SU1074380A1 - High-voltage generator-rectifier - Google Patents

Abstract

1. HIGH GENERATORVYPRYAMITEL, soderzha1chy three-phase transformer, rectifier units connected by the half-wave rectifying circuit and arranged parallel to the axes of the windings of the transformer system of isolating transformer and a high voltage output, arranged in a sealed housing with an electrically insulating medium, characterized in that, in order reducing the size of the generator and increasing its reliability; each switching block is made in the form of a partitioned cylinder connected to a linear output each phase of the transformer common mid-point, rectifier units being arranged symmetrically relative to each other between the high voltage windings and the housing and fastened to the bottom of the housing and its attached high voltage winding middle point C through insulators on zeeemlenS prefecture magnetic screen. (L 2. Generator unit according to claim 1, characterized in that the rectifying units are equipped with cooling systems that are connected at the points of their attachment to the case. 4 with eo

Description

1 The invention relates to high voltage power sources, in particular to a high voltage rectifier generator, and is used in accelerator technology for laboratory and industrial purposes. A high-voltage transformer accelerator is known, which contains a three-phase transformer, rectifying blocks located parallel to the axis of the transformer windings, and a high-voltage terminal located in a hermetic boiler filled with an electrically insulating medium. A disadvantage of the known devices is the bulkiness and a large number of high-voltage gaps in the vertical axis of the generator, which reduces the reliability of its operation. The closest to the invention to the technical essence is a juice-rectifier generator containing a three-phase transformer rectifying blocks connected by a half-wave rectifying circuit and parallel to the axis of the coil of the transformer, a system of isolation transformers and a high-voltage output housed in a sealed enclosure with electrical insulation environment. A disadvantage of the known device is the cumbersome and mgsha reliability due to the placement of the six arms of the rectifying units in the gap between the boiler body and the high-voltage windings, as well as the presence of a high-voltage reference insulator for full voltage. The aim of the invention is to reduce the size of the generator and increase its reliability. The goal is achieved by the fact that in a high-voltage rectifier generator containing a three-phase transformer, rectifying blocks connected via a single-wave rectifier circuit and parallel to the axes of the transformer windings, a system of isolation transformers and a high-voltage output disposed in a sealed enclosure with insulation medium, each rectifying unit is made in the form of a partitioned cylinder connected to a linear line of each phase of the transformer with a common midpoint; rectifying units 80 are located symmetrically relative to each other between the high-voltage windings and the housing and are attached to the bottom of the housing, and the high-voltage windings are fixed by their midpoint through the supporting insulators on a grounded shield in the magnetic core. At the same time, the rectifying units are equipped with cooling systems that are connected at the places of their attachment to the housing. The combination of rectifying blocks of each phase into a single partitioned cylinder and placing them symmetrically relative to each other in the gap between the windings and the housing significantly reduces the size of the generator. Fastening the rectifier blocks to the casing increases the reliability of the generator, since it eliminates high-voltage support insulators at full voltage and allows the rectifier blocks to be mounted directly to a grounded casing. In addition, the high-voltage windings are supported on high-voltage insulators made on full voltage. In the proposed technical solution, high-voltage windings are fixed by their midpoint to high-voltage insulators designed for half of the rectified voltage, since the potential of the midpoint of the high-voltage winding of a three-phase transformer is equal to half of the rectified voltage. It also reduces the size of the device and increases its reliability. . In limestone generators, the great difficulty is the cooling of the rectifying diode blocks, which are at a high potential, since it is necessary to ensure the supply of the refrigerant insulated to the full rectified voltage. In the proposed technical solution, the refrigerant supply to both rectifier units combined into a single unit is carried out from the low potential (ground potential) side. FIG. 1 shows a longitudinal section generator; FIG. 2 - the same cross section. The rectifier generator contains a three-phase transformer, consisting of magnetic core 1, primary 2 and secondary 3 windings and screens 4, diode rectifying blocks 5 connected to the line terminals of the secondary windings 3 according to a single-bridge three-phase rectifier circuit. Both diode rectifying blocks 5 of each phase are combined into a single cylindrical sectioned block, which is connected by common midpoint 6 to the line terminal of the corresponding phase. The rectifying units are attached to the bottom of the housing 7 and have the earth potential at this point. The secondary windings 3 are supported by their midpoint 8 through the supporting insulators 9 on the grounded screen 4. Three dual power supply units 5 are located symmetrically relative to each other in the gap between the secondary windings 3 and the housing 7. The high-voltage leads of the diode rectifier units are connected to the secondary windings 10 high-voltage isolation transformers, made in the form of a torus. The secondary windings 10 are covered by the primary windings 11, also made in the form of a torus and fixed on the electrostatic screen 4, which is under the ground potential. The windings are located in two mutually perpendicular planes. The secondary windings 1 are electrically and mechanically connected to the electrostatic screen 12, which is under full rectified voltage. The electrostatic screen 12 is connected to high-voltage terminals 13. The rectifier of the generator is filled with a dielectric 14, for example, SF6 gas (hexafluoro; sulfur) under pressure. The proposed generator works as follows. Primary winding 2 is connected to AC power. The secondary winding 3 generates a high voltage (about 1 MB), which is rectified in diode rectifying blocks 5 connected to the transformer circuit via a single-bridge three-phase rectifier circuit and fed to the secondary windings 10 of high-voltage isolating transformers connected to a common electrostatic the screen 12, which is under the full rectified voltage, from which the voltage of a plurality of high-voltage cables is brought to the load, for example, an electronic trigger. The primary windings of the high-voltage isolating transformers are powered from an external source, which is not shown in the drawing. The proposed implementation of the generator reduces its dimensions by 20%, and the volume by 40%, which leads to a reduction in the consumption of materials by 20%, in particular, the saving of expensive iron by 40%. In addition, increasing the reliability of the generator increases its service life by 15-20%.

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FIG. 2

Claims (2)

1. A HIGH-VOLTAGE RECTIFIER, comprising a three-phase transformer, rectifier blocks connected by a half-wave rectification circuit and arranged parallel to the axes of the transformer windings, a system of isolation transformers and a high-voltage output placed in a sealed enclosure with an insulating medium, characterized in that, in order to reduce the size and increase its reliability, each rectifier block is made in the form of a sectioned cylinder connected to a linear output each phase of the transformer with a common midpoint, the rectifier blocks are located symmetrically relative to each other between the high-voltage windings and the casing and are attached to the bottom of the casing, and the high-voltage windings are fixed with their mid-point through insulators on the earth-ground screen of the magnetic circuit. 2. The rectifier generator according to claim 1, characterized in that the rectifier blocks are equipped with cooling systems connected in places of their attachment to the housing. SU ..., 1074380