CN209656792U - Composite insulator field distribution detection device based on MEMS electric-field sensor - Google Patents
Composite insulator field distribution detection device based on MEMS electric-field sensor Download PDFInfo
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- CN209656792U CN209656792U CN201822236679.0U CN201822236679U CN209656792U CN 209656792 U CN209656792 U CN 209656792U CN 201822236679 U CN201822236679 U CN 201822236679U CN 209656792 U CN209656792 U CN 209656792U
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- 230000005684 electric field Effects 0.000 title claims abstract description 150
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Abstract
In view of the deficiencies of the prior art, the utility model has carried out breakthrough improvement on the basis of existing technology, it is ensured that carries out the security reliability of composite insulator livewire work.To realize object above, the utility model is achieved by the following technical programs: a kind of composite insulator field distribution detection device based on MEMS electric-field sensor, it is made of MEMS electric field acquisition system, wireless transmitting system and insulation operation attachment, MEMS electric field acquisition system, which is mounted on insulation operation attachment, ensures that MEMS electric field acquisition system can be moved relative to insulator surface, and sensor in moving process in MEMS electric field acquisition system and insulator surface are apart from constant.The technical solution of the utility model in this way can carry out electric field detection in the insulator surface of arbitrary structures, and ensure that testing result is accurate and reliable by the mobile MEMS electric field acquisition system of insulation operation attachment.
Description
Technical field
The utility model relates to the technical fields of electric power detection, and in particular to a kind of to carry out in super, UHV transmission line
Composite insulator field distribution detection device and method based on MEMS electric-field sensor.
Background technique
With the development of electric system, voltage class is higher and higher.In modern ultra-high-tension power transmission line, composite insulator
Using more and more.Electric system is when operating normally, due to Potential distribution on the fitting surface of insulator and outer insulating material
Corona phenomenon can unevenly occur, and then electromagnetic environment, operation characteristic of insulating materials etc. are had an impact, to electric power safety
Operation causes to seriously threaten.Therefore it needs to ask to solve this in the both ends of insulator installation grading ring when installing insulator
Topic.The field distribution of the good surface of composite insulator of behaviour in service is uniform and stable.
With the increase of composite insulator runing time, due to external force destruction, environmental factor etc., composite insulator can be generated
Various defects lead to its decreasing insulating and influence the normal operation of route, and What is more will affect in composite insulator week
The safety for carrying out livewire work is enclosed, is caused a hidden trouble to operating personnel's person, equipment safety.The composite insulator of existing defects,
Its surface field intensity and normal insulation have difference, and the good situations of insulator can be judged by electric field detection.Mesh
The device of preceding domestic and international detection electric field relies primarily on formula electric field measuring apparatus of going round and round a millstone, and the general volume of the device is larger, complicated for operation, quasi-
True property has to be hoisted.Current existing composite insulator detection device is based primarily upon the formula electric-field sensor of going round and round a millstone and is made, practical
Property and accuracy be unable to satisfy field application requirement.
Also there is a kind of patent of invention " composite insulator detection of Patent No. 201510734397.1 in the prior art to this
System " in disclose a kind of composite insulator detection system, including openable and closable encircling type frame, opening-closing locking mechanism, move
Motivation structure, testing agency and battery control cabinet, in which: encircling type frame is wrapped on the outside of insulator umbrella, opening-closing locking mechanism
It is arranged on the outside of encircling type frame, controls the folding and locking of embracing frame, embracing frame is fixed in the mobile mechanism
On, drive it to move along insulator chain, the testing agency is set on the outside of embracing frame, acquire insulator electric field, can
Light-exposed or infrared detection hydrophobicity parameter, the battery control cabinet are fixed on embracing frame, are mobile mechanism, testing agency
Electric energy is provided with opening-closing locking mechanism.The invention passes through the inspections such as electric field detection, visible detection, infrared detection, hydrophobicity detection
Surveying module may be implemented comprehensive insulator state diagnosis, more objective to the evaluation of insulator detailed.Convenient for understanding line in time
Road transport row insulator state.
But such product structure is complicated, can not install at all on super, UHV transmission line.And due to its inspection
It is not accurate to survey result, it is therefore desirable to the inspection of the detection modules such as electric field detection, visible detection, infrared detection, hydrophobicity detection
Result is surveyed mutually to be confirmed.But just in case these detection modules between detection structure it is contradictory, can not probe into wherein which
A outcome is correct as a result, leading to a large amount of invalid measurement occur.
