CN203502582U - GIS electronic transformer test system based on disconnecting switch switching-on and switching-off capacitive small current - Google Patents

Abstract

A GIS electronic transformer test system based on disconnecting switch switching-on and switching-off capacitive small current comprises a high-voltage test transformer and a capacitive voltage divider connected on a BSG sleeve, a load capacitor on the other BSG sleeve, a disconnecting switch between the two sleeves, calibrating primary transient state test system and an electronic transformer to be tested, one end of a secondary converter is connected with the electronic transformer to be tested, the other end is connected with a merging unit, and the other end of the merging unit is connected with a fault recorder. Voltage values and current valves on a high voltage bus are tested when the disconnecting switch is switched on and switched off, thereby being compared with output of the electronic transformer to be tested. Through the test system, electromagnetic environments of 110KV, 220KV, and 500KV voltage classes in power transmission and power cut-off processes can be simulated, the process of the field disconnecting switch switching on and switching off an empty lead and a capacitive small current load is simulated, analogous field transient state strong interference is generated, and the electromagnetic protective performance of the electronic transformer is examined under such conditions.

Description

GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive

Technical field

The utility model relates to a kind of test macro of GIS electric mutual inductor, concrete, relates to a kind of GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive.

Background technology

Along with the construction of intelligent grid, in intelligent grid, used widely electric mutual inductor.The strategic objective of " building unified strong intelligent grid " that State Grid Corporation of China's science and technology development planning proposes, the quality and performance to electric mutual inductor product, product reliability of operation, stability and degree of accuracy are had higher requirement.And wherein electromagnetic interference (EMI) is a key factor that affects electric mutual inductor reliability and stability.

For the detection of electric mutual inductor electromagnetic compatibility, be familiar with and also rest on the basis of existing standard at present both at home and abroad, its pilot project and technical requirement can not meet the actual needs of the electronic equipment moving in voltage levels completely.The application time of domestic electric mutual inductor is not long, and it is also very not remarkable that the problem of its electromagnetic compatibility exposes, but due to the vital role of electric mutual inductor in electric system, payes attention to electromagnetic compatibility problem just very necessary.

From type, characteristic and its interference and coupling path to electric mutual inductor of the common electromagnetic interference (EMI) of transformer station, can find out, in substation, the reason that electric mutual inductor is easily disturbed is mainly because its equipment more approaches primary circuit, under the condition of switching manipulation, system short-circuit, by direct conduction and electromagnetic field couples, be more easily interfered, and its layout, merge cells and supply module thereof are also very easy to produce interference by the reason of electromagnetic radiation or Ground Electric Potential Rise.And the interference level that the intensity of these interference is stipulated considerably beyond current electromagnetic compatibility standard, this is also that current electric mutual inductor has passed through EMC test, occurs at the scene the main cause of electromagnetic protection fault.In order thoroughly to verify that at the scene under condition, electric mutual inductor resists strongly disturbing ability, just must adopt and the immediate test method of actual conditions is verified.Need to study and propose a kind of EMC test method of satisfied on-the-spot electromagnetic protection requirement for this reason, to improve the barrier propterty of electric mutual inductor, reduce the failure rate of electromagnetic protection.

Utility model content

The purpose of this utility model is to propose the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive, make it possible to the various electromagnetic radiation that simulation system is subject to, meet the EMC test of on-the-spot electromagnetic protection requirement one time, to improve the barrier propterty of electric mutual inductor, reduce the failure rate of electromagnetic protection.

For reaching this object, the utility model by the following technical solutions:

A GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive, comprising:

Comprise two sleeve pipes, between two sleeve pipes, there is GIS pipeline, wherein a described sleeve pipe is power supply sleeve pipe, described power supply sleeve pipe is connecting the HT testing transformer that is connected in parallel to each other and for the protection of the capacitive divider of power supply, described capacitive divider is in order to reduce the resonance effect causing because of higher source impedance, described in another root, sleeve pipe is load sleeve, and described load sleeve is connecting load capacitance, near in the GIS pipeline of described power supply sleeve pipe, has the first disconnector;

It is characterized in that:

Between described the first disconnector and described load sleeve, there is transient test system of the first calibration, the first electric mutual inductor to be measured, the second electronic type voltage transformer to be measured and a transient voltage test macro of the second calibration;

