CN204241526U

CN204241526U - Compact closed gas insulation surge voltage generating means

Info

Publication number: CN204241526U
Application number: CN201420770303.7U
Authority: CN
Inventors: 王天正; 晋涛; 杨罡; 吴义华; 罗传仙; 凡勇; 杜思思; 房体友
Original assignee: State Grid Corp of China SGCC; Electric Power Research Institute of State Grid Shanxi Electric Power Co Ltd; Wuhan NARI Ltd
Current assignee: State Grid Corp of China SGCC; Electric Power Research Institute of State Grid Shanxi Electric Power Co Ltd; Wuhan NARI Ltd
Priority date: 2014-12-09
Filing date: 2014-12-09
Publication date: 2015-04-01
Anticipated expiration: 2024-12-09

Abstract

The utility model discloses a kind of compact closed gas insulation surge voltage generating means, it comprises charging device, harmonic device, it also comprises sealed insulation shell, frame-type insulating support, the first cluster parachute insulator, the second cluster parachute insulator, the 5th cluster parachute insulator, the multistage impulse voltage generator of gas-insulated be fixed on by frame-type insulating support in sealed insulation shell, described sealed insulation shell is provided with charge and discharge gas port, the described sealed insulation earthing of casing.The utility model effectively can reduce the volume and weight of device, can adapt to the site test of super extra-high voltage converting equipment.

Description

Compact closed gas insulation surge voltage generating means

Technical field

The utility model relates to high-voltage test and insulation technology field, is specifically related to a kind of compact closed gas insulation surge voltage generating means.

Background technology

In the prior art, impulse voltage generator generally adopts common open type, and impulse test voltage exports through high-voltage leading-out bushing and built on stilts bus.But this generating means is because the air adopting insulativity poor is as major insulation medium, and bulky, split transportation cost is higher, and field erected workload is large, is not easy to carrying out of the on-the-spot insulation characterisitic test of converting equipment.Because device is exposed in air, affect by the external environment such as air pressure and humiture comparatively large, easily break down.

Publication No. is the one " small-sized integrated steep pulse generating means " that the Chinese utility model patent of CN103308736A provides, propose a kind of technical scheme in view of the above problems, comprise fuel tank and be suspended to the oil immersed type impulse voltage generator of fuel tank internal by insulating support oblique pull.The program reduces the volume of device to a certain extent, but oil immersed type design also greatly adds the weight of test unit; And device adopts the capacitor of conventional single-ended outlet, and the insulation distance of end limits the electric pressure of capacitor body, cause ad eundem to impact the component numbers such as capacitor needed for generating means and increase, mounting complexity increases.

Utility model content

The purpose of this utility model to propose a kind of compact closed gas insulation surge voltage generating means, this device adopts high insulating property gas as major insulation medium, shorten interelectrode distance, reduce the requirement to the components and parts such as electric capacity and insulator creepage distance, thus effectively reduce the volume and weight of device, improve the insulating property of equipment simultaneously, the site test of super extra-high voltage converting equipment can be adapted to.

For realizing this object, a kind of compact closed gas insulation surge voltage generating means designed by the utility model, it comprises charging device, harmonic device, it also comprises sealed insulation shell, frame-type insulating support, first cluster parachute insulator, second cluster parachute insulator, 5th cluster parachute insulator, the multistage impulse voltage generator of gas-insulated in sealed insulation shell is fixed on by frame-type insulating support, wherein, the end face of the multistage impulse voltage generator of described gas-insulated and sealed insulation shell, all there is gap between bottom surface and side, the multistage impulse voltage generator of described gas-insulated comprises and being arranged side by side and the multistage impulse voltage generator be connected in series, the input end of first order impulse voltage generator connects the output terminal of charging device, the output terminal of afterbody impulse voltage generator connects the input end of harmonic device, the top of described sealed insulation shell is fixed with the first semicircle high-tension shielding insulating part, the bottom of sealed insulation shell is fixed with the second semicircle high-tension shielding insulating part, described first semicircle high-tension shielding insulating part is positioned at the top of afterbody impulse voltage generator, described second semicircle high-tension shielding insulating part is positioned at the below of afterbody impulse voltage generator, first cluster parachute insulator is set between the top of described sealed insulation shell and frame-type insulating support, second cluster parachute insulator is set between the bottom of sealed insulation shell and frame-type insulating support, described first cluster parachute insulator and the second cluster parachute insulator are all between afterbody impulse voltage generator and penultimate stage impulse voltage generator,