In fact, in extra-high piezoelectric field context of detection, in " sensor and micro-system " magazine fourth phase of volume 36 in 2017
A kind of electric field measurement is on the contrary proposed in disclosed paper " the livewire work electric field measurement early warning system of MEMS structure " text
Scheme has developed a kind of novel livewire work electric field measurement early warning based on high performance micro-electromechanical system (MEMS) sensitive structure chip
System is issued warning signal by real-time detection electric field level when beyond electric field secure threshold, and operating personnel is reminded to take accordingly
Safety measure.Based on a kind of Fast simulation demodulator circuit that can inhibit ambient noise is mutually devised, solve at digital signal
Manage the unwise testing principles such as the low, low-response of precision.
But its principle is to protect hot line job personnel, therefore it is not suitable for the detection biggish compound inslation of volume
Son.If detecting composite insulator by force, also due to can not position and cause testing result gap larger.
Utility model content
In view of the deficiencies of the prior art, the utility model has carried out breakthrough improvement on the basis of existing technology, mentions
For composite insulator field measurement device and detection method based on MEMS electric-field sensor, can be opened for super UHV transmission line
It opens up composite insulator state-detection and check and evaluation means is provided, it is ensured that carry out the security reliability of composite insulator livewire work.
In order to achieve the above object, the utility model is achieved by the following technical programs:
Composite insulator field distribution detection device based on MEMS electric-field sensor, comprising: for detecting insulation sublist
The MEMS electric field acquisition system and insulation operation attachment of space of planes electric field signal, insulation operation attachment include at least one and thoroughly do away with edge
Bar, MEMS electric field acquisition system are movably connected on insulating bar, it is ensured that MEMS electric field acquisition system can relative to insulator surface into
Row movement, and sensor in moving process in MEMS electric field acquisition system and insulator surface are apart from constant.
Preferably, the insulation operation attachment is made of insulating bar, insulating cord, hook, and insulating bar is equipped with raised fixture block,
For matching the sliding slot on MEMS electric field acquisition system surface, insulating cord is fixed on the shell of MEMS electric field acquisition system, insulating bar
End is equipped with hook, for tangling grading ring.Insulation in this way operates accessory structure, can ensure that MEMS electric field acquisition system
On sensor detected by insulator surface field distribution it is accurate.And no matter insulator structure it is how complicated, can
Using the travelling route of the sliding slot that is mutually matched and raised fixture block adjustment MEMS electric field acquisition system, enable thereon sensor most
To be detected in suitable distance.
Preferably, MEMS electric field acquisition system includes shell, the outer side of shell be equipped with MEMS electric-field sensor probe and
Displacement sensor, displacement sensor is connected to the CPU in shell, and MEMS electric-field sensor probe passes through collecting sensor signal
Module and sensor signal processing module are connected to CPU.It can be seen that MEMS electric field acquisition system has carried CPU, pass through displacement
The signal of sensor can efficiently and effectively obtain MEMS electric-field sensor probe physical location, and maintain it in optimal work
Make state.
Preferably, the CPU is connected to packaged type storage device.It can be separately provided in MEMS electric field acquisition system
Equipment is stored, in the case where not needing to handle immediately to the information of acquisition, result transmitting can be will test by storing equipment
To terminal.Such setting long processing period, but it is at low cost, and applicability is extensive.
Preferably, further included wireless transmitting system, the wireless transmitting system include two parts, and a portion is to set
232 distributors connecting in MEMS electric field acquisition system with CPU are set, 232 distributors are connected to wireless output by 232DTU
Mouthful, another part is the ground-based wireless transmissions system communicated with wireless output port.It can in MEMS electric field acquisition system
Radio transmission apparatus is separately provided, for the sake of security, ground-based wireless transmissions system and radio transmission apparatus is separately provided
Carry out the connection of corresponding, it is ensured that the stabilization of system.
Preferably, sensor signal is equipped between MEMS electric-field sensor probe and collecting sensor signal module amplify mould
Block.Sensor signal amplifying module is not always-on, is only enhanced when poor signal by sensor signal amplifying module
Collected signal.
Preferably, reserved module interface, the extension for other function module are equipped in the shell.
Preferably, be additionally provided with warning device on the shell, the warning device include buzzer, alarm lamp and other
Caution device and companion module.Problem has occurred in the detection process so directly with most specific sound-light alarm or other
The form of communication alert is alerted.
The technical solution of the utility model in this way, using empty around MEMS electric-field sensor system detection transmission line of electricity
Between electric field, to judge the working condition of insulator.It can be in office by the mobile MEMS electric field acquisition system of insulation operation attachment
The insulator surface for structure of anticipating carries out electric field detection, and ensures that testing result is accurate and reliable.MEMS electric field is adopted in distraction procedure
The sensor distance insulator of institute's band is maintained at the constant spacing of 3-10cm on collecting system.It is mobile in MEMS electric field acquisition system
In the process, this spacing remains unchanged, it is ensured that sensor works under optimal operating distance, and in the control of insulating bar
Under, MEMS electric field acquisition system will not be in moving process and frictional impact occurs for insulator.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the schematic diagram of internal structure of MEMS electric field acquisition system in the utility model.
Fig. 2 is electric field strength-displacement relation curve graph that the utility model detects.
Fig. 3 is the utility model in-site installation operation chart.
Fig. 4 is insulation operation accessory structure schematic diagram in the utility model.
Fig. 5 is the side schematic view of Fig. 4.
Specific embodiment
It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer
Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched
The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model
Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to
The range of the utility model protection.
MEMS, that is, MEMS Microelectro Mechanical Systems, is in microelectric technique basis
The research frontier of the multi-crossed disciplines to grow up.Important role is also played in the present invention.
Embodiment 1:
As shown in Figure 1, Figure 4, Figure 5, the composite insulator field distribution detection device based on MEMS electric-field sensor, packet
It includes: for detecting the MEMS electric field acquisition system 1 and insulation operation attachment 3 of insulator surface space electric field signal.Wherein MEMS
Electric field acquisition system 1 includes shell 11, and interior self-powered module 25 ensures to energize, and MEMS electric field is equipped on the outside of the shell 11
Sensor probe 12 and displacement sensor 13, displacement sensor 13 are connected to the CPU14 in shell 11, and MEMS electric-field sensor
Probe 12 is connected to CPU14 by collecting sensor signal module 15 and sensor signal processing module 16, and the CPU14 connects
It is connected to packaged type storage device.And the insulation operation attachment 3 is made of insulating bar 31, insulating cord 32, hook 33, insulating bar
31 are equipped with raised fixture block 34, and for matching the sliding slot on 1 surface of MEMS electric field acquisition system, insulating cord 32 is fixed on MEMS electric field
The shell 11 of acquisition system 1,31 end of insulating bar is equipped with hook 33, for tangling grading ring 2.MEMS electric field acquisition system 1 is living
It is dynamic to be connected to insulating bar 31, it is ensured that MEMS electric field acquisition system 1 can be moved relative to insulator surface, and in moving process
Sensor and insulator surface in middle MEMS electric field acquisition system 1 is apart from constant.If worrying the efficiency of sensor,
It can then pop one's head in MEMS electric-field sensor and be equipped with sensor signal amplifying module between 12 and collecting sensor signal module 15
20.Sensor signal amplifying module 20 is equipped between MEMS electric-field sensor probe 12 and collecting sensor signal module 15.When
Collected signal is enhanced by sensor signal amplifying module 20 when poor signal.But turn on sensor signal amplifies mould
Whole power consumption rises after block 20, is unfavorable for long-term operation.
Reserved module interface 21 is equipped in the shell 11, convenient for the load of later period supplementary module.On the shell 11 also
Equipped with warning device.Warning device includes and is not limited to buzzer 22 and alarm lamp 23.But buzzer 22 under usual condition,
The combination of alarm lamp 23 and the two is sufficient for most normal use situation.
The application method of such composite insulator field distribution detection device based on MEMS electric-field sensor includes following
Step:
Step 1, operating personnel take MEMS electric field acquisition system 1 and insulation operation attachment 3 steps on tower to cross-arm position, by MEMS
Electric field acquisition system 1 is installed on insulation operation attachment 3;Since MEMS electric field acquisition system 1 and insulation operation attachment 3 install
Volume is larger after finishing, and heavier mass is unfavorable for stepping on tower, it is therefore desirable to after taking steel tower respectively, installation is completed on tower, was installed
Cheng Fuhe safety standard.