Wherein, described the first electric mutual inductor to be measured is near described the first disconnector, and described the second electronic type voltage transformer to be measured is near described load sleeve, and the first electric mutual inductor to be measured is electronic current mutual inductor, or electronic current-voltage combination transformer,

Transient test system of described the first calibration arranges the contiguous of the first electric mutual inductor to be measured, for the combination of transient current test macro corresponding to described the first electric mutual inductor to be measured or transient voltage and current detecting system, transient voltage test macro of described the second calibration arranges the contiguous of the second electronic type voltage transformer to be measured;

Secondary converter one end connects described mutual inductor to be measured, and the other end connects merge cells, and the other end of described merge cells connects fault oscillograph, and described fault oscillograph is for connecting the output of merge cells.

Preferred:

Between described the first electric mutual inductor to be measured and described the second electronic type voltage transformer to be measured, also there is the second disconnector.

Preferred:

Described GIS pipeline length is adjustable, and the bottom of described power supply sleeve pipe has the slide rail that flexible described GIS pipeline is used, and described slide rail can horizontally slip.

Preferred:

Described the first and second disconnectores deciliter the little current values of capacitive be 0.1～0.8A.

Preferred:

The output current of described HT testing transformer is 2A; Described the first and second disconnectores are joined electric operating mechanism, alternating current 220V operating power.

Preferred:

Described GIS Near Pipelines is provided with the empty cabinet of remittance, and described secondary converter and described merge cells are all placed in the empty cabinet of described remittance.

Preferred:

A described transient current test macro comprises Transient Transformer one time, a described transient voltage test macro comprises transient voltage sensor one time, high-speed collection card and measurement host computer, described high-speed collection card 3 gathers respectively the output of a described Transient Transformer and a described transient voltage sensor, and is transferred to measurement host computer by data transfer mode.

Preferred:

A described transient voltage sensor is hand hole formula voltage sensor, described hand hole formula voltage sensor comprises the induction electrode that is installed on GIS hand hole inside, hand hole cover plate and between described induction electrode and described hand hole cover plate insulation film, between described induction electrode and described hand hole cover plate, accompany the low-voltage arm electric capacity that insulation film described in one deck forms voltage divider, between described induction electrode and high voltage bus, form high-voltage arm electric capacity, form capacitive divider, measure the transient overvoltage between described high voltage bus and GIS shell;

A described Transient Transformer is used air core coil, described air core coil is enclosed within to described high voltage bus current measurement place and measures;

The mouth that pulls out at GIS is provided with shielded box, and described high-speed collection card, triggering system, optical fibre control system and the power supply thereof of described test macro are placed in described shielded box.

Therefore, according to the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive of the present utility model, magnitude of voltage and the current value of GIS pipeline mesohigh bus during the folding of test disconnector, thus compare with the output of test product to be measured.Like this, can build 110KV, 220KV, the little current test loop of 500KV disconnector deciliter capacitive in testing laboratory, simultaneously by electric mutual inductor series connection access test loop, the little current capacity process of simulated field disconnector folding hollow wire and capacitive, produce similar on-the-spot transient state strong jamming, the electromagnetic protection performance of examination electric mutual inductor under this condition.This test platform can be used for 110KV, 220KV, the electromagnetic environment of 500KV electric pressure in power transmission and power process.

Accompanying drawing explanation

Fig. 1 is the GIS pipeline installation dimension figure of the 220KV based on the utility model embodiment;

Fig. 2 is the 220KV test circuit figure based on the utility model embodiment;

Fig. 3 is the 220KV test arrangement figure based on the utility model embodiment;

Fig. 4 is the hand hole formula voltage sensor structural drawing based on the utility model embodiment;

Fig. 5 is the transient voltage sensor fixing structure figure of GIS pipeline based on the utility model embodiment;

Fig. 6 is the Transient Transformer mounting structure figure of GIS pipeline based on the utility model embodiment;

What the Reference numeral in figure referred to respectively is:

101, a transient test system of the first calibration; 102, the first electric mutual inductor to be measured; 103, the second electronic type voltage transformer to be measured; 104, a transient voltage test macro of the second calibration; 105, power supply sleeve pipe; 106, load sleeve; 110, secondary converter; 111, merge cells; 112, fault recorded broadcast instrument; 113, high-speed collection card; 114, measure host computer; 201, high voltage bus; 202, induction electrode; 203, insulation film; 204, hand hole cover plate; 205, hand hole; 206, GIS housing; 301, shielded box; 302, accumulator; 303, inverter; 1, be position 1; 2, be position 2; 3, be position 3; 4, be position 4.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.Be understandable that, specific embodiment described herein is only for explaining the utility model, but not to restriction of the present utility model.It also should be noted that, for convenience of description, in accompanying drawing, only show the part relevant to the utility model but not entire infrastructure.

