SU738043A1 - Device for protection of power transmission line from elevated voltage - Google Patents

Description

(54) DEVICE FOR PROTECTION OF ELECTRICAL TRANSMISSION LINES AGAINST VOLTAGE

Claims (3)

I, the invention relates to electric power industry and is intended to protect against dangerous overvoltage in a network in which there are power lines connecting points with different voltage levels. The need to turn on power lines between points b 1 different voltage levels occurs in a number of cases, for example, when starting lines or when melting ice by means of counter-switching on power sources. However, the creation of circuits with the connection of power lines to different stages of nominal voltage is difficult due to the lack of full protection against long PSD voltage outputs in such a circuit. Long-lasting dangerous voltage increases need to be considered for that end of the transmission, which is connected to the lower voltage stage, which is caused by the possibility of a partial or complete shutdown: the system is powered from the lower voltage stage. Protection devices are known for detecting and eliminating hazardous overvoltages i. These devices are made with a delay or no time delay with an action on the on | 1e (shutdown) of various compensating devices or on the opening of the switches and are intended to charge and eliminate the danger of voltage increases of not more than 2-2.2 relative to the operating voltage that is determined by the permissible duration of the effect of the overvoltages on the equipment. Since on power lines connecting points with different voltage levels, in the above situations, there may be steady-state, overvoltages higher than 2.2-2.5 their elimination with the help of switching and compensating equipment is unacceptable, and The device in question cannot be used as a protective device. Devices designed to eliminate both installed and switching: overvoltage, are. devices for fast-acting mode change of compensating devices, for example, forcing control reactors 2 with subsequent start-up from the contacts of the current organ triggered by the current flow factor in the short circuit, the automation of the reactor, which takes 2-4 seconds to remove the force. The use of such devices is inefficient,. The closest to the invention to the technical essence and the achieved result is a device for reducing: neither switching overvoltages on high voltage lines, containing a spark gap connected to a chip, a transformer then. in the power line circuit, measuring organ in the power supply circuit. . . The known device is characterized by the following disadvantages: additional high-voltage, relatively expensive equipment is required. Reliability of the circuit is reduced, since a durable mode close to the metallic, three-phase short circuit is created on the substation buses, which hinders the restoration of the normal circuit-I can turn on. the source of the development of the accident in case of erroneous switching on of the supply system (from the point of lower voltage) to the three-phase short-circuit at the busbars of the substation itself. The aim of the invention is to protect equipment from long-term reductions in high-frequency yarns on lines. electrical items with the same points with high voltage levels. This goal is achieved by the fact that a device for protecting an electrical transmission line from an increase in voltage, containing a spark or a spark gap. It is connected to busbars, a transformer. A current in a circuit of a transmission line and from. The measuring unit and the power supply circuit, from the point of a lower stage, is equipped with a two-winding distinguishing body and the performer of the H1M relay, connecting the first winding of the gripping device to the current transformer-power line, and the second winding to the measuring body in the power supply circuit connection, with the closure of the selective organ through the block 7 3 4 blocking and the actuating relay is connected to the switch-off circuit unit and. blocking the automatic reclosing of the circuit breaker of the line, and the measuring unit can be executed on the current transformer in the supply connection circuit or on the voltage transformer connected to the buses. FIG. 1 shows a simplified scheme of transmission and shows two options for connecting a protective device; in fig. 2 shows a block diagram of the output circuits of the discriminating organ. The superior body in the described protection device operates on the principle of unbalancing of the ampere turns of both windings, which occurs when the spark gap or discharge is triggered due to prolonged overvoltages of large KjaaT after, partial or complete shutdown of the supply system from the lower voltage stage. The device is installed on power line 1, which connects points with different voltage levels in women 2 and 3, from the point with a lower terminal voltage on tires 3 and contains a spark (or spark gap) 4 connected to buses 3, a transformer current 5 in the line circuit, current transformer 6 in the supply element circuit (option a) or voltage transformer 7 on buses (option b), extrusion body 8 with two windings 9 and 10, from the output contact of the Second (not shown in FIG. 2) is powered through the contacts of the organ blocking D1 in case of malfunctioning of the AC voltage circuits, the block of the disconnection circuit 12, the contacts of which switch off the circuit breaker 13 and prohibit its recloser-block 14. The considered protective device operates as follows. In case of partial or regimental disconnection of the supply element from the side of women 3 with a lower voltage level as a result of voltage growth, the spark gap or spark 4 is triggered. After the discharge of the discharge, current imbalance of the amperages of both windings takes place organ (for both ways of connecting the second winding), which causes the actuation of the organ 8, the contact of which (closes the power supply circuit of relay 15). From the contacts of this relay (not shown in the drawing) a circuit of disconnecting 12 and disabling the automatic reclosing switch, 13 lines 1 is created. In this case, the arc is immediately extinguished, or it is maintained briefly by feeding from the motor load connected to the buses of this item until the accompanying current passes through zero. It doesn’t happen that after the disconnection from the point with the lower voltage level of the transmission line it goes into idle mode of one-sided switching on. At the same time, the class of switching circuit of the circuit of the power supply connection from the point with a lower voltage level must be the same as that of the linear switch. The increase in voltage due to capacitive conductivity is eliminated by devices similar to a relay device as described above. . Claims 1. A device for protection of a transmission line against overvoltage, containing a spark gap or spark gap connected to the buses, a current transformer in the power supply circuit and a measuring element in the power supply circuit, distinguishes it from in order to protect equipment from a long-term 14 14-36 high voltage multiplicity on the power lines connecting points with different voltage levels, from the lower level point it is equipped with a distinctive two windings and an executive relay connecting the first winding of the extractor to the current line transformer of the power line, and the second winding connecting to the measuring organ in the supply connection circuit, while the contract of the selective organ is connected to the disconnecting circuit and the ARC prohibition unit through the tracking unit and the executive relay line breaker. 2. Device pop 1, indicating that the measuring organ in the circuit of the power supply is complete on the current transformer. 3. The device according to claim 1, which is based on the fact that the measuring organ on the supply side is made on a voltage transformer connected to the buses. Sources of information accepted. into account in the examination 1.Berkovich M.A., Semenov V „A. Bases of automation of the energy system M. M., Energii; 1968, p. 422-423, 2. USSR author's certificate number 148840, cl. H 02 H 9/06, i960. 3. USSR author's certificate №.177510 book. H 02 H 9/06, 1964. but Fig 2