7 of the overrun, exceeding the specified allowable, in the case of a correct slave You regulator.

Claims (1)

SYSTEM.AUTOMATIC REGULATION OF POWER UNIT, containing sensors of external driving signals, for example, network frequencies, process parameters switches, the outputs of which are connected through adders to relay control devices, the outputs of the latter through. control units are connected to their actuators, and the outputs of the adders are connected via zero-organs and OR-HE elements to interrupt units, the outputs of which are connected to the control inputs of the corresponding control units, I distinguish them. in order to increase reliability by eliminating the failure of actuators when changing external driving signals, it additionally contains, for each sensor of the external driving signal, a first zero-organ, an integrator with a constant integration speed, a second zero-organ and an OR logic element -HE, with the sensor output of the external reference signal and the outputs of the integrator connected to the inputs of both additional null organs, and the output of the logic element OR NOT to the blocking input Am of all interrupt blocks. SU „„ 1201531>