Transformer station's electromagnetic environment mainly comprises in several situations such as disconnector and breaker operator, thunder and lightning and system short-circuit, the strong electromagnetic phenomenon causing in transformer station.

Test method for the lightning impulse test carrying out in testing laboratory as examination electric mutual inductor anti-electromagnetic interference capability, but consider energy and the whole test deployment scenarios of artificial lightning impulse test, the lightning impulse test carrying out in testing laboratory is poor larger frequently along the condition of lightning rod electric discharge in transformer station with real thunder and lightning, is first that amplitude of lightning current, the energy of artificial condition Imitating is all obviously weaker than reality; Next is that in artificial test, layout and the reality of the equipment of participating in the experiment are not obviously inconsistent.Therefore artificial Lightning Test completely simulated field is actual, and its test effect can be not very good.

Also there is Similar Problems in artificial earthing's test of carrying out in testing laboratory, its greatest drawback is that manual simulation's condition and the actual conditions difference of short-circuit current is large, its amplitude, duration etc. are obviously weaker than actual conditions, therefore under artificial earthing's test condition, also insufficient to the examination of electric mutual inductor antijamming capability.True type artificial earthing's test that Ruo transformer station carries out 1:1 can provide reasonable test condition, and so that the examination to electric mutual inductor to be provided, but the danger of this kind of test is large, and the interior most weak current equipment of standing is had to strong interference.Test may cause other unnecessary loss or leave hidden danger, thereby transformer station is normally moved and has certain harm in the future, therefore in electric system, seldom similarly tests.

Therefore all there is obvious defect in artificial lightning impulse and artificial earthing's test.By theoretical analysis and practical experience, the operation of on-the-spot disconnector can produce stronger electromagnetic interference (EMI), and the feature of disconnector interference source is as follows:

1) in primary circuit, produce superpotential, amplitude range 1.0p.u. ~ 2.8p.u.;

2) in primary circuit, produce high-frequency pulse current, amplitude range is in several kilo-amperes;

3) primary voltage power frequency wide ranges, 50Hz ~ 100MHz;

4) harassing and wrecking the duration long, 200ms ~ several seconds;

5) arc through-extinguish discharge time is many, and hundreds of is to thousands of times;

6) produce electromagnetic radiation;

7) produce shell potential rise, amplitude range, several kilovolts to tens kilovolts.

Therefore known, disconnector interference source is a kind of high-intensity interference source, if for checking the electromagnetic compatibility test of electric mutual inductor, can examine to greatest extent the electromagnetic protection performance of electric mutual inductor.Disconnector is in deciliter capacitor process, in single test loop, will produce repeatedly arc through and extinguish transient state process, this transient state process will produce multiple pulses electric current, transient overvoltage and pulsed magnetic field, utilize normal voltage in primary circuit and numerical value the record of normalized current sensor measurement primary voltage electric current, record tested electric mutual inductor in output valve after merge cells simultaneously, according to the primary voltage measuring, the duty of electric mutual inductor in whole process of the test compared and observed to the output characteristics of current waveform numerical value and tested electric mutual inductor, just can differentiate the electromagnetism interference free performance of tested electric mutual inductor.

Embodiment 1:

In the present embodiment, the GIS pipeline of 220KV of take is example, introduces GIS electric mutual inductor test macro.Referring to accompanying drawing 1-3, GIS pipeline installation dimension figure, test circuit figure and test arrangement figure according to 220KV of the present utility model are disclosed respectively.