The side of described sealed insulation shell is towards first order impulse voltage generator, the another side of sealed insulation shell is to afterbody impulse voltage generator, arrange the 5th cluster parachute insulator between the top and bottom of described sealed insulation shell, described 5th cluster parachute insulator is between afterbody impulse voltage generator and the opposite side of sealed insulation shell;

Described sealed insulation shell is provided with charge and discharge gas port, the described sealed insulation earthing of casing.

The beneficial effects of the utility model are:

The utility model as major insulation medium, reduces the requirement to insulator creepage distance by insulating gas, significantly reduces the insulation distance between high-field electrode; Meanwhile, arrange and make ignition pill gap and electric capacity is seamless is arranged side by side, resistance, according to the distance adjusted design volume between ignition pill gap and electric capacity output terminal, is positioned over above ignition pill gap and electric capacity; Between every two-stage, according to minimized distance under gas-insulated intensity, be arranged in parallel compactly, (the gas-insulated form of the utility model design compares oil immersed type impulse voltage generator insulating forms to make the utility model while ensureing gas-insulated surge voltage generating means insulating property, significantly reduce the weight of equipment, weight obviously reduces), facilitate transport and the in-site installation of gas-insulated surge voltage generating means.

In addition, the frame-type insulating support of the utility model design, the first cluster parachute insulator, the second cluster parachute insulator, the 3rd cluster parachute insulator, the electric capacity (leading-out terminal of electric capacity is positioned at top and the bottom of electric capacity) of both-end outlet structure, the first semicircle high-tension shielding insulating part and the second semicircle high-tension shielding insulating part significantly improve the insulating property of equipment, make the utility model can adapt to the requirement surpassed, extra-high voltage converting equipment high-voltage impact is tested.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is side structure schematic diagram of the present utility model.

Fig. 3 is the backsight structural representation of Fig. 1 center posture insulating support and cluster parachute insulator portion.

Wherein, 1-charging device, 2-harmonic device, 3-sealed insulation shell, 4-frame-type insulating support, 4.1-the first horizontal stand, 4.2-the second horizontal stand, 4.3-the three horizontal stand, 4.4-the four horizontal stand, 4.5-the first vertical support frame, 4.6-the second vertical support frame, 4.7-the three vertical support frame, 4.8-the four vertical support frame, the multistage impulse voltage generator of 5-gas-insulated, 6-the first cluster parachute insulator, 6.1-the three cluster parachute insulator, 7-the second cluster parachute insulator, 7.1-the four cluster parachute insulator, 8-the five cluster parachute insulator, 9-the first semicircle high-tension shielding insulating part, 10-the second semicircle high-tension shielding insulating part, 11-charge and discharge gas port, 12-the first resistance, 13-ignition pill gap, 14-electric capacity, 15-the second resistance, 16-fixed insulation, 17-high-voltage terminal sleeve pipe, 18-shielding cap.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

The example that the utility model provides be a kind of integration, totally-enclosed, in fill the compact closed gas insulation surge voltage generating means of sulfur hexafluoride gas.The sulfur hexafluoride gas that this device adopts insulating property good is as major insulation medium, therefore, significantly can shorten the insulation distance between each device size and device, thus reduce the volume and weight impacting generating means, be conducive to the installation and handling etc. of test unit, improve the work efficiency of site test, reduce the requirement of experiment hall to installation space.

