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43 results about "Conductor gallop" patented technology

Conductor gallop is the high-amplitude, low-frequency oscillation of overhead power lines due to wind. The movement of the wires occurs most commonly in the vertical plane, although horizontal or rotational motion is also possible. The natural frequency mode tends to be around 1 Hz, leading the often graceful periodic motion to also be known as conductor dancing. The oscillations can exhibit amplitudes in excess of a metre, and the displacement is sometimes sufficient for the phase conductors to infringe operating clearances (coming too close to other objects), and causing flashover. The forceful motion also adds significantly to the loading stress on insulators and electricity pylons, raising the risk of mechanical failure of either.

Video monitoring method of electric transmission line

InactiveCN103442209AReduce overheadFast operationCharacter and pattern recognitionClosed circuit television systemsVideo monitoringForeign matter
The invention belongs to the field of image processing, and discloses a video monitoring method of an electric transmission line. The video monitoring method of the electric transmission line comprises the steps of greasy weather grade recognition, ice covering / snow covering recognition, conductor galloping recognition and periphery alarm. In the step of greasy weather grade recognition, vector included angle characteristics are extracted, and a support vector machine is selected and used for classification. In the step of ice covering / snow covering recognition, the ice covering / snow covering thickness is measured through image processing technologies such as image segmentation, edge detection and improved Hough conversion. In the step of conductor galloping recognition, multiple wave trough points and wave crest points in a conductor are detected, the lowest point and the highest point of conductor galloping are obtained by comparing all the wave trough points and all the wave crest points, and then amplitude and frequency of conductor galloping are computed. In the step of periphery alarm, a method of updating backgrounds automatically is adopted, influence of noise is greatly reduced in the process of judging foreign matter, and whether the foreign matter enters a monitoring area or not is judged in a percentage mode. The video monitoring method achieves video monitoring on the electric transmission line under the atrocious weather environment.
Video monitoring method of electric transmission line
Video monitoring method of electric transmission line
Video monitoring method of electric transmission line
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Owner:博通新运科技(北京)有限公司

Transmission line iced conductor galloping aerodynamic parameter monitoring device and monitoring method

InactiveCN104833393AImprove shielding effectHigh sealing designAerodynamic testingEngineeringConductor gallop
The invention discