CN201556941U - High voltage DC polar PLC capacitor - Google Patents

Abstract

The utility model relates a high voltage DC polar PLC capacitor, which is characterized in that a capacitor pillar formed by vertically stacking seven to thirty layers of capacitor units is included; a high voltage connecting terminal and a low voltage connecting terminal are respectively led out from the upper end and the lower end of the capacitor pillar; two insulator pillars, two capacitor pillars, or an insulator pillar and a capacitor pillar which have the same layers and the same height are included; the bottom ends of the three pillars are fixed on a base frame; the connection lines of the centers of the three pillars on the same level form a triangle; each side length of the triangle is two to ten times as long as the diameter of each capacitor unit, and the angles thereof range from 30 degrees to 90 degrees; and the triangle adopts an equilateral triangle preferably. A structural frame is arranged in each layer or every one to three layers for connecting three capacitor units and/or supporting insulators of the layer, so that the three pillars are connected into a whole, and the stability is improved. In the high-voltage terminals of the capacitor pillars and the twenty layers close to the high-voltage terminals, a pressure ring is arranged in each layer or every one to three layers, so that the generation rate of corona is reduced. The requirement of mechanical strength of the capacitor to a capacitor unit insulator is greatly reduced, and the cost thereof is reduced by 10 times; and the stability of the capacitor is improved, and the installation and the application are convenient.

Description

High-voltage direct-current polar PLC capacitor

(1) technical field

The utility model relates to the high-voltage direct-current field of power transmission, is specially a kind of high-voltage direct-current polar PLC capacitor that is used for HVDC (High Voltage Direct Current) transmission system, and promptly filtering converter transformer DC side frequency is the filter capacitor of the harmonic component of 30kHz～300kHz.

(2) background technology

China's electric power resource (water power, coal) overwhelming majority concentrates on west area underdeveloped, and the flourishing relatively southeastern coastal areas electric power resource shortcoming of economy, it is vast in territory to add China, and this has just determined China's electric power energy need grow the big capacity of distance to send---transferring electricity from the west to the east.

At present, to send the up-to-date high-end technology of electricity be exactly super high voltage direct current electricity transmission (HVDC) to the big capacity of long in the world distance.China since last century the mid-80 introduce this advanced person's technology from external trans-corporation, at first on Ge Zhou Ba-Shanghai ± 500kV DC power transmission line and achieve success.After this many ± 500kV DC power transmission line such as Three Gorges-Changzhou, Three Gorges-Guangdong, Three Gorges-Shanghai, natural bridge-Guangdong, Guizhou-Guangdong have been built up again successively.The Yunnan of under preparation now ± 800kV-Guangdong extra high voltage direct current transmission line.

HVDC can reduce the circuit electric energy loss, saves a large amount of electric power energies; Can be with the big grid network in the zone of different electric pressures, the zone of this flexibility is grid network greatly, can greatly improve the security reliability of electrical network, the power grid accident of avoiding similar California, USA to have a power failure on a large scale.

The main equipment of HVDC system comprises change of current change, converter valve, filtering capacitor and control system etc.The technology of its core is controlled in trans-corporation's hand at present, as companies such as ABB, Siemens and Nokias.The external HVDC technology of main dependence is unfavorable for the safety of China's electric power energy.Therefore, the production domesticization of HVDC technology is done one's utmost to promote by country.Classifying second as in [2006] No. 8 literary compositions of State Council's promulgated by the State Council " State Council is about accelerating some suggestions of equipment manufacture " needs the national key project of the major technologies and equipment of quickening development to be: " carry out the development of 1000 kilovolt high-voltage alternatings and ± 800 kilovolts of direct current transportation complete set of equipments, grasp 500 kilovolts of alternating current-direct currents and 750 kilovolts of AC input transformation key equipment manufacturing technologies comprehensively.”

In transmission system, when transmission line is carried electric current, the transmission carrier signal of also using.Be referred to as power line carrier communication, English is power-line carrier communication, is abbreviated as the PLC communication.This is the preferential peculiar means of communication that adopts of all power departments in the world.In order to prevent of the interference of this DC transmission system near transmission line of alternation current carrier communication, need to use direct current PLC filtering capacitor, PLC harmonic component in the 30kHz of filtering native system DC side～300kHz scope, this filtering capacitor is connected on the direct current side pole bus of current conversion station, is called direct-current polar PLC capacitor in the power industry.

This class capacitor is made up of more piece porcelain bushing type capacitor unit, and it is big to have a creepage distance, the characteristics that pylon is high.The fuse that a plurality of capacity cell strings is arranged in the case shell of capacitor unit and constitute, in be provided with grading resistor.

The direct-current polar PLC capacitor of porcelain bushing type structure owing to will adapt to ± 500 kilovolts even ± 800 kilovolts high direct voltage, require creepagely than apart from reaching more than the 64mm/kV, and creepage distance reaches more than 45 meters, capacitor is up to more than 15 meters.Open side type is difficult to solve up to the stability of the capacitor more than 15 meters at present, even adopt present high-strength porcelain also to be difficult to satisfy the requirement of mechanical strength of so tall and big porcelain shell for capacitor, the cost of special insulator is high on the other hand, and the price that makes high-voltage direct-current PLC capacitor is up to 1,000 ten thousand yuan.