Fig. 1 ~ 3 are structural representations of the compact closed gas insulation surge voltage generating means of the utility model example, it comprises charging device 1, harmonic device 2, it also comprises sealed insulation shell 3, frame-type insulating support 4, first cluster parachute insulator 6, second cluster parachute insulator 7, 5th cluster parachute insulator 8, the multistage impulse voltage generator 5 of the gas-insulated be fixed in sealed insulation shell 3 by frame-type insulating support 4, wherein, the end face of the multistage impulse voltage generator 5 of described gas-insulated and sealed insulation shell 3, all there is gap between bottom surface and side, the multistage impulse voltage generator of described gas-insulated 5 comprises and being arranged side by side and the multistage impulse voltage generator be connected in series, the input end of first order impulse voltage generator connects the output terminal of charging device 1, the output terminal of afterbody impulse voltage generator connects the input end of harmonic device 2, the top of described sealed insulation shell 3 is fixed with the first semicircle high-tension shielding insulating part 9, the bottom of sealed insulation shell 3 is fixed with the second semicircle high-tension shielding insulating part 10, described first semicircle high-tension shielding insulating part 9 is positioned at the top of afterbody impulse voltage generator, described second semicircle high-tension shielding insulating part 10 is positioned at the below of afterbody impulse voltage generator, first cluster parachute insulator 6 is set between the top of described sealed insulation shell 3 and frame-type insulating support 4, second cluster parachute insulator 7 is set between the bottom of sealed insulation shell 3 and frame-type insulating support 4, described first cluster parachute insulator 6 and the second cluster parachute insulator 7 are all between afterbody impulse voltage generator and penultimate stage impulse voltage generator,

The side of described sealed insulation shell 3 is towards first order impulse voltage generator, the another side of sealed insulation shell 3 is to afterbody impulse voltage generator, arrange the 5th cluster parachute insulator 8 between the top and bottom of described sealed insulation shell 3, described 5th cluster parachute insulator 8 is between afterbody impulse voltage generator and the opposite side of sealed insulation shell 3;

Described sealed insulation shell 3 is provided with charge and discharge gas port 11, described sealed insulation shell 3 ground connection.

In technique scheme, the multistage impulse voltage generator of gas-insulated 5 is made up of level Four impulse voltage generator and the first resistance 12 be arranged between adjacent two-stage impulse voltage generator, described every grade of impulse voltage generator includes ignition pill gap 13, electric capacity 14 and the second resistance 15, wherein, ignition pill gap 13 one end of described first order impulse voltage generator connects charging device 1 output terminal, and ignition pill gap 13 other end of first order impulse voltage generator connects electric capacity 14 one end of first order impulse voltage generator by the second resistance 15;

Every grade of ignition pill gap 13 and electric capacity 14 is seamless is arranged side by side, the second resistance 15 designs according to the distance between ignition pill gap 13 and electric capacity 14 output terminal and adjusts volume, is positioned over above ignition pill gap 13 and electric capacity 14;

Ignition pill gap 13 one end of second level impulse voltage generator connects electric capacity 14 other end of first order impulse voltage generator by the first resistance 12, the other end of the ignition pill gap 13 of second level impulse voltage generator connects electric capacity 14 one end of second level impulse voltage generator by the second resistance 15;

Ignition pill gap 13 one end of third level impulse voltage generator connects electric capacity 14 other end of the second pole tension generator by the first resistance 12, the other end of the ignition pill gap 13 of third level impulse voltage generator connects electric capacity 14 one end of third level impulse voltage generator by the second resistance 15;

Ignition pill gap 13 one end of fourth stage impulse voltage generator connects electric capacity 14 other end of the 3rd pole tension generator by the first resistance 12, the other end of the ignition pill gap 13 of fourth stage impulse voltage generator connects electric capacity 14 one end of fourth stage impulse voltage generator by the second resistance 15;

The other end of the electric capacity 14 of fourth stage impulse voltage generator connects the input end of harmonic device 2.