GIS electric mutual inductor test macro comprises two BSG sleeve pipes, between two BSG sleeve pipes, there is GIS pipeline, wherein a described sleeve pipe is power supply sleeve pipe 105, described power supply sleeve pipe is connecting the HT testing transformer U1 that is connected in parallel to each other and for the protection of the capacitive divider C1 of power supply, described capacitive divider C1 is in order to reduce the resonance effect causing because of higher source impedance, described in another root, sleeve pipe is load sleeve 106, described load sleeve is connecting load capacitance C2, because GIS formula electric mutual inductor all belongs to the product of the principle of capacitive divider that electric capacity is less, therefore need to increase load capacitance C2 with simulating actual conditions better.Specifically, load capacitance C2 contributes to stablize bus-charging current, and deviation is ± 10%.Near in the GIS pipeline of described power supply sleeve pipe, there is the first disconnector DS1, between the first disconnector DS1 and described load sleeve, thering is transient test system of the first calibration 101, first electric mutual inductor 102, second to be measured electronic type voltage transformer 103 to be measured and a transient voltage test macro 104 of the second calibration.The first electric mutual inductor 102 to be measured is near described the first disconnector DS1, the second electronic type voltage transformer 103 to be measured is near described load sleeve, wherein, the first electric mutual inductor 102 to be measured is electronic current mutual inductor ECT, or electronic current-voltage combination transformer ECVT, set up the second electronic type voltage transformer EVT to be measured to be subject to greatlyr apart from the impact of the distance of disconnector due to transient voltage, therefore between the first electric mutual inductor to be measured and load sleeve, set up the second electronic type voltage transformer to be measured.Secondary converter 110 one end connect electric mutual inductor 102.103 to be measured, and the other end connects merge cells 111, and the other end of merge cells 111 connects fault oscillograph 112, and fault oscillograph 112 is for connecting the output of merge cells 111.

Transient test system 101 of described the first calibration arranges the contiguous of the first electric mutual inductor 102 to be measured, is the combination of transient current test macro corresponding to the first electric mutual inductor to be measured or transient voltage and current detecting system.Transient voltage test macro 104 of described the second calibration arranges the contiguous of the second electronic type voltage transformer 103 to be measured, is a transient voltage test macro corresponding to the second electronic type voltage transformer to be measured.

It should be known that the particular location of described electric mutual inductor to be measured in the ducted position of GIS is unfixing, can be positioned at ducted diverse location place, can simulate thus transient voltage or electric current at distance the first disconnector DS1 diverse location place.

In this scheme, electric mutual inductor 102,103 to be measured is all positioned at load-side, between the first disconnector DS1 and load sleeve, only from the difference of disconnector distance, therefore the impact of the length that, can study pipeline on load-side transient voltage and transient current.

Therefore, preferably, GIS pipeline length is adjustable, the bottom of described power supply sleeve pipe 105 has the slide rail that flexible described GIS pipeline is used, can horizontally slip, therefore can simulate different GIS pipelines, and then the impact of the length that is further conducive to study different GIS pipelines on load-side transient voltage and transient current.

Meanwhile, GIS pipeline length can be in harmonious proportion the sample of flexible electric mutual inductor that can compatible different manufacturers with slide rail.

Preferably, in order to study the difference of load-side and mains side transient current and transient voltage, the second disconnector DS2 also between described the first electric mutual inductor to be measured and described the second electronic type voltage transformer to be measured with auxiliary use, expanded like this test capability of this electric current, therefore, this hookup can complete in following two kinds of modes and carry out the research of transient state parameter:

Mode 1: power supply is placed in right side, load is placed in left side, DS2 is normally closed, folding DS1, the data of two cover transient test system testings are all the transient voltage waveforms of load-side (between disconnector and load), only, from the different difference of disconnector distance, therefore can study the impact of pipeline length on load-side transient voltage.

Mode 2: power supply is placed in right side, load is placed in left side, DS1 is normally closed, folding DS2, the data of two cover transient test system testings are respectively the transient voltage waveforms of load-side (between disconnector and load) and mains side (between disconnector and power supply), therefore can study the difference of load-side and mains side transient voltage.

Wherein, transient test system of the first calibration and a transient voltage test macro of the second calibration, can be a conventional transient current voltage measurement system, but preferably, can be a transient current voltage measurement system of for example embodiment 2.

As mentioned above, described electric mutual inductor to be measured is unfixing in the ducted position of GIS, can be positioned at ducted diverse location place, can simulate thus transient voltage or electric current at distance the first disconnector DS1 diverse location place.

