RU2170485C1 - Distribution system for sectionalizing power transmission line - Google Patents

Abstract

FIELD: overhead power transmission lines. SUBSTANCE: system is made in the form of two platform mounted compartments in single box module, one being control compartment and other, high-voltage one accommodating vacuum circuit breaker and current transformers inserted in two phases A and C. Two three-phase potential transformers are mounted on either side of vacuum circuit breaker of power transmission line feeder; these transformers are provided with additional open-circuit zero-sequence voltage winding on low-voltage side. High-voltage compartment also accommodates additional zero-sequence current transformer with internal-setting disconnecting switches mounted on different sides of vacuum circuit breaker. Internal-setting disconnecting switches are provided with mechanical interlocking device that has grounding blades and cut-off device for entrance door of high-voltage compartment as well as with operating mechanism for vacuum circuit breaker. In addition there is set of valve-type voltage surge limiters with meters and OFF-indicators coupled with telemechanic system incorporated in control compartment. The latter is equipped with no-break power supply connected through cable and bushing circuit breaker to air-immersed power transformer mounted in high-voltage compartment, as well as to automatically disconnected heating panel, microprocessor device for relay protective and automatic-control gear, and emergency control telemechanics. System incorporates provision for protection against unauthorized access to its parts. EFFECT: improved performance characteristics, enhanced reliability, facilitated maintenance, reduced material input and cost. 6 cl, 4 dwg

Description

 The invention relates to the field of electrical engineering, namely to switching equipment and is intended for switching (the implementation of automatic shutdown, automatic restart, sectioning, automatic input of reserve, melting, ice and network redundancy, etc.) overhead power lines.

 Known recloser (automatic circuit breaker for overhead lines) of the TEL series (see RF Patent N 2142187, M.cl. 6 H 02 B 13/00, publ. 11/27/99), consisting of a vacuum switch TEL series, current transformer of current inputs, protective cases, and the vacuum circuit breaker with current transformers and contact leads, made in the form of current inputs, is enclosed in a transparent solid solid insulation, on top of which is a protective case, the lower part of which is made of bulletproof weatherproof glass and allows you to clearly to see the situation recloser light and visually monitor the performance of the vacuum circuit breaker.

 A disadvantage of the known device for automatically turning off air lines is the inconvenience associated with the installation - dismantling of the sectioning point; downtime of linear consumers of electricity, among which there are consumers of the first category of reliability; inconvenience when installing and monitoring the operation of the device, since the control over the work is carried out only visually. In addition, the design of the recloser allows it to be used only for medium-voltage power lines.

 A known distribution system for a partitioned power line, adopted as a prototype (see Doroshev K.I. Operation of complete switchgear 6-220 kV. M: Energoatomizdat, 1987, S. 132-135, Fig. 3.35 and Fig. 3.36) including a complete outdoor switchgear containing a high-voltage compartment in which an electric vacuum switch is located, measuring current transformers in phases "A" and "C", voltage measuring transformers and a control compartment with emergency devices hydrochloric automatics in the form of auto-reclosing and automatic transfer switch relay overcurrent directional two-stage, heating device.

 A disadvantage of the known distribution system for a partitioned power line is: the inconvenience associated with the installation and dismantling of the sectioning point, downtime of linear consumers of electricity, among which there are consumers of the first category of reliability; inconvenience during transportation to the installation site; high cost and material consumption; low reliability and performance.

 These shortcomings are due to the presence of a well-known distribution system for a partitioned power line of a sectioning point at a height of several meters, which requires a fixed staircase and simultaneous protection from access by unauthorized persons (vandalism); the lack of an earth fault system in the line, while earth faults account for most of all damage; lack of telemechanics and alarm systems.

 The technical result achieved by the present invention is to improve performance, increase reliability and ease of maintenance while protecting against unauthorized persons, reducing material consumption and cost of industrial facilities.