In technique scheme, described frame-type insulating support 4 comprises the first horizontal stand 4.1, second horizontal stand 4.2, 3rd horizontal stand 4.3, 4th horizontal stand 4.4, first vertical support frame 4.5, second vertical support frame 4.6, 3rd vertical support frame 4.7, 4th vertical support frame 4.8, described first horizontal stand 4.1, second horizontal stand 4.2, between the side that 3rd horizontal stand 4.3 and the 4th horizontal stand 4.4 are all arranged on sealed insulation shell 3 and opposite side, described first horizontal stand 4.1 and the 3rd horizontal stand 4.3 are positioned in same level, described second horizontal stand 4.2 and the 4th horizontal stand 4.4 are positioned in same level, described second horizontal stand 4.2 is positioned at below the first horizontal stand 4.1, the first half of the multistage impulse voltage generator 5 of described gas-insulated is fixed between the first horizontal stand 4.1 and the 3rd horizontal stand 4.3, the latter half of the multistage impulse voltage generator 5 of gas-insulated is fixed between the second horizontal stand 4.2 and the 4th horizontal stand 4.4,

Described first vertical support frame 4.5, second vertical support frame 4.6, 3rd vertical support frame 4.7, between the end face that 4th vertical support frame 4.8 is all arranged on sealed insulation shell 3 and bottom surface, described first horizontal stand 4.1 with the second horizontal stand 4.2 is fixedly connected with the first vertical support frame 4.5 and the second vertical support frame 4.6, described first vertical support frame 4.5 and the 3rd vertical support frame 4.7 are between first order impulse voltage generator and second level impulse voltage generator, second vertical support frame 4.6 and the 4th vertical support frame 4.8 are between second level impulse voltage generator and tertiary voltage generator.

In technique scheme, the first cluster parachute insulator 6, second cluster parachute insulator 7 and each vertical support frame utilize the insulating space of capacitor at different levels and ignition pill gap to install, and effectively improve inner space utilization factor.

In technique scheme, described first resistance 12, second resistance 15, ignition pill gap 13 and electric capacity 14 have all carried out corners process;

A leading-out terminal of described ignition pill gap 13 is positioned at the top of ignition pill gap 13, and another leading-out terminal is positioned at the bottom of ignition pill gap 13;

A leading-out terminal of described electric capacity 14 is positioned at the top of electric capacity 14, and another leading-out terminal is positioned at the bottom of electric capacity 14;

Above-mentioned ignition pill gap 13 and electric capacity 14 adopt both-end outlet structure, their shell all adopts epoxy resin to build and forms, effectively improve the insulation distance between capacitor two ends, make surge voltage generating unit become symmetrical structure, avoid the Secondary Design of the insulation system of test unit.

Shielding cap 18 is all installed in electrical connection place in the multistage impulse voltage generator 5 of described gas-insulated.Effectively prevent the electric field distortion that device wedge angle causes, reduce the insulating property of SF6 gas.

In technique scheme, the 3rd cluster parachute insulator 6.1 is also provided with between described 3rd horizontal stand 4.3 and sealed insulation shell 3 top, also be provided with the 4th cluster parachute insulator 7.1 between bottom described 4th horizontal stand 4.4 and sealed insulation shell 3, described 3rd cluster parachute insulator 6.1 and the 4th cluster parachute insulator 7.1 are all between afterbody impulse voltage generator and penultimate stage impulse voltage generator.

In technique scheme, described first semicircle high-tension shielding insulating part 9 is fixed on the top of sealed insulation shell 3 by fixed insulation 16, and described second semicircle high-tension shielding insulating part 10 is fixed on the bottom of sealed insulation shell 3 by fixed insulation 16.Epoxy resin bolted is adopted to be connected between described frame-type insulating support 4 with the multistage impulse voltage generator 5 of gas-insulated.Avoid using metal device, effectively prevent the generation of floating potential.