In order to solve the home-made equipment of China's super high voltage direct current electricity transmission (HVDC), the development of the direct-current polar PLC capacitor in the HVDC (High Voltage Direct Current) transmission system is a key wherein.

(3) utility model content

The purpose of this utility model is a kind of high-voltage direct-current polar PLC capacitor that is used for HVDC (High Voltage Direct Current) transmission system of design, increase the insulator post in the capacitor both sides, insulator post and capacitor form the triangle stereochemical structure, creepage distance meets the demands, solve the stability problem of capacitor effectively, and the total cost of product is significantly reduced.

The high-voltage direct-current polar PLC capacitor of the utility model design, the capacitor unit that comprises vertical pile, the fuse that capacitor element is formed by connecting is arranged in porcelain bushing and impregnated in the insulation impregnating agent and constitute capacitor unit, is equipped with in the capacitor unit as the grading resistor of all pressing element; 7 layers～30 layer capacitor unit vertical pile become capacitor column, high-voltage connection terminal is drawn in the upper end, low-voltage wiring terminal is drawn in the lower end, the insulator post that also has 27 layers～30 layers of post insulator vertical pile, perhaps 27 layers～30 layer capacitor unit vertical pile become capacitor column, and perhaps the insulator post of 17 layers～30 layers of post insulator vertical pile becomes capacitor column with 17 layers～30 layer capacitor unit vertical pile.Every layer height of three posts is identical, and total height is also identical, and pony sill is fixed in three post bottoms, and the line at three post centers forms triangle on the same level.For guaranteeing stability, the triangle that the three post lines of centres form on the same level, the length on each limit is 2～10 times of capacitor unit diameter, and each angle is 30 °～90 °, and preferred plan is that the triangle that the three post lines of centres form on the same level is an equilateral triangle.Stable for what guarantee to support, the diameter of used post insulator is 0.4～1.1 times of capacitor unit diameter.

Top layer with every layer or every 1～3 layer of capacitor unit and post insulator that has framework to be connected this layer so that three posts become integral body, improve the stability of this capacitor.At the top layer of three posts with near in 3～20 layers of top, voltage more than 252kV, every layer or every 1～3 layer of installing grading ring, to reduce the generation of corona.

Framework is a triangle, and framework is connected with post insulator with the capacitor unit of this layer.

Grading ring is an annular, and the framework of grading ring and this layer is in the same plane, interconnect.The inside radius of grading ring greater than external radius of a circle of framework and capacitor unit radius and.There are at least three intercell connectors to be connected between grading ring and the framework.

The porcelain bushing of capacitor unit and post insulator can be the big umbellule structures of anti-fouling type, or isometrical or waney dark rib type beveled structure.

The advantage of the utility model high-voltage direct-current polar PLC capacitor is: 1, can be used for covering voltage and be ± 500 kilovolts to ± 1500 kilovolts DC transmission system, requirement to capacitor unit insulator mechanical strength can significantly reduce, need not to use special high-strength porcelain, the cost of capacitor reduces by ten times, and leg-of-mutton overall structure has improved capacitor stability greatly; 2, establish equal piezoelectricity group in the capacitor unit, the peripheral hardware grading ring, easy to install.

(4) description of drawings

Fig. 1 is the structural representation of facing of this high-voltage direct-current polar PLC capacitor embodiment;

Fig. 2 is the side-looking structural representation of this high-voltage direct-current polar PLC capacitor embodiment;

Fig. 3 is the plan structure schematic diagram of this high-voltage direct-current polar PLC capacitor embodiment;

Fig. 4 is a capacitor unit structural representation among Fig. 1.

Number in the figure is:

1, grading ring, 2, post insulator, 3, capacitor unit, 3-1, fuse, 3-2, grading resistor, 3-3, porcelain bushing, 4, framework, 5, pony sill, 6, the low pressure outlet terminal, 7, high-voltage outlet terminal, 8, intercell connector.

(5) embodiment

The enforcement of this high-voltage direct-current polar PLC capacitor as shown in Figures 1 to 4, the capacitor unit 3 that comprises vertical pile, the fuse 3-1 that capacitor element is formed by connecting is arranged in porcelain bushing 3-3 and impregnated in insulation impregnating agent formation capacitor unit 3, is equipped with in the capacitor unit 3 as the distributed grading resistor 3-2 that all presses element; 11 layer capacitor unit, 3 vertical pile become capacitor column, high-voltage connection terminal 7 is drawn in the upper end, low-voltage wiring terminal 6 is drawn in the lower end, also has the insulator post of 2 11 layers post insulator 2 vertical pile, and the diameter of used post insulator is 0.5 times of capacitor unit diameter.Every layer height of three posts is identical, and total height is also identical, and the pony sill 5 that channel-section steel is made is fixed in three post bottoms, and the line at three post centers forms triangle on the same level, and this triangle is an equilateral triangle, and the length of side is 4 times of capacitor unit 3 diameters.