For example, concrete electric mutual inductor to be measured and a position transient test system can be set in 220KV.Referring to accompanying drawing 1-3, in the drawings, ES represents grounding switch, and DS represents disconnector, and EVT represents electronic type voltage transformer test product, and ECT represents electronic current mutual inductor test product, and ECVT represents electronic current-voltage combination transformer test product.This test platform can in position, 2 places access an EVT simultaneously, in position, ECT or ECVT install in 3 places.In position 1, a transient voltage sensor is placed respectively at 4 places, position, and in position, a Transient Transformer is placed at 4 places.

That is, transient current of the first calibration, voltage testing system, the first electronic current-voltage combination transformer to be measured, the second disconnector, the second electronic type voltage transformer to be measured, a transient voltage test macro of the second calibration are installed between described the first disconnector DS1 and load sleeve successively.

To those skilled in the art, in different electric pressures, at the diverse location of pipeline electric mutual inductor to be measured is set with a transient test system, as long as electronic current mutual inductor to be measured is being set near power supply sleeve pipe place, or electronic current-voltage combination transformer to be measured, near load sleeve addition electronic type voltage transformer to be measured, transient test system of corresponding calibration is set respectively simultaneously.

Preferably, the output current 2A of HT testing transformer 101; GIS formula the first disconnector DS1 and the second disconnector DS2 join electric operating mechanism, alternating current 220V operating power.In actual measurement, GIS pipeline has been installed an empty cabinet of remittance nearby, and the secondary converter 110 of electric mutual inductor to be measured and merge cells 110 are all placed in the empty cabinet of remittance, and the empty cabinet power supply that converges is direct current 220V, adopts direct current cabinet power supply.

According to disconnector relevant criterion content, in test, described the first and second disconnectores deciliter the little current values of capacitive be 0.1 ~ 0.8A (stable state), concrete numerical value is in Table 1.Actual loading electric capacity does not need accurately consistent with result of calculation, can exist according to physical condition ± 10% deviation.

Table 1 test capacitance current

Rated voltage/KV	72.5	126	252	363	550	800
							Electric current/A	0.1	0.1	0.25	0.5	0.5	0.8

In test due to the reason of high-tension transformer 101 internal resistances, under combined floodgate and separating brake two states, its steady state voltage changes, by its power source change of requirement of GB1985-2004 < < high-voltage alternating current isolating switch and grounding switch > > should≤± 10%.

In test, tested electric mutual inductor once part, secondary connects and electronics merge cells carries out complete assembly connection by actual service conditions, charged and press nominal situation and move at process of the test electric mutual inductor.

Embodiment 2:

Adopt the Electro Magnetic Compatibility of the little current testing electric mutual inductor of disconnector deciliter capacitive, its ultimate principle is to produce under the condition of strong electromagnetic, the Electro Magnetic Compatibility of test electric mutual inductor, so strong electromagnetic conditional parameter is one of important parameter of test.The major parameter of the little electric current process of disconnector deciliter capacitive has: voltage, electric current, electric field, magnetic field, shell potential rise.Wherein voltage and current is topmost parameter, so measuring voltage and electric current are the committed steps of the immunity experiment of electric mutual inductor under the little current condition of disconnector deciliter capacitive.

Referring to accompanying drawing 3, take 220KV as example, comprising the transient current voltage testing system of the first calibration and second according to the utility model embodiment, calibrate a transient voltage test macro, wherein, a transient current voltage testing system 101 of the first calibration comprises Transient Transformer one time, a transient voltage sensor, high-speed collection card 113 and measurement host computer 114, described high-speed collection card 113 gathers respectively the output of a Transient Transformer and a transient voltage sensor, and pass through data transfer mode, for example opto-electronic conversion is transferred to and measures host computer 114 and carry out late time data processing.A transient voltage test macro 104 of the second calibration comprises transient voltage sensor one time, high-speed collection card 113 gathers the output of a transient voltage sensor, and by data transfer mode, for example opto-electronic conversion is transferred to and measures host computer 114 and carry out late time data processing.

In actual use, can pass through laser energy supply, battery, the mode of sunshine energy supply is to high-speed collection card 113 power supplies.Measure host computer and can adopt any available calculation elements such as Industrial Control Computer, notebook, PC.

That is, test macro comprises corresponding standard transducer, and high-speed collection card 113 gathers the output of standard transducers, and by data transfer mode, and for example opto-electronic conversion is transferred to and measures host computer 114 and carry out late time data processing.