In technique scheme, described first semicircle high-tension shielding insulating part 9 and the second semicircle high-tension shielding insulating part 10 are multi-layer insulating structure.The experimental formula E of the thickness foundation lightning impulse design voltage of the first semicircle high-tension shielding insulating part 9 and the second semicircle high-tension shielding insulating part 10 and high-voltage terminal sleeve pipe 17 _dt=75 (10p) ^0.75kV/cm determines, wherein p is air pressure (Mpa).Thus showing that air pressure be the sulfur hexafluoride gas of 0.4MPa is 212.1kV at the lightning impulse voltage of 1cm, this insulation system adopts four layers of layout.Namely ensure that the dielectric strength of high-voltage impact lower device, turn avoid the increase of test unit volume.

In technique scheme, the major insulation medium in described sealed insulation shell 3 is sulfur hexafluoride gas.Sulfur hexafluoride gas air pressure range in described sealed insulation shell 3 is 0.3 ~ 0.5MPa.The advantages such as it is little that sulfur hexafluoride gas has volume, lightweight.

In technique scheme, the opposite side of described sealed insulation shell 3 is provided with high-voltage terminal sleeve pipe 17, and the output terminal of described afterbody impulse voltage generator accesses the input end connecting harmonic device 2 through high-voltage terminal sleeve pipe 17.

The utensil that above-mentioned gas insulate in multistage impulse voltage generator 5 adopts horizontal connection side by side, reduce further the volume of equipment, makes equipment not need to carry out dismounting in transportation, reduce field erected difficulty.

In technique scheme, electric capacity 14 adopts high density energy storage technology to design, and improves capacitor unit energy storage capacity, from the volume and weight reducing capacitor itself at all, thus reduces the overall volume of test unit.

In technique scheme, ignition pill gap 13 adopts closed gas insulation system, and before installing, each ignition pill gap 13 parallel connection inflation, ensures that the air pressure in each ignition pill gap is identical, and each portfire is all furnished with igniting Triggering Control System, to ensure consistance and the synchronism of ball gap ignition discharge.

In technique scheme, area of low pressure of the present utility model adopts vertically insulated support, and this insulating support is the high-strength insulating support adopting poured with epoxy resin, is connected and fixed by rack mounting apertures and insulation crust; High-pressure area of the present utility model (namely after third level impulse voltage generator) adopts cluster parachute insulator to support, and these insulator cluster parachute number, umbrella spacing, full skirt thickness etc. are determined according to the insulating requirements of reality.

In technique scheme, adjustable in order to realize gas-insulated surge voltage generating unit output pulse waveform, is furnished with harmonic device 2, harmonic device 2 inside is provided with by the series-parallel wave regulating resistor of ball gap, the series parallel structure of ball gap switching adjustment interior section resistance can be controlled, regulating resistance size, realizes waveform adjustment.If (enclosed by switch on-off or replacing resistance of uncapping; If open directly can change resistance.)

In technique scheme, charging device 1 is arranged on sealed insulation shell 3 side by flange, and harmonic device 2 is arranged on sealed insulation shell 3 opposite side by flange.

Above-mentioned example disclosed in the utility model is compared with the tower impulse voltage generator of tradition, the sulfur hexafluoride gas that this device adopts insulating property good is as major insulation medium, therefore, significantly can shorten the insulation distance between each device size and device, thus reduce the volume and weight impacting generating means, be conducive to the installation and handling etc. of test unit, improve the work efficiency of site test, reduce the requirement of experiment hall to installation space.

The content that this instructions is not described in detail belongs to the known prior art of professional and technical personnel in the field.

