SU1129682A1 - Method of automatic control of process for melting glazed frost on lines with two-way power supply - Google Patents

Description

The invention relates to electrical engineering and is intended to automatically control the process of melting ice on lines with two-way power. On such a few, it is most expedient to use the method of wind-start sources (FI), whose voltages are phase-shifted relative to each other. There is a known method of remote control by removing the operating voltage from the power line by disconnecting its head switch for a given fixed time, and the current-free duration The pauses are captured and decoded by the device installed at the shorting point of the LI. The main disadvantage of this method is the impossibility of its use in ice-shedding of the method of counter-switching on sources on lines with two-sided feed. The closest to the invention is a method of automatic control of the process of smelting on lines with two-sided power with points having devices relay protection in the melting circuit, shutting down that form the time interval of the pause voltage, switch the switch ie the beginning of the line, compare the duration of the time interval with a given it Achen paragraph counter incorporation istozdshkov supply 2. The main disadvantages of this method are low reliability, since there are cases nepravilnoyU ustroyst relaying work bench or at failure of short-circuit at x, and the complexity of use protection devices desensitization. When the configuration of the higher voltage network is changed, the magnitude of the melting current changes, which increases the required protection for the coarsening of the device with the maximum and minimum current levels. As a result, the probability of coincidence of short-circuit currents on high voltages with melting currents increases, as a result of which during short circuits on the protection branches it does not increase, but its deception occurs. Short circuits are not disabled. With a narrow range of settings of reactive current organs, the probability of melting current and the number of failures of the protection coarseness circuits increase. The aim of the invention is to increase the reliability and eliminate the malfunction of the relay protection devices during the smelting process. This goal is achieved by the fact that according to the method of automatic control of the ice melting process on lines with two-sided power supply with points having relay protection devices in the melting circuit, consisting in forming the time interval of the voltage pause, switching the switch at the beginning of the line compares the duration time interval with a given value at the point of on-switching power supply, the switch at the point of on-switching power supply sources is turned on for a time not exceeding the time activating the relay devices in the melting circuit, disconnecting and switching on again at a specified time interval, thereby creating current surges in the melting circuit in each of the points with the existing protection devices in the melting circuit, comparing the duration of the time between current surges with its predetermined values and the comparison results are used either for deeper or for restoring relay protection settings. In the drawing, a typical power line scheme with two-sided power is presented, on which the ice is melted by the method of counter-switching of the pitash sources. As sources of smelting, podstach 1 and 2 are received. The line connecting substations 1 and 2 is usually interrupted by switch 3 equipped with an automatic reserve transfer device and can be closed by it. Sections of line 1-3 and 2-3 can be partitioned by switches 4 and 5. Under normal network conditions, switches 6, 4, 5 and 7 are closed and switch 3 is open. To commission melting, it is necessary to turn on switch 3 with the rest of the switches turned on and, in addition, deaden the protections sensitive to the melting current acting on the switches 6, 4, 3, 5, 7, as well as installed in the power transformers of substations 1 and 2. For switching on the ice melting, they are switched off for a fixed time | (switch 6. At the same time, the voltage from the source 1 to the point of oncoming switching-on disappears for time ii. The time t is chosen based on the condition that the electrical consumers do not disrupt It should not exceed the pause of double automatic reclosing. At the point of on-switching, the duration of the pause time interval is compared with its predetermined value i If they coincide, they switch through the switching of the control circuit by the switch of the counter-on switch: they turn on for time i no longer than the response time of the f4ieih OH devices are protected by the melt circuit, turn it off at i and turn it on again. In this case, current inrings occur in the melting circuit with a predetermined 1m interval between them each of the points where the relay devices are wired in the melting circuit, compare the length of time between inrush currents with the given one. value i. When they are (the confluence is made, the relay protection settings are set. When disconnecting the heat and restoring the normal operation of the electrical network, turn off the switch 6 at the beginning of the line for a time t. Different from and C, then turn it on again. In this case: with the interval between them equal to φ. In the points where the settings of the relay protection devices were blunted, the time duration between the current surges is compared with the given one and if they coincide, the relay protection settings are restored. On the contrary on-off switch, the on-off switch is disconnected, thereby opening the ice melting circuit. This ensures proper operation of the system that implements the proposed method, when changing the configuration of the supply network and, therefore, change the values of short-circuit currents and melting currents. And (10) The proposed method greatly simplifies the hardware implementation, commissioning and operation of the device. The proposed method is implemented using industrial relays, as well as two specially designed Spocks; a pause fixing unit in the current, which fixes the pause duration, respectively current or voltage, and if they coincide with the set points, they output a certain signal at the output.

Claims (1)

METHOD FOR AUTOMATIC CONTROL OF THE ICE FUSION PROCESS ON THE LINES WITH BILATERAL POWER SUPPLIES with points having relay protection devices in the melting circuit, consisting in the fact that they form the time interval for the voltage pause by switching the switch at the beginning of the line, compare the duration of the time interval in the meeting point with the set switching on the power sources, about t at the point where the power supplies are turned on again, they turn on for a time not exceeding the response time of the relay protection devices in the melting circuit, turn them off and on again after a predetermined time interval, thereby creating inrush currents in the melting circuit at each point with existing relay protection devices in the circuit swimming trunks, compare the length of time between the inrush current with its specified values and the results of the comparison are used either for roughening. or to restore relay protection settings. 1 1129682 2