SU847433A1 - Device for registering periodic fluctuations of electric parameters - Google Patents

Description

one

The invention relates to electrical engineering and can be used to detect unstable conditions in the electrical network, as well as to monitor the health of protection and automation devices, in particular, the automatic control system.

Increasing requirements for reliability and uninterrupted power supply leads to an increase in the level of automation of process control, equipping power facilities with additional automatic devices that continuously monitor the operating parameters and directly affect the mode, circuit, and processes of power facilities.

The launch of a number of these devices is carried out with the help of special sensors detecting unstable modes — synchronous, asynchronous oscillations, etc.

The expansion of the scope of automation also makes urgent the task of monitoring the health of the automatic devices themselves, for which one of the symptoms of a malfunction can be the occurrence of periodic oscillations in individual device nodes. The creation of a universal device that detects a complex of these oscillations will increase the reliability of the operation of objective automatics and, in a number of cases, will simplify the schemes of automatic devices by eliminating special control nodes and switching to centralized control.

Devices are known that solve the problem of detecting oscillations of electrical parameters, for example, a device for detecting an asynchronous run in the power system 1.

Claims (2)

However, such a device solves the particular problem of detecting asynchronous current oscillations or voltages in the power system and is not intended to detect other types of oscillations or oscillations of other parameters. The closest in technical essence to the present invention is a device for fixing periodically oscillations of an electrical parameter, revealing a non-synchronic mode in the power system, containing a transreactor, the input of which is intended to be included in the secondary winding of a current transformer, which is the sensor of the monitored parameter, and the output through rectifier A driver and a frequency filter are connected to the output relay G2. However, this ycTpopicTBo has only a lower limit of operation, producing a signal, then when the oscillation frequency of the monitored current exceeds a predetermined oscillation frequency and cannot be used in cases where the signal must be provided in a given frequency range. In addition, this device is designed to control of one-parameter oscillation - alternating current - and cannot be used to control other parameters. The purpose of the invention is to fix vibrations in a given frequency range and expand the scope. This goal is achieved in that a device containing a sensor of a monitored parameter, the output of which is connected to the frequency filter input}, contains deadband setting elements, a three-position null organ, a time delay element and an output relay with a time delay for return, and the input of the zone setting element insensitive to ti is connected to the output of the frequency filter, and its output is connected to the input of a three-position zero-organ whose two outputs are connected via a time delay element to the output relay with you erzhkoy refund. The drawing shows a block diagram of the proposed device. The circuit contains the sensor 1 of the monitored parameter, the frequency filter 2, the element 3 for setting the dead zone, the three-position nu-organ 4, the element 5 of the time delay, the output relay 6 with the time delay for return. The device works as follows. 34 When a monitored parameter at the output of sensor I detects periodic oscillations whose frequency is in the working frequency range defined by the device settings, the output of filter 2 is a voltage signal whose frequency is equal to the oscillation frequency of the monitored parameter and its amplitude is recorded with the output signal of the sensor being monitored, the parameter depends on where K is the proportionality coefficient determined by the parameters of filter 2. If the amplitude U0 exceeds the setting of the setting element 3 deadband, nullorgan 4 is triggered, and at its output one or the other, depending on the polarity of the input signal deviations, pulse signals appear, the duration of which depends on the oscillation frequency of the monitored parameter. These signals are fed to the inputs of the element 5 time delay. If the duration of the output signal of the block 5 exceeds the time delay of the element 5, the latter modifies and closes the winding circuit of the output relay 6, which gives to the external circuit a signal about the presence of oscillations of the monitored parameter. Otherwise, the signal to the external circuit is not received. The time delay for the return tgg of the output relay is adjusted according to the condition t gg 2Tdd, where the maximum possible period of controlled oscillations is maximum. With this setting, the output relay 6 does not have time to disappear even if a pulse is accidentally passed, thereby ensuring reliable conversion of the intermittent signal into a continuous one. By setting the setting of the time delay element 5, the upper limit of the frequency range of the oscillations fixed by this device is controlled, and by changing the setting of the dead zone setting element 3, its lower limit. Thus, the goal is achieved. fixing oscillations in a given frequency range, as well as expanding the field of application, since the device can be used to control vibrations of various electrical parameters in various fields of technology. With a large input resistance of the null organ, the device could be connected to the intermediate nodes of different ycipoftcTB without breaking the circuits and without affecting the operation of the monitored device. This further expands the field of application of the device, allowing it to be used, for example, to monitor the health of systems made on analogous equipment. In this case, the device can be used for centralized control with automatic connection to controlled objects on command using the appropriate switch. The technical advantage of the proposed device in comparison with the known ones is its versatility, flexibility of setting, the possibility of using for controlling oscillations of different frequencies and different parameters, the possibility of direct coupling with almost any objects of control. The economic effect of the application of the invention is obtained by expanding the scope devices for fixing oscillations of various electrical parameters, in particular, by detecting regime anomalies, as well as faults machi iCal devices appearing in about occurrence of periodic fluctuations in their separate nodes. This allows you to receive a signal about anomalies in a timely manner and during time to normalize the mode, repair the fault, or turn off the damaged device. The ability to control the oscillations of any parameters also makes it possible to cover a wider range of regime anomalies. The invention makes it possible to reduce the likelihood of an accident or violation of a power facility mode, which also results in an economic effect. Apparatus of the Invention A device for fixing periodic electric parameters, containing a sensor of a monitored parameter, the input of which is intended to be connected to the object of measurement, and the output connected to the input of a frequency filter, which differs from: in order to record oscillations in a given range frequency and field of application, a deadband setting element, a three-position null organ, a time delay element, and an output relay with a time delay for return, and an input the dead zone setting element is connected to the output of the frequency filter, and the output is connected to the input of a three-position null organ, two outputs of which are connected via an element you- time holders with output relays with time delay for return. Sources of information taken into account in the examination 1. USSR author's certificate No. 550720, cl. H 02 G 3/24, 1974. 2. Works VNIIE vol. XY, SEI, M., 1963. P.2G.