 To achieve the specified technical result in a known system for sectioning a power line, which includes a complete switchgear for outdoor installation, containing a high-voltage compartment, in which there is a vacuum circuit breaker with electric drive, measuring current transformers in phases "A" and "C", voltage measuring transformers and control compartment with emergency control devices in the form of automatic re-inclusion and automatic inclusion of a reserve, relay poppy the two-stage directional current protection, the heating device, according to the invention, the high-voltage equipment and control compartments are located on the platform in one block box, inside the high-voltage compartment on both sides of the vacuum circuit breaker are two three-phase voltage measuring transformers with an additional zero-sequence voltage winding on the low side , optional zero sequence current transformer with internal disconnectors lids installed on different sides of the vacuum circuit breaker, equipped with a mechanical interlock with grounding knives and a locking device for the entrance door to the high-voltage compartment and the drive of the vacuum circuit breaker, sets of valve surge arresters equipped with counters and trip indicators associated with the telemechanics system located in the control compartment equipped with guaranteed power source connected by a cable through an introductory machine with a dry located in the high-voltage compartment a power transformer, a heating panel with automatic shutdown, a microprocessor-based relay protection and automation device, in addition, the distribution system for sectioning the power transmission line includes a communication corridor, control and control blocks on the nodes of the pipeline valves connected to the control compartment via communication lines, the high-voltage compartment is equipped with automatic pressure-relief valve equipped with signal light equipment mounted on the roof of the block box, moreover, the automatic valve, reset the suppressing pressure is made in the form of a frame located in the floor of the high-voltage compartment with a rotary blade, connected by means of a limit switch with signal light equipment, which is an orange flashing signal protected by a grid, fed by means of the block contacts of the input automaton of the control compartment, into a set of telemechanics includes systems for fixing places of a short circuit to ground of the power transmission line phase and systems for fixing places of a short circuit between phases, telecontrol, tele-alarm and prot voavariynoy remotely, overvoltage protection, automatic switching valve, air pressure is reset during a short circuit, unauthorized opening of doors, the link, the foundation block is formed with a pit box, and the box unit configured tray.

 Between the distinguishing features and the achieved technical result, there is the following causal relationship.

 Unlike analogs and prototypes, the implementation of a distribution system for sectioning power lines in the form of two compartments located on a platform in one block box: a control compartment and a high-voltage one, significantly reduces its cost and facilitates its maintenance, since it does not require expensive pile foundations and lifting equipment for its installation, and for maintenance and repair in the process does not require stationary or ladders. The placement inside the high-voltage compartment of the vacuum circuit breaker, measuring current transformers in two phases "A" and "C" and an additional two voltage measuring transformers in three-phase design with zero-sequence windings increases the reliability of the distribution system for power transmission section, since the internal installation in a closed heated cell of two measuring voltage transformers eliminates their premature failure, and also reduces the cost of the installation as a whole by reducing I cost and time to install or replace them on a high pile platform directly on the street on both sides of the power line. In this case, the use of the two aforementioned voltage measuring transformers is not in a two-phase, as in the prototype object, but in a three-phase version with an additional open winding of zero-sequence voltages that occurs during single-phase earth faults, and the installation of an additional zero-sequence current measuring transformer will allow to identify and apply to relay protection and automation devices the zero component of the earth fault current in the line.

 The use of disconnectors of the internal installation, located on different sides of the vacuum circuit breaker, equipped with a mechanical interlock with grounding knives and a locking device for the front door to the high-voltage compartment prevents unauthorized persons from accessing the high-voltage compartment, preventing vandalism. Equipping a distribution system for power line sectioning with a set of valve surge arresters equipped with meters and trip indicators associated with a telemechanics system located in the control compartment protects electrical equipment not only from lightning surges in the spring-summer period, but also year-round from switching surges recorded telemechanics system. An additional dry power transformer located additionally in the high-voltage compartment provides power through a cable and an input circuit breaker to a guaranteed power source, a heating panel with automatic shutdown, a microprocessor-based relay protection and automation device, and emergency telemechanics. The use of a set of telemechanics in the inventive facility will provide maximum current protection during earth faults, current cutoff in phases to earth, current overloads, protection against voltage increase and voltage decrease, protection against changes in power voltage.

