CN201368894Y - Sensor for measuring GIS internal very fast transient over-voltage - Google Patents
Sensor for measuring GIS internal very fast transient over-voltage Download PDFInfo
- Publication number
- CN201368894Y CN201368894Y CNU2008202284845U CN200820228484U CN201368894Y CN 201368894 Y CN201368894 Y CN 201368894Y CN U2008202284845 U CNU2008202284845 U CN U2008202284845U CN 200820228484 U CN200820228484 U CN 200820228484U CN 201368894 Y CN201368894 Y CN 201368894Y
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- dividing plate
- fast transient
- axle
- gis
- housing
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Abstract
The utility model discloses a sensor for measuring GIS internal very fast transient over-voltage, which comprises a spindle (4) and a hollow shell (1), wherein an internal sleeve (2) is matched with the shell (1) in a sliding way, and an annular partition plate (3) is arranged in the middle of the internal sleeve (2); annular capacitors (7) are arranged at the two sides of the partition plate (3), and the spindle (4) penetrates the partition plate (3) and clamps and fixes the capacitors (7) at the two sides of the partition plate (3); a compacting cover (5) which props against the internal sleeve (2) is arranged at one end of the shell (1), and a lead joint (6) is arranged at the center of the compacting cover (5); the core wire of the lead joint (6) is contacted with one end of the spindle (4), and the other end of the spindle (4) extends out of the shell (1) in a non-contact way; and the negative electrodes of the capacitors (7) at the two sides of the partition plate (3) are electronically connected with the ground through the partition plate (3), the internal sleeve (2) and the shell (1), and the positive electrodes of the capacitors (7) are electronically connected with the spindle (4).
Description
Technical field
The utility model belongs to high voltage power transmission and transformation field of measuring technique, relates to the in-site measurement of the inner very fast transient overvoltage of high voltage substation GIS (hereinafter to be referred as VFTO), is specially the inner very fast transient overvoltage measurement of a kind of GIS sensor.
Background technology
GIS (Gas Insulated Switchgear) especially obtains increasingly extensive application at energy development and urban distribution network that recent two decades comes in the construction of UHV (ultra-high voltage) and extra-high voltage engineering.But, along with the platform number of GIS input coefficient operation increases the problems such as disc insulator flashover, conducting rod junction local overheating, gas leakage that constantly occur in service.In many accidents, the very fast transient overvoltage that the routine operation of disconnector, isolating switch and other reasons cause causes people's extensive concern.The electrical equipment accident of the high voltage grade that is caused by its has surpassed the accident rate under lightning impulse and the switching impulse, it should be noted that especially lightning arrester is very limited to the limitation capability of VFTO, almost few of protective effect.During in October, 2008 750kV official's booth and Xining system debug, flashover has taken place twice during one section aircraft carrier line of official's booth transformer station 750kV isolating switch switching, flashover has also taken place one time in the 750kV isolating switch in Xining in debug process, and withstand voltagely in special commissioning test before this once passes through.By the analysis of these three accidents, think in the breaker operator process, to produce VFTO and cause flashover.
Because in GIS internal isolating switch and breaker operator and the disruptive discharge process, the superpotential that voltage falls the stack formation of capable wave reflection of the step voltage that is produced and refraction voltage rapidly is called very fast transient overvoltage, and being defined as Very Fast Front TransientOver-Voltage (VFTO) in the IEC1321-1 literary composition is very-fast-front overvoltage.Can be divided into inner VFTO, outside VFTO and transient state shell earth potential is raised (TEV) three kinds by its impact effect.The very fast transient overvoltage waveform depends on the inner structure of GIS and the configuration of external unit, and the waveform of the inside and outside every bit of GIS all is inequality, and marked change will take place the following 1 meter distance of some situation.Frequency range reaches as high as the 100M hertz, and amplitude can be the 1.0pu~2.5pu of system voltage, even higher, and the insulation of the inside and outside equipment of GIS (as transformer) is threatened.
Response frequency and on-the-spot technical barriers such as antijamming capability owing to sensor can't finely solve at present, therefore can't accurately carry out in-site measurement, can only obtain the level of VFTO by simulation calculation, but also there are bigger difference in simulation calculation and actual conditions.At the scene in the operational process by the restriction isolation knife some operate the generation that prevents VFTO, but along with increasing of outlet, rely on the operability of this mode just more and more to be restricted, therefore, the measurement of accurately carrying out VFTO among the on-the-spot GIS is just more and more urgent.