Step 2, operating personnel extend downwardly insulating bar 31 near cross arm insulator hanging point, and hook 33 is tangled insulator
String high-voltage end grading ring 2;
Step 3, operating personnel are at the uniform velocity supreme from low-pressure end movement by MEMS electric field acquisition system 1 by traction insulating cord 32
Pressure side, the data being collected into the process are written to mobile storage device, and measurement acquisition to be confirmed terminates and data write-in
After the completion, then by insulating cord 32 by MEMS electric field acquisition system 1 low-pressure end is drawn back;In order to guarantee that data acquisition is accurate, together
When take into account detection efficiency, the speed that insulating cord 32 draws MEMS electric field acquisition system 1 is 0.8-1.2 metre per second (m/s).In detection process
Middle CPU14 handles relative displacement information, it is ensured that MEMS electric-field sensor probe 12 is maintained at 3-10cm apart from insulator
Constant spacing, issued if going beyond the scope alarm signal prompt operator be adjusted.
Step 4, operating personnel will link up with 33 disengaging grading rings 2, withdraw insulating bar 31, and take out mobile storage device;
Step 5 transmits mobile storage device to equipment is read, and completes electric field after confirming collected data complete and accurate
Collecting work, otherwise repeatedly step 2-4.
MEMS electric field-sensitive chip induction field signal in the step 3, electric field signal are input to after processing amplification
CPU14, the relative position information of 13 synchronous acquisition MEMS sensor of simultaneous displacement sensor probe, 12 acquisition electric field, and will be opposite
Displacement signal is input to CPU14, and CPU14 handles the electric field signal received, displacement signal, is integrated into as shown in Figure 2
Corresponding electric field strength-displacement relation curve.Since the size of insulator is each different, corresponding electric field strength is also different, because
This Fig. 2 is used only for demonstration substantially curvilinear figure, deletes specific coordinate values.But the utility model is adopted by MEMS electric field
Collecting system 1 can detect the electric field strength on insulator on any one coordinate simultaneously, and be combined with each other by the two parameters
It proposes test result, solves detection in the prior art for insulator entirety, and can not be accurately to large-scale compound inslation sublist
The problem of face field distribution fine description.
Float electrode built in MEMS electric-field sensor probe 12 is shaken with certain frequency, work of the induction electrode because of electric field
With and generate induced voltage, to form feature electric signal in output end, and be transmitted to subsequent process circuit;
Wherein set sensor frequency ω1, initial phase φ1If external electrical field E is power frequency electric field, if input electric field are as follows:
E=E0sinωet+φe
Wherein E0For electric field magnitude, ω e is signal frequency, and φ e is initial phase;Periodicity of the bucking electrode to induction electrode
It blocks and exposes, then sensor forms periodic induced current, exports through I/V converted voltage are as follows:
Wherein: K1, K2 are correction factor, are calculated for simplifying;
Output signal is demodulated, extracts its amplitude or virtual value, is input to CPU14 after signal amplification, processing.
The load of USB flash disk, SD card or other kinds of mobile storage device as detection structure is used in the embodiment
Body is good for the adaptability of environment convenient for storage and filing.
Embodiment 2:
As shown in Fig. 1, Fig. 3, Fig. 4, Fig. 5, the composite insulator field distribution detection device based on MEMS electric-field sensor,
It include: for detecting the MEMS electric field acquisition system 1 of insulator surface space electric field signal and insulation operation attachment 3.Wherein
MEMS electric field acquisition system 1 includes shell 11, and interior self-powered module 25 ensures to energize, and MEMS electricity is equipped on the outside of the shell 11
Field sensor probe 12 and displacement sensor 13, displacement sensor 13 are connected to the CPU14 in shell 11, and MEMS electric field sensing
Device probe 12 is connected to CPU14 by collecting sensor signal module 15 and sensor signal processing module 16.It further include wireless
Transmission system, the wireless transmitting system include two parts, a portion be arranged in MEMS electric field acquisition system 1 with
232 distributor, 17,232 distributor 17 of CPU14 connection is connected to wireless output port 19, another part by 232DTU18
For the ground-based wireless transmissions system 24 communicated with wireless output port 19.And insulation operation attachment 3 by insulating bar 31,
Insulating cord 32,33 composition of hook, insulating bar 31 is equipped with raised fixture block 34, for matching 1 surface of MEMS electric field acquisition system
Sliding slot, insulating cord 32 are fixed on the shell 11 of MEMS electric field acquisition system 1, and 31 end of insulating bar is equipped with hook 33, for tangling
Grading ring 2.MEMS electric field acquisition system 1 is movably connected on insulating bar 31, it is ensured that MEMS electric field acquisition system 1 can be relative to exhausted
Edge sublist face is moved, and sensor in moving process in MEMS electric field acquisition system 1 and insulator surface distance are not
Become.It, can be in MEMS electric-field sensor probe 12 and collecting sensor signal module if worrying the efficiency of sensor
Sensor signal amplifying module 20 is equipped between 15.Between MEMS electric-field sensor probe 12 and collecting sensor signal module 15
Equipped with sensor signal amplifying module 20.Collected letter is enhanced by sensor signal amplifying module 20 when poor signal
Number.But power consumption whole after turn on sensor signal amplification module 20 rises, and is unfavorable for long-term operation.
