RU2219631C1 - Modular distribution transformer substation - Google Patents

Abstract

FIELD: electrical engineering; power distribution. SUBSTANCE: modular distribution transformer substation has high-voltage entrance bay connected to power cables, two power transformers, and low-voltage switchgear. Novelty is that high-voltage entrance bay is made in the form of double-section distribution center. Each section accommodates set of cubicles with switching, protective, and grounding devices. Each section is built of modules U-shaped as viewed from top and joined together during installation to form single box-configured section room with common door. Each power transformer is mounted in separate three-dimensional module made in the form of roof-panel duct, longitudinal walls, and lateral ones provided with door, Mentioned integrated modules of cubicle sets are abutting against one another and/or one of them is abutting against one three-dimensional power transformer module. EFFECT: enhanced economic efficiency, facilitated installation and wiring, enhanced operating reliability and service life, facilitated maintenance of substation. 25 cl, 21 dwg

Description

 Description text in facsimile form (see graphic part) T

Claims (25)

1. Block distribution transformer substation, comprising a high voltage input device connected to power cables, at least two power transformers and a low voltage switchgear, characterized in that the high voltage input device is made in the form of a distribution point consisting of two sections, in each of which is mounted a set of cells with switching equipment and protective devices and grounding, and each section is formed of paired during installation, having U-shaped cross-section in terms of blocks, which together form the common room of the box-shaped section with at least one common door, and each power transformer with its own section of the low-voltage switchgear is mounted in a separate volume unit made in the form of a box with a ceiling panel, longitudinal and made with the door transverse walls, while these paired blocks of sets of cells are mounted adjacent to each other and / or adjoining at least one of them one unit volume of the power transformer. 2. The block distribution transformer substation according to claim 1, characterized in that the high voltage distribution point is connected to at least two sources of electricity through the corresponding cable lines. 3. Block distribution transformer substation according to claim 2, characterized in that the cable lines are mutually redundant. 4. Block distribution transformer substation according to any one of claims 1 to 3, characterized in that the high-voltage distribution point includes sectional cells, mainly duplicated in sections, input cells, communication cells, linear cells, sectional cells for switching sections and sectional switches and cells with voltage transformers for monitoring voltage across the sections and ensuring the operation of automatic input of backup power between the sections, and with current transformers for measuring phase of current and to measure the fault current "land". 5. The block distribution transformer substation according to claim 4, characterized in that at least one input cell for connecting a 10 kV cable line is installed in each section of the distribution point of the higher voltage. 6. The block distribution transformer substation according to claim 4, characterized in that cells for connecting two mutually redundant lines, preferably 10 kV, are accepted as communication cells. 7. Block distribution transformer substation according to claim 4, characterized in that the linear and sectional cells are adopted of the same type. 8. The block distribution transformer substation according to claim 4, characterized in that at least one cell with a voltage transformer is mounted in each section of the distribution point of the higher voltage to control the voltage on the sections of the distribution point of the higher voltage and to ensure the operation of the automatic input of backup power between sections. 9. The block distribution transformer substation according to claim 4, characterized in that each section of the distribution point of the higher voltage contains mainly two cells for switching said sections. 10. Block distribution transformer substation according to any one of claims 1 to 9, characterized in that the cells in the sections of the distribution point of the higher voltage are made with cable compartments for connecting three-core and single-core cables with a cross section mainly up to 240 mm ² , while the actuators of the circuit breakers are mainly electromotive with the ability to manually turn on and off, and at least the circuit breakers are made withdrawable, and all cells are made with mechanical interlock between the circuit breakers dressings and earthing switches for each cell and fitted with the derived voltage dividers, preferably luminous, indicators of voltage presence, as well as sockets for made "hot" cables lived phasing. 11. Block distribution transformer substation according to any one of claims 1 to 10, characterized in that the input cells, as well as the linear cells and the cells for switching sections, are equipped with maximum current protection against interphase short circuit with independent time delay with shutdown action, as well as earth faults with an independent time delay with action on the signal. 12. The block distribution transformer substation according to claim 4, characterized in that the sectional switch cell is configured with a maximum current protection against interphase short circuit with an independent time delay with a shutdown action, an automatic backup power input device that contains cable power input disconnect elements power lines to the emergency section with adjustable time delay from 0 to 20 s when the voltage disappears or decreases on the sections below a certain ur a ram in one, two or three phases, a blocking system during operation of the overcurrent protection device for power supply of the cable power line to the emergency section, a system for automatically turning on the section switch from the contact contacts of the power switch without time delay after disconnecting the power input of the cable power line to the emergency section, devices manual reset after automatic operation. 