The utility model content
At above-mentioned technical matters, the purpose of this utility model is to provide the inner very fast transient overvoltage of a kind of GIS to measure and uses sensor, the inside VFTO that can carry out on-the-spot GIS accurately surveys, frequency response range is wide, can prevent the influence of extraneous high frequency interference, inner VFTO amplitude of the on-the-spot GIS of convenient understanding and frequency level are checked its simulation calculation result, improve Simulation Calculation.
In order to achieve the above object, the utility model is achieved by the following technical solutions: the inner very fast transient overvoltage of a kind of GIS is measured and is used sensor, it is characterized in that, comprise: axle, hollow housing, be sliding combined with interior cover in the housing, the cover middle part is provided with the dividing plate of ring-type in described, the dividing plate both sides are respectively arranged with the electric capacity of ring-type, described axle runs through dividing plate and the electric capacity of dividing plate both sides that is fixedly clamped, the friction top of cover in an end of described housing is provided with and compresses, and the gland center is provided with pigtail splice, one end in contact of the heart yearn of pigtail splice and axle, the other end of axle is contactless to stretch out described housing; The negative pole of the electric capacity of dividing plate both sides by dividing plate, interior cover, housing be electrically connected, its positive pole is electrically connected with axle.
Further characteristics of the present utility model are:
Described housing, interior cover, dividing plate, axle, friction top all adopt copper or aluminum to make.
The profile of described housing is a column, with GIS by being threaded.
Described friction top and housing are by being threaded.
Described pigtail splice and friction top are by being threaded.
Described axle middle part is provided with a boss, cooperates the electric capacity of the dividing plate both sides that are fixedly clamped with a nut.
The positive pole of described electric capacity, negative pole are the annulus that has flange, and anodal annular radii is greater than the negative pole annulus.
The medium of described electric capacity is a stupalith.
Sensor of the present utility model adopts the high frequency response capacity cell, and the whole coaxial configuration that adopts has been avoided the influence of measuring lead wire inductance; Overcoat adopts the full-shield syndeton, has avoided the influence of extraneous high frequency interference.Make the frequency response of the sensor of measuring the inner VFTO of GIS and the measurement requirement that anti-high frequency interference has reached the IEC standard code.
Description of drawings
Fig. 1 is the inner very fast transient overvoltage measurement of an a kind of GIS sensor construction synoptic diagram.
Embodiment
With reference to Fig. 1, the inner very fast transient overvoltage of GIS is measured and is mainly comprised with sensor: housing 1, interior cover 2, dividing plate 3, axle 4, friction top 5, pigtail splice 6.Housing 1 profile is for leaning on shape, and inner hollow overlaps 2 in being sliding combined with in the housing 1, and interior cover 2 middle parts are provided with the dividing plate 3 of ring-type, and dividing plate 3 both sides are respectively arranged with the electric capacity 7 of ring-type.The positive pole of electric capacity 7, negative pole are the annulus that has flange, and anodal annular radii is greater than the negative pole annulus, and intermediate medium is a stupalith.
GIS producer is when producing, and VFTO measurement terminal 9 is cured on GIS end cap or the disc insulator 8, has distributed capacitance between GIS conducting rod and the VFTO measurement terminal 9, non-measurement state, VFTO measurement terminal 9 and GIS end cap or disc insulator 8 ground connection that is electrically connected; The measurement state, need axle 4 to compress VFTO measurement terminal 9, VFTO measurement terminal 9 is unsettled over the ground, be electrically connected with axle 4, the distributed capacitance that exists between GIS conducting rod and the VFTO measurement terminal 9 is as high-voltage capacitance, electric capacity 7 backs in parallel of dividing plate 3 both sides are as low-voltage capacitance, and axle 4 is VFTO voltage in the GIS by the voltage of pigtail splice 6 outputs.Specific practice is: the axle 4 contactless external parts of housing 1 are provided with the external thread that is connected with GIS, screw housing 1, and axle 4 compresses VFTO measurement terminal 9, and VFTO measurement terminal 9 is unsettled over the ground, and axle 4 is as the dividing potential drop measurement point.