In actual measurement, GIS pipeline has been installed an empty cabinet of remittance nearby, and the secondary converter of electric mutual inductor to be measured, merge cells are all placed in the empty cabinet of remittance.The high-speed collection card of transient test system, battery-powered module are placed in a shielding box of GIS pipeline outer wall.Notebook host computer and failure wave-recording instrument are placed in personnel's operation room.

Especially, the transient state electromagnetic process of isolator operation is a very complex process, there is bandwidth (50Hz ~ 100MHz), the feature of duration long (several seconds), length to the measurement frequency band of preposition probe and measuring system, interference free performance, record data has higher requirement, in related standards, this is required with " specialty is measured ".

Therefore, referring to accompanying drawing 4, disclose the structural drawing of calibrating a transient voltage sensor described in the GIS formula based on principle of capacitive divider, transient voltage sensor of described calibration is hand hole formula voltage sensor structural drawing.It comprises the induction electrode 202 that is installed on GIS hand hole 205 inside, hand hole cover plate 204 and between induction electrode and hand hole cover plate insulation film 203, wherein insulation film can be plastic sheeting.Between induction electrode 202 and hand hole cover plate 204, accompany the low-voltage arm electric capacity that insulation film 203 described in one deck forms voltage dividers, between induction electrode 202 and high voltage bus 201, form the high-voltage arm electric capacity of voltage divider, form a capacitive divider, measure the transient overvoltage between GIS internal high pressure bus and GIS shell.

When concrete installation, referring to Fig. 5, transient voltage sensor fixing structure figure of GIS pipeline is exemplarily disclosed.At the outside shielded box 301 that is independently provided with of hand hole 205, oscillography type high-speed collection card 113, triggering system (not shown), optical fibre control system (not shown) and the power supply thereof of described test macro are placed in shielded box 301, shielded box 301 is directly installed on pulling out on mouth, to prevent the impact on measuring system due to Radiative EMI and Conducted Electromagnetic Interference of GIS.Described power supply comprises accumulator 302 and inverter 303.

Transient Transformer of GIS formula calibration is used air core coil, air core coil is enclosed within to high voltage bus current measurement place and measures.Transient Transformer mounting structure figure of GIS pipeline referring to Fig. 6 based on the utility model embodiment, air core coil outputs to the high-speed collection card 113 of oscillography type and measures, similarly, at the outside shielded box 301 that is independently provided with of hand hole, oscillography type high-speed collection card 113, triggering system (not shown), optical fibre control system (not shown) and the power supply thereof of described test macro are placed in shielded box 301, shielded box 301 is directly installed on pulling out on mouth, to prevent the impact on measuring system due to Radiative EMI and Conducted Electromagnetic Interference of GIS.Described power supply comprises accumulator 302 and inverter 303.

The transient voltage current detecting system principle of calibration that it should be known that different electric pressures is identical, according to fixed capacitive transducer intrinsic standoff ratio and low-voltage arm electric capacity, can determine high-voltage arm electric capacity.Given GIS physical dimension, hand hole diameter, electrode diameter and thickness, by selecting the hand hole degree of depth, can obtain the high-voltage arm electric capacity needing.By Electric Field Simulation, can calculate the coupling capacitance between many conductors, high-voltage arm capacitance as required, determines the design size of GIS hand hole.

In test, should be noted that: test product does not damage; Do not occur that merge cells communication disruption, packet loss, quality change; Do not allow merge cells output abnormality (100% or continuous 2 outputs that output abnormality output on single point surpasses specified secondary output surpass specified secondary output 40%).

Therefore, according to the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive of the present utility model, magnitude of voltage and current value during the folding of test disconnector on high voltage bus, thus compare with the output of test product to be measured.

The utility model is conducive to solve primary circuit electromagnetic compatibility problem, improves electromagnetic compatible protective measure.The standard high-frequency current of standard, the design of voltage sensor have also been proposed simultaneously.

Like this, can build 110KV, 220KV, the little current test loop of 500KV disconnector deciliter capacitive in testing laboratory, simultaneously by electric mutual inductor series connection access test loop, the little current capacity process of simulated field disconnector folding hollow wire and capacitive, produce similar on-the-spot transient state strong jamming, the electromagnetic protection performance of examination electric mutual inductor under this condition.This test platform can be used for 110KV, 220KV, the electromagnetic environment of 500KV electric pressure in power transmission and power process.