Top layer reaches capacitor unit 3 and two post insulators 2 that have spandrel frame 4 to connect these layers every 1 layer, makes three posts become integral body, and framework 4 can adopt steel plate or section steel manufacture.The voltage that the top of high-pressure side is three layers is more than 252kV, and between two layers and three layers of top layer and close top, installing annular grading ring 1 is to reduce the generation of corona.The inside radius of grading ring 1 greater than framework 4 external radius of a circles and capacitor unit 3 radiuses and.The porcelain bushing caliber of the diameter of grading ring 1 and capacitor unit 3 is all determined according to electric Field Calculation, to suppress the generation of corona.The grading ring 1 of top layer is in same plane with the framework 4 of top layer and is connected.Framework 4 between grading ring 1 between two layers and three layers and two layers and three layers is in same plane, has three intercell connectors 8 to be connected between the grading ring 1 of each layer and the framework 4.

Total creepage distance of the porcelain bushing of this routine capacitor unit 3 is 43500 millimeters, and whole height is 15 meters.

Also can adopt 3 11 layers identical capacitor column, or adopt the insulator post of 2 11 layers identical capacitor column and 1 11 layers, its structure is identical with this example.

The porcelain bushing of capacitor unit 3 and post insulator 2 can be the big umbellule structures of anti-fouling type, or isometrical or waney dark rib type beveled structure.

The foregoing description is the specific case that the purpose of this utility model, technical scheme and beneficial effect are further described only, and the utility model is not to be defined in this.All any modifications of within scope of disclosure of the present utility model, being made, be equal to replacement, improvement etc., all be included within the protection range of the present utility model.

Claims (10)

1. high-voltage direct-current polar PLC capacitor, the capacitor unit (3) that comprises vertical pile, the fuse that capacitor element is formed by connecting (3-1) is arranged in porcelain bushing (3-3) and impregnated in the insulation impregnating agent and constitute capacitor unit (3), and grading resistor (3-2) is housed in the capacitor unit (3); 7 layers～30 layer capacitor unit (3) vertical pile become capacitor column, and high-voltage connection terminal (7) is drawn in the upper end, and low-voltage wiring terminal (6) is drawn in the lower end, it is characterized in that:

The insulator post that also has 27 layers～30 layers post insulators (2) vertical pile, perhaps 27 layers～30 layer capacitor unit (3) vertical pile becomes capacitor column, perhaps the insulator post of 17 layers～30 layers post insulator (2) vertical pile becomes capacitor column with 17 layers～30 layer capacitor unit (3) vertical pile, every layer height of three posts is identical, total height is also identical, pony sill (5) is fixed in three post bottoms, the line at three post centers forms triangle on the same level, top layer with every layer or every 1～3 layer of capacitor unit (3) and post insulator (2) that has framework (4) to be connected this layer.

2. high-voltage direct-current polar PLC capacitor according to claim 1 is characterized in that:

The voltage of described three posts at the top layer more than the 252kV with near more than 252kV 3～20 layers of the voltage on top in, every layer or every 1～3 layer of installing grading ring (1).

3. high-voltage direct-current polar PLC capacitor according to claim 1 and 2 is characterized in that:

The triangle that the three post lines of centres form on the described same level, the length on each limit is 2～10 times of capacitor unit (3) diameter, each angle is 30 °～90 °.

4. high-voltage direct-current polar PLC capacitor according to claim 3 is characterized in that:

The triangle that the described three post lines of centres form is an equilateral triangle.

5. high-voltage direct-current polar PLC capacitor according to claim 1 and 2 is characterized in that:

The diameter of described post insulator (2) is 0.4～1.1 times of capacitor unit (3) diameter.

6. high-voltage direct-current polar PLC capacitor according to claim 1 and 2 is characterized in that:

Described framework (4) is a triangle, and framework (4) is connected with post insulator (2) with the capacitor unit (3) of this layer.

7. high-voltage direct-current polar PLC capacitor according to claim 2 is characterized in that:

Described grading ring (1) is an annular, and grading ring (1) is in same plane, interconnects with the framework (4) of this layer.

8. high-voltage direct-current polar PLC capacitor according to claim 7 is characterized in that:

The inside radius of described grading ring (1) greater than external radius of a circle of framework (4) and capacitor unit radius (3) and, have at least three intercell connectors (8) to be connected between grading ring (1) and the framework (4).

9. high-voltage direct-current polar PLC capacitor according to claim 1 and 2 is characterized in that:

The porcelain bushing (3-3) of described capacitor unit (3) and post insulator (2) are the big umbellule structures of anti-fouling type.

10. high-voltage direct-current polar PLC capacitor according to claim 1 and 2 is characterized in that:

The porcelain bushing (3-3) of described capacitor unit (3) and post insulator (2) are isometrical or waney dark rib type beveled structures.

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