The medium of the electric capacity 7 of the utility model dividing plate 3 both sides is a stupalith, and capacitance swing is between several PF to tens PF; Whole sensor adopts coaxial configuration, no lead-in inductance influence, its frequency response range is 50Hz-100MHz, flatness is in ± 1db, the 50Hz-20MHz frequency response range that is higher than like product far away can satisfy the inner very fast transient overvoltage of GIS of 110KV-1000KV grade and measure.
Claims (8)
1, the inner very fast transient overvoltage of a kind of GIS is measured and is used sensor, it is characterized in that, comprise: axle (4), hollow housing (1), be sliding combined with interior cover (2) in the housing (1), cover (2) middle part is provided with the dividing plate (3) of ring-type in described, dividing plate (3) both sides are respectively arranged with the electric capacity (7) of ring-type, described axle (4) runs through the electric capacity (7) of dividing plate (3) and the dividing plate that is fixedly clamped (3) both sides, one end of described housing (1) is provided with the friction top (5) that compresses interior cover (2), friction top (5) center is provided with pigtail splice (6), one end in contact of the heart yearn of pigtail splice (6) and axle (4), the contactless described housing (1) that stretches out of the other end of axle (4); The negative pole of the electric capacity (7) of dividing plate (3) both sides by dividing plate (3), interior cover (2), housing (1) be electrically connected, its positive pole is electrically connected with axle (4).
2, the inner very fast transient overvoltage of a kind of GIS according to claim 1 is measured and is used sensor, it is characterized in that described housing (1), interior cover (2), dividing plate (3), axle (4), friction top (5) all adopt copper or aluminum to make.
3, the inner very fast transient overvoltage of a kind of GIS according to claim 1 is measured and is used sensor, it is characterized in that the profile of described housing (1) is a column, with GIS by being threaded.
4, the inner very fast transient overvoltage of a kind of GIS according to claim 1 is measured and is used sensor, it is characterized in that, described friction top (5) and housing (1) are by being threaded.
5, the inner very fast transient overvoltage of a kind of GIS according to claim 1 is measured and is used sensor, it is characterized in that, described pigtail splice (6) and friction top (5) are by being threaded.
6, the inner very fast transient overvoltage of a kind of GIS according to claim 1 is measured and is used sensor, it is characterized in that, described axle (4) middle part is provided with a boss (401), cooperates the electric capacity (7) of the dividing plate both sides that are fixedly clamped with a nut (402).
7, the inner very fast transient overvoltage of a kind of GIS according to claim 1 is measured and is used sensor, it is characterized in that positive pole, the negative pole of described electric capacity (7) are the annulus that has flange, and anodal annular radii is greater than the negative pole annulus.
8, the inner very fast transient overvoltage of a kind of GIS according to claim 1 is measured and is used sensor, it is characterized in that the medium of described electric capacity (7) is a stupalith.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2008202284845U CN201368894Y (en) | 2008-12-26 | 2008-12-26 | Sensor for measuring GIS internal very fast transient over-voltage |
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Application Number | Priority Date | Filing Date | Title |
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CNU2008202284845U CN201368894Y (en) | 2008-12-26 | 2008-12-26 | Sensor for measuring GIS internal very fast transient over-voltage |
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CN201368894Y true CN201368894Y (en) | 2009-12-23 |
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CNU2008202284845U Expired - Lifetime CN201368894Y (en) | 2008-12-26 | 2008-12-26 | Sensor for measuring GIS internal very fast transient over-voltage |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101458273B (en) * | 2008-12-26 | 2011-03-23 | 西北电网有限公司 | Sensor for measuring very fast transient overvoltage in GIS |
CN107907806A (en) * | 2017-12-13 | 2018-04-13 | 国网四川省电力公司电力科学研究院 | A kind of bus voltage measurement device based on GIS disc insulator distribution capacity |
-
2008
- 2008-12-26 CN CNU2008202284845U patent/CN201368894Y/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101458273B (en) * | 2008-12-26 | 2011-03-23 | 西北电网有限公司 | Sensor for measuring very fast transient overvoltage in GIS |
CN107907806A (en) * | 2017-12-13 | 2018-04-13 | 国网四川省电力公司电力科学研究院 | A kind of bus voltage measurement device based on GIS disc insulator distribution capacity |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term | ||
CX01 | Expiry of patent term |
Granted publication date: 20091223 |