13. The block distribution transformer substation according to claim 1, characterized in that it is equipped with telemechanization systems, including remote control systems, telealarm systems and telemetry: the position of the cable line switches, power and section transformers, ground faults, on the connection of higher voltage cable lines , the presence of voltage on the tires of each section, malfunctions in operational circuits, internal malfunctions of the protection units, with the possibility of executing telecontrol commands by power yklyuchatelem in each section, including televklyucheniya and transfer trip and telemetry systems load currents of cable lines, power transformers and section switch, the voltage across the sections. 14. Block distribution transformer substation according to any one of claims 1 to 13, characterized in that when paired blocks are located adjacent to one another along one of the walls, groups of similar cells from different sets of cells are placed in blocks at opposite walls adjoining each other paired blocks, and the remaining cells at adjacent walls of paired blocks. 15. The block distribution transformer substation according to claim 1, characterized in that, as power transformers for step-by-step conversion of higher voltage energy, preferably 10 kV into low voltage electricity, mainly 0.4 kV, oil transformers are used, which are mounted in blocks on movable supports with the possibility of fixation after their installation in the design position, and in each block at least one cell is automatically entered backup power. 16. The block distribution transformer substation according to claim 15, characterized in that transformers are used mainly with a capacity of each 1000 kVA, voltage of 10 ± 2 · 2.5% / 0.4 kV. 17. Block distribution transformer substation according to claim 1, characterized in that the low voltage switchgear is made two-section, consisting of two low voltage assemblies. 18. Block distribution transformer substation according to claim 1, characterized in that the volumetric blocks in which power transformers are mounted with sections of the low voltage switchgear, and the volumetric blocks of the high voltage distribution point are mounted on a hollow box-shaped foundation, formed from trough-shaped lower of panels laid upwards, on which are supported by the response ribs of the bottom of the volumetric blocks, while the height of the ribs of the lower panels exceeds the height of the ribs of the bottom blocks is not less than 1.65 times, while at the bottoms of at least room units distribution point higher voltage is formed of at least one technological opening provided with a removable cover floor, and in the cavities formed by the bottom panels cable cellars. 19. The block distribution transformer substation according to claim 1, characterized in that the volumetric blocks are joined by a pitched roof with at least one slope, the roof is predominantly made of metal with the formation of an air gap between the upper ceiling panels of the blocks and the roof, or the volumetric blocks are equipped with a flat roof uniting them or a flat coating with a roll or mastic roof. 20. Block distribution transformer substation according to any one of claims 1 to 19, characterized in that the three-dimensional blocks of the substation are mounted in a row, while their transverse walls together form the longitudinal walls of the substation building, and the longitudinal walls of the outer blocks form the transverse walls of the substation building. 21. The block distribution transformer substation according to claim 20, characterized in that the blocks of the substation in which the power transformers and sections of the low voltage switchgear are mounted are mounted adjacent to each other, and the blocks of the high voltage distribution point are mounted with the formation of a series row with adjoining to each other and to one of the walls of one of the blocks in which the power transformer and the low voltage switchgear section are located. 22. The block distribution transformer substation according to claim 20, characterized in that the blocks of the substation in which the power transformers and sections of the low voltage switchgear are mounted are mounted adjacent to each other, and each block of the higher voltage distribution point is mounted adjacent to one of blocks in which a power transformer and a section of a low-voltage switchgear are installed, or blocks of a high-voltage switchgear are mounted from the adjacent iem to each other, and each unit, which establishes the power transformer and low voltage section of the dispenser, is mounted adjacent the one of the blocks of the distribution point higher voltage. 23. Block distribution transformer substation according to claim 20, characterized in that the opposite blocks of the substation are installed alternately. 24. Block distribution transformer substation according to any one of claims 1 to 19, characterized in that the blocks of the substation are installed in at least two rows, and the blocks of the distribution center of the higher voltage are mounted adjacent to each other along one of the walls, and the blocks, in which are installed power transformers and sections of the low voltage switchgear, mounted adjacent to them and to each other, or mounted partially or fully adjacent to one or two walls on one or two sides of the distribution blocks the dividing point of highest tension. 25. The block distribution transformer substation according to claim 18, characterized in that, at least in one of the three-dimensional blocks of the high voltage distribution point, there are preferably four technological openings, preferably unequal in plan.

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