Reserved module interface 21 is equipped in the shell 11, convenient for the load of later period supplementary module.On the shell 11 also
Equipped with warning device.Warning device includes and is not limited to buzzer 22 and alarm lamp 23.But buzzer 22 under usual condition,
The combination of alarm lamp 23 and the two is sufficient for most normal use situation.
The application method of such composite insulator field distribution detection device based on MEMS electric-field sensor includes following
Step:
Step 1, operating personnel take MEMS electric field acquisition system 1 and insulation operation attachment 3 steps on tower to cross-arm position, by MEMS
Electric field acquisition system 1 is installed on insulation operation attachment 3;Since MEMS electric field acquisition system 1 and insulation operation attachment 3 install
Volume is larger after finishing, and heavier mass is unfavorable for stepping on tower, it is therefore desirable to after taking steel tower respectively, installation is completed on tower, was installed
Cheng Fuhe safety standard.
Step 2, operating personnel extend downwardly insulating bar 31 near cross arm insulator hanging point, and hook 33 is tangled insulator
String high-voltage end grading ring 2;
Step 3, operating personnel are at the uniform velocity supreme from low-pressure end movement by MEMS electric field acquisition system 1 by traction insulating cord 32
Pressure side, ground-based wireless transmissions system 24 carries out the collection of data in the process, confirms to ground-based wireless transmissions system 24 and measures
After acquisition, then passes through insulating cord 32 and MEMS electric field acquisition system 1 is drawn into back low-pressure end;In order to guarantee that data acquisition is quasi-
Really, detection efficiency is combined, the speed that insulating cord 32 draws MEMS electric field acquisition system 1 is 0.8-1.2 metre per second (m/s).It is examining
CPU14 handles relative displacement information during survey, it is ensured that MEMS electric-field sensor probe 12 is maintained at apart from insulator
The constant spacing of 3-10cm issues alarm signal prompt operator if going beyond the scope and is adjusted.
Step 4, operating personnel will link up with 33 disengaging grading rings 2, withdraw insulating bar 31, complete electric field collecting work.
MEMS electric field-sensitive chip induction field signal in the step 3, electric field signal are input to after processing amplification
CPU14, the relative position information of 13 synchronous acquisition MEMS sensor of simultaneous displacement sensor probe, 12 acquisition electric field, and will be opposite
Displacement signal is input to CPU14, and CPU14 handles the electric field signal received, displacement signal, is integrated into as shown in Figure 2
Corresponding electric field strength-displacement relation curve.Since the size of insulator is each different, corresponding electric field strength is also different, because
This Fig. 2 is used only for demonstration substantially curvilinear figure, deletes specific coordinate values.But the utility model is adopted by MEMS electric field
Collecting system 1 can detect the electric field strength on insulator on any one coordinate simultaneously, and be combined with each other by the two parameters
It proposes test result, solves detection in the prior art for insulator entirety, and can not be accurately to large-scale compound inslation sublist
The problem of face field distribution fine description.
Float electrode built in MEMS electric-field sensor probe 12 is shaken with certain frequency, work of the induction electrode because of electric field
With and generate induced voltage, to form feature electric signal in output end, and be transmitted to subsequent process circuit;
Wherein set sensor frequency ω1, initial phase φ1If external electrical field E is power frequency electric field, if input electric field are as follows:
E=E0sinωet+φe
Wherein E0For electric field magnitude, ω e is signal frequency, and φ e is initial phase;Periodicity of the bucking electrode to induction electrode
It blocks and exposes, then sensor forms periodic induced current, exports through I/V converted voltage are as follows:
Wherein: K1, K2 are correction factor;
Output signal is demodulated, extracts its amplitude or virtual value, is input to CPU14 after signal amplification, processing.
In the embodiment use ground-based wireless transmissions system 24 cooperated, can more timely processing detection data, reaction
Speed is fast, but has the disadvantage that the environmental requirement for different areas of activity is some higher.