Claims

1. a compact closed gas insulation surge voltage generating means, it comprises charging device (1), harmonic device (2), it is characterized in that: it also comprises sealed insulation shell (3), frame-type insulating support (4), first cluster parachute insulator (6), second cluster parachute insulator (7), 5th cluster parachute insulator (8), the multistage impulse voltage generator of gas-insulated (5) in sealed insulation shell (3) is fixed on by frame-type insulating support (4), wherein, the end face of the multistage impulse voltage generator of described gas-insulated (5) and sealed insulation shell (3), all there is gap between bottom surface and side, the multistage impulse voltage generator of described gas-insulated (5) comprises and being arranged side by side and the multistage impulse voltage generator be connected in series, the input end of first order impulse voltage generator connects the output terminal of charging device (1), the output terminal of afterbody impulse voltage generator connects the input end of harmonic device (2), the top of described sealed insulation shell (3) is fixed with the first semicircle high-tension shielding insulating part (9), the bottom of sealed insulation shell (3) is fixed with the second semicircle high-tension shielding insulating part (10), described first semicircle high-tension shielding insulating part (9) is positioned at the top of afterbody impulse voltage generator, described second semicircle high-tension shielding insulating part (10) is positioned at the below of afterbody impulse voltage generator, first cluster parachute insulator (6) is set between the top of described sealed insulation shell (3) and frame-type insulating support (4), second cluster parachute insulator (7) is set between the bottom of sealed insulation shell (3) and frame-type insulating support (4), described first cluster parachute insulator (6) and the second cluster parachute insulator (7) are all between afterbody impulse voltage generator and penultimate stage impulse voltage generator,

The side of described sealed insulation shell (3) is towards first order impulse voltage generator, the another side of sealed insulation shell (3) is to afterbody impulse voltage generator, arrange the 5th cluster parachute insulator (8) between the top and bottom of described sealed insulation shell (3), described 5th cluster parachute insulator (8) is positioned between the opposite side of afterbody impulse voltage generator and sealed insulation shell (3);

Described sealed insulation shell (3) is provided with charge and discharge gas port (11), described sealed insulation shell (3) ground connection.

2. compact closed gas insulation surge voltage generating means according to claim 1, it is characterized in that: the multistage impulse voltage generator of gas-insulated (5) is made up of level Four impulse voltage generator and the first resistance (12) be arranged between adjacent two-stage impulse voltage generator, every grade of described impulse voltage generator includes ignition pill gap (13), electric capacity (14) and the second resistance (15), wherein, ignition pill gap (13) one end of described first order impulse voltage generator connects charging device (1) output terminal, ignition pill gap (13) other end of first order impulse voltage generator connects electric capacity (14) one end of first order impulse voltage generator by the second resistance (15),

Ignition pill gap (13) one end of second level impulse voltage generator connects electric capacity (14) other end of first order impulse voltage generator by the first resistance (12), the other end of the ignition pill gap (13) of second level impulse voltage generator connects electric capacity (14) one end of second level impulse voltage generator by the second resistance (15);

Ignition pill gap (13) one end of third level impulse voltage generator connects electric capacity (14) other end of the second pole tension generator by the first resistance (12), the other end of the ignition pill gap (13) of third level impulse voltage generator connects electric capacity (14) one end of third level impulse voltage generator by the second resistance (15);

Ignition pill gap (13) one end of fourth stage impulse voltage generator connects electric capacity (14) other end of the 3rd pole tension generator by the first resistance (12), the other end of the ignition pill gap (13) of fourth stage impulse voltage generator connects electric capacity (14) one end of fourth stage impulse voltage generator by the second resistance (15);

The other end of the electric capacity (14) of fourth stage impulse voltage generator connects the input end of harmonic device (2).