 According to the information available to the applicant, the set of essential features of the claimed invention "Distribution system for sectioning power lines" is not known from the prior art, which allows us to conclude that the invention meets the criterion of "novelty."

 According to the applicant, the essence of the claimed invention does not follow mainly from the prior art, since it does not reveal the above effect on the achieved technical result - a new property of the object - a set of features that distinguish the claimed invention from the prototype, which allows us to conclude that the invention is consistent "Distribution system for power line sectioning" to the criterion of "inventive step".

 The set of essential features characterizing the essence of the invention can be repeatedly used in the production of distribution systems for sectioning power lines with obtaining a technical result consisting in reliable protection of the mentioned objects and reliable operation with high operational qualities of the system itself.

The essence of the claimed invention is illustrated by an example of a specific implementation, where:
- in FIG. 1 - schematically shows a distribution system for sectioning power lines in the form of a block box installed on the foundation, consisting of two compartments: a high-voltage and a control compartment;
- in FIG. 2 is a circuit diagram of a high voltage compartment;
- in FIG. 3 is a structural diagram of a distribution system for sectioning power lines;
- in FIG. 4 is a circuit diagram of a control compartment.

 The distribution system for power line sectioning is made in the form of two compartments placed on platform 1 in one block box with runners 2: control compartment 3 and high-voltage compartment 4. Inside the high-voltage compartment 4 there are a vacuum circuit breaker 5, current measuring transformers in two phases "A" and "C" 6, 7. On both sides of the vacuum circuit breaker 5 on the power supply line 8 are two measuring voltage transformers 9, 10 in a three-phase design with an additional open zero voltage winding 11 strings on the low side. Inside the high-voltage compartment 4, there is also an additional zero-sequence current measuring transformer 12 with internal disconnectors 13 installed on opposite sides of the vacuum circuit breaker 5. The internal disconnectors 13 are equipped with mechanical interlock 14 with grounding knives 15 and a shutter 16 of the entrance door 17 to the high-voltage compartment 2 and drive 18 of the vacuum circuit breaker 5. The distribution system for sectioning the transmission lines is equipped with a set of valve surge arresters I 19, equipped with counters 20 and operation indicators 21, associated with the telemechanics system 22, located in the control compartment 3. The control compartment is equipped with a guaranteed power supply 23, connected by a cable via an input machine 24 with a dry power transformer 25 located in the high-voltage compartment 5, a heating panel 26 with automatic shutdown, microprocessor-based relay protection and automation 27 and emergency telemechanics 22. The distribution system for sectioning power lines includes a corridor communications 28, control and control block boxes 29 on gate valve assemblies 300 of the pipeline 31 connected to the control compartment 3. The high-voltage compartment is equipped with an automatic pressure-relief valve 32 equipped with signal light equipment 33 mounted on the roof of the block-box 2, the automatic valve made in the form of a frame 34 located in the floor of the high-voltage compartment with a rotary blade 35 connected by means of a limit switch 36 to signal light equipment 33, which is a signal flashing, protected with mended orange lamp 37, energized by auxiliary contacts induction machine 23 of the control module 3. The range of remote control means includes remote control systems, remote signaling, the overvoltage protection, automatic switching valve, air pressure is reset during a short circuit, unauthorized opening of doors, the link. The foundation 38 of the platform 1 is made with a pit 39, and the block box itself is made with a pallet 40. The control compartment of the distribution system for sectioning the power transmission line includes measuring instruments 41, short circuit location clips 42, determining the location of the short circuit of the power line phase to the ground and to each other, block emergency automation in the form of automatic re-inclusion and automatic inclusion of a reserve, relay two-stage directional maximum current protection, heating device. Block boxes of control and management 29 on the nodes of the valves 30 of the pipe 31 are connected to the control compartment 3 using communication lines 43.

 The complete set and assembly of the block-box 2 of the distribution system for sectioning the power transmission lines is completely carried out at the factory.