Above content is in conjunction with concrete preferred implementation further detailed description of the utility model; can not assert that embodiment of the present utility model only limits to this; for the utility model person of an ordinary skill in the technical field; without departing from the concept of the premise utility; can also make some simple deduction or replace, all should be considered as belonging to the utility model and determine protection domain by submitted to claims.

Claims (8)

1. the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive, comprising:

Comprise two sleeve pipes, between two sleeve pipes, there is GIS pipeline, wherein a described sleeve pipe is power supply sleeve pipe, described power supply sleeve pipe is connecting the HT testing transformer that is connected in parallel to each other and for the protection of the capacitive divider of power supply, described capacitive divider is in order to reduce the resonance effect causing because of higher source impedance, described in another root, sleeve pipe is load sleeve, and described load sleeve is connecting load capacitance, near in the GIS pipeline of described power supply sleeve pipe, has the first disconnector;

It is characterized in that:

Between described the first disconnector and described load sleeve, there is transient test system of the first calibration, the first electric mutual inductor to be measured, the second electronic type voltage transformer to be measured and a transient voltage test macro of the second calibration;

Wherein, described the first electric mutual inductor to be measured is near described the first disconnector, and described the second electronic type voltage transformer to be measured is near described load sleeve, and the first electric mutual inductor to be measured is electronic current mutual inductor, or electronic current-voltage combination transformer,

Transient test system of described the first calibration arranges the contiguous of the first electric mutual inductor to be measured, for the combination of transient current test macro corresponding to described the first electric mutual inductor to be measured or transient voltage and current detecting system, transient voltage test macro of described the second calibration arranges the contiguous of the second electronic type voltage transformer to be measured;

Secondary converter one end connects described mutual inductor to be measured, and the other end connects merge cells, and the other end of described merge cells connects fault oscillograph, and described fault oscillograph is for connecting the output of merge cells.

2. the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive according to claim 1, is characterized in that:

Between described the first electric mutual inductor to be measured and described the second electronic type voltage transformer to be measured, also there is the second disconnector.

3. the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive according to claim 2, is characterized in that:

Described GIS pipeline length is adjustable, and the bottom of described power supply sleeve pipe has the slide rail that flexible described GIS pipeline is used, and described slide rail can horizontally slip.

4. the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive according to claim 2, is characterized in that:

Described the first and second disconnectores deciliter the little current values of capacitive be 0.1～0.8A.

5. the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive according to claim 2, is characterized in that:

The output current of described HT testing transformer is 2A; Described the first and second disconnectores are joined electric operating mechanism, alternating current 220V operating power.

6. according to the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive described in any one in claim 3-5, it is characterized in that:

Described GIS Near Pipelines is provided with the empty cabinet of remittance, and described secondary converter and described merge cells are all placed in the empty cabinet of described remittance.

7. the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive according to claim 6, is characterized in that:

A described transient current test macro comprises Transient Transformer one time, a described transient voltage test macro comprises transient voltage sensor one time, high-speed collection card and measurement host computer, described high-speed collection card gathers respectively the output of a described Transient Transformer and a described transient voltage sensor, and is transferred to measurement host computer by data transfer mode.

8. the GIS electric mutual inductor test macro based on the disconnector deciliter little electric current of capacitive according to claim 7, is characterized in that:

A described transient voltage sensor is hand hole formula voltage sensor, described hand hole formula voltage sensor comprises the induction electrode that is installed on GIS hand hole inside, hand hole cover plate and between described induction electrode and described hand hole cover plate insulation film, between described induction electrode and described hand hole cover plate, accompany the low-voltage arm electric capacity that insulation film described in one deck forms voltage divider, between described induction electrode and high voltage bus, form high-voltage arm electric capacity, form capacitive divider, measure the transient overvoltage between described high voltage bus and GIS shell;

A described Transient Transformer is used air core coil, described air core coil is enclosed within to described high voltage bus current measurement place and measures;

The mouth that pulls out at GIS is provided with shielded box, and described high-speed collection card, triggering system, optical fibre control system and the power supply thereof of described test macro are placed in described shielded box.

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