3. compact closed gas insulation surge voltage generating means according to claim 2, it is characterized in that: described frame-type insulating support (4) comprises the first horizontal stand (4.1), second horizontal stand (4.2), 3rd horizontal stand (4.3), 4th horizontal stand (4.4), first vertical support frame (4.5), second vertical support frame (4.6), 3rd vertical support frame (4.7), 4th vertical support frame (4.8), described first horizontal stand (4.1), second horizontal stand (4.2), between the side that 3rd horizontal stand (4.3) and the 4th horizontal stand (4.4) are all arranged on sealed insulation shell (3) and opposite side, described first horizontal stand (4.1) and the 3rd horizontal stand (4.3) are positioned in same level, described second horizontal stand (4.2) and the 4th horizontal stand (4.4) are positioned in same level, described second horizontal stand (4.2) is positioned at the first horizontal stand (4.1) below, the first half of the multistage impulse voltage generator of described gas-insulated (5) is fixed between the first horizontal stand (4.1) and the 3rd horizontal stand (4.3), the latter half of the multistage impulse voltage generator of gas-insulated (5) is fixed between the second horizontal stand (4.2) and the 4th horizontal stand (4.4),

Described first vertical support frame (4.5), second vertical support frame (4.6), 3rd vertical support frame (4.7), between the end face that 4th vertical support frame (4.8) is all arranged on sealed insulation shell (3) and bottom surface, described first horizontal stand (4.1) with the second horizontal stand (4.2) is fixedly connected with the first vertical support frame (4.5) and the second vertical support frame (4.6), described first vertical support frame (4.5) and the 3rd vertical support frame (4.7) are between first order impulse voltage generator and second level impulse voltage generator, second vertical support frame (4.6) and the 4th vertical support frame (4.8) are between second level impulse voltage generator and tertiary voltage generator.

4. compact closed gas insulation surge voltage generating means according to claim 2, is characterized in that: described first resistance (12), the second resistance (15), ignition pill gap (13) and electric capacity (14) have all carried out corners process;

A leading-out terminal of described electric capacity (14) is positioned at the top of electric capacity (14), and another leading-out terminal is positioned at the bottom of electric capacity (14);

A leading-out terminal of described ignition pill gap (13) is positioned at the top of ignition pill gap (13), and another leading-out terminal is positioned at the bottom of ignition pill gap (13);

Shielding cap (18) is all installed in electrical connection place in the multistage impulse voltage generator of described gas-insulated (5).

5. compact closed gas insulation surge voltage generating means according to claim 3, it is characterized in that: between described 3rd horizontal stand (4.3) and sealed insulation shell (3) top, be also provided with the 3rd cluster parachute insulator (6.1), the 4th cluster parachute insulator (7.1) is also provided with between described 4th horizontal stand (4.4) and sealed insulation shell (3) bottom, described 3rd cluster parachute insulator (6.1) and the 4th cluster parachute insulator (7.1) are all between afterbody impulse voltage generator and penultimate stage impulse voltage generator.

6. compact closed gas insulation surge voltage generating means according to claim 1, it is characterized in that: described first semicircle high-tension shielding insulating part (9) is fixed on the top of sealed insulation shell (3) by fixed insulation (16), described second semicircle high-tension shielding insulating part (10) is fixed on the bottom of sealed insulation shell (3) by fixed insulation (16);

Described frame-type insulating support (4) adopts epoxy resin bolted to be connected with between the multistage impulse voltage generator of gas-insulated (5).

7. compact closed gas insulation surge voltage generating means according to claim 1, is characterized in that: described first semicircle high-tension shielding insulating part (9) and the second semicircle high-tension shielding insulating part (10) are multi-layer insulating structure.

8. compact closed gas insulation surge voltage generating means according to claim 1, is characterized in that: the major insulation medium in described sealed insulation shell (3) is sulfur hexafluoride gas.

9. compact closed gas insulation surge voltage generating means according to claim 8, is characterized in that: the sulfur hexafluoride gas air pressure range in described sealed insulation shell (3) is 0.3 ~ 0.5MPa.

10. compact closed gas insulation surge voltage generating means according to claim 1, it is characterized in that: the opposite side of described sealed insulation shell (3) is provided with high-voltage terminal sleeve pipe (17), the output terminal of described afterbody impulse voltage generator connects the input end of harmonic device (2) through high-voltage terminal sleeve pipe (17) access.