Technical staff can select the scheme implemented when implementing according to the actual situation.Either in which kind of embodiment,
All have following advantage:
1, accurate and reliable.Using MEMS electric-field sensor system detection transmission line of electricity surrounding space electric field, detection is accurate
Degree is high, and is not influenced by factors such as environment, weather, line constructions.Electric-field sensor system is by being based on MEMS electric field-sensitive core
Piece and follow-up signal processing circuit are constituted, and can accurately be measured electric field signal and be provided electrical verification result indicative signal, all to be related to MEMS
Sensor carries out electric field measurement, has 100% accuracy and reliability in the case study on implementation having verified that.
2, easy to operate.Pass through insulation operation attachment energy stability contorting composed by insulating bar 31, insulating cord 32, hook 33
The movement track of MEMS electric field acquisition system keeps measured value relatively stable accurate, and operating personnel is easy to operate.
3, safe operation.Overall process uses livewire work insulating bar 31, insulating cord 32, is in earth potential working, operation
Method safety is reliable.
4, whole system cost performance is high, can be widely popularized.Although individual equipment price is not cheap, based on big
After scale is promoted for brought benefit, bring economic benefit of capable of is very high.
It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality
Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation
In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to
Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that
There is also other identical elements in process, method, article or equipment including the element.
Above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations;Although referring to aforementioned reality
Example is applied the utility model is described in detail, those skilled in the art should understand that: it still can be to preceding
Technical solution documented by each embodiment is stated to modify or equivalent replacement of some of the technical features;And these
It modifies or replaces, the spirit and model of various embodiments of the utility model technical solution that it does not separate the essence of the corresponding technical solution
It encloses.
Claims (8)
1. the composite insulator field distribution detection device based on MEMS electric-field sensor characterized by comprising for detecting
The MEMS electric field acquisition system (1) and insulation operation attachment (3) of insulator surface space electric field signal, insulation operation attachment (3)
Including at least an insulating bar (31), MEMS electric field acquisition system (1) is movably connected on insulating bar (31), it is ensured that MEMS electric field is adopted
Collecting system (1) can be moved relative to insulator surface, and the sensing in moving process in MEMS electric field acquisition system (1)
Device and insulator surface are apart from constant.
2. the composite insulator field distribution detection device based on MEMS electric-field sensor as described in claim 1, feature
Be: insulation operation attachment (3) is made of insulating bar (31), insulating cord (32) and hook (33), and insulating bar is set on (31)
There are raised fixture block (34), for matching the sliding slot on MEMS electric field acquisition system (1) surface, insulating cord (32) is fixed on MEMS electric field
The shell (11) of acquisition system (1), insulating bar (31) end is equipped with hook (33), for tangling grading ring (2).
3. the composite insulator field distribution detection device based on MEMS electric-field sensor as claimed in claim 1 or 2, special
Sign is: MEMS electric field acquisition system (1) includes shell (11), and MEMS electric-field sensor is equipped on the outside of the shell (11) and is popped one's head in
(12) and displacement sensor (13), displacement sensor (13) is connected to the CPU (14) in shell (11), and MEMS electric-field sensor
Probe (12) is connected to CPU (14) by collecting sensor signal module (15) and sensor signal processing module (16).
4. the composite insulator field distribution detection device based on MEMS electric-field sensor as claimed in claim 3, feature
Be: the CPU (14) is connected to packaged type storage device.
5. the composite insulator field distribution detection device based on MEMS electric-field sensor as claimed in claim 3, feature
It is: further includes wireless transmitting system, the wireless transmitting system includes two parts, and a portion is to be arranged in MEMS electric field
232 distributors (17) connecting in acquisition system (1) with CPU (14), 232 distributors (17) are connected to nothing by 232DTU (18)
Line output terminal mouth (19), another part are the ground-based wireless transmissions system (24) communicated with wireless output port (19).
6. the composite insulator field distribution detection device based on MEMS electric-field sensor as claimed in claim 3, feature
Be: MEMS electric-field sensor is popped one's head in (12) is equipped with sensor signal amplifying module between collecting sensor signal module (15)
(20)。
7. the composite insulator field distribution detection device based on MEMS electric-field sensor as claimed in claim 3, feature
It is: is equipped in the shell (11) reserved module interface (21).
8. the composite insulator field distribution detection device based on MEMS electric-field sensor as claimed in claim 3, feature
It is: is additionally provided with warning device on the shell (11).
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