 The work of the distribution system for sectioning power lines is as follows.

 The block box 2 with runners is transported to the installation site on a foundation prepared in advance 38 with a pit 39. In the event of a short circuit and subsequent ignition, the automatic valve 32 relieves air pressure by turning the frame 34. The rotary blade 35, which triggers when a shock wave appears, turns and releases the stubborn in it, the rod of the limit switch 36, which signals the operation of the automatic valve 32 also to the telemechanics system 22 to turn off the voltage, and a blinking orange on the roof of the block box of color lamp 33 emergency shutdown system or malfunction. The intermittent orange color attracts attention during the helicopter flight of the route and allows the service team to easily find the place of breakdown from the helicopter at any time of the day and eliminate the malfunction in the shortest time, regardless of the distance or inaccessibility of the location of the distribution system for sectioning the power transmission lines. During the control helicopter fly-by of the pipeline route, the presence of a flashing orange lamp allows to present a picture of the distribution system for sectioning the power transmission line. In addition, with the help of current and voltage of the zero sequence, the magnitude and direction of the power of the zero sequence is easily determined, and also with the help of a set of telemechanics the nature and place of the occurrence of a single-phase short circuit is determined. Through telemechanics channels, through the control and control unit 29 at the gate valve units 30, data on the nature and location of the interphase short circuit are also transmitted to the district dispatch center.

 The proposed distribution system for power line sectioning has improved operational qualities and increased reliability and ease of maintenance while protecting against access by unauthorized persons, the cost of the distribution system for power line sectioning is generally reduced, and fires on power lines are eliminated, thereby preserving the environment.

Claims (8)

 Distribution system for power line sectioning, which includes a complete outdoor switchgear containing a high-voltage compartment, in which there is a vacuum circuit-breaker with an electric drive, measuring current transformers in phases A and C, voltage measuring transformers and a control compartment with emergency control devices in the form of automatic repeated inclusion and automatic inclusion of a reserve, relay maximum current protection of a two-stage voltage A heating device, characterized in that the high-voltage equipment and control compartments are located on the platform in one block box, inside the high-voltage compartment on both sides of the vacuum circuit breaker there are two voltage measuring transformers in three-phase design with an additional zero-sequence voltage winding on the low side, an additional zero sequence current transformer with indoor disconnectors installed on different sides of the vacuum o circuit breakers equipped with a mechanical interlock with grounding knives and a locking device for the entrance door to the high-voltage compartment and a vacuum circuit breaker drive, sets of valve surge arresters equipped with counters and trip indicators associated with the telemechanics system located in the control compartment, equipped with a guaranteed power supply connected by a cable by means of an introductory machine with a dry power transformer located in the high-voltage compartment, a heating panel with an automatic aromatic disconnection, microprocessor relay protection and automation.  2. The system according to claim 1, characterized in that it includes a communications corridor, control and control blocks on the nodes of the pipeline valves, connected to the control compartment by means of a communication line.  3. The system according to claim 1, characterized in that the high-voltage compartment is equipped with an automatic pressure-relief valve equipped with signal light equipment mounted on the roof of the block box.  4. The system according to claim 3, characterized in that the automatic valve, which relieves pressure, is made in the form of a frame located in the floor of the high-voltage compartment with a rotary blade connected by means of a limit switch with signal light equipment.  5. The system according to claim 3 or 4, characterized in that the signal light equipment is made in the form of a flashing protected lamp grid. orange, powered by the block contacts of the input circuit breaker control compartment.  6. The system according to claim 1, characterized in that the set of telemechanics includes systems for fixing the places of short circuit to ground of the phase of the power transmission line and fixing places for short circuit to ground of the phase of the power line and fixing places of short circuit between the phases, telecontrol, tele-alarm and emergency telemechanics, overvoltage protection, automatic valve actuation, which relieves air pressure during short circuit, unauthorized opening of doors, communication line.  7. The system according to claim 1, characterized in that the foundation of the block box is made with a pit.  8. The system according to claim 1, characterized in that the block box is made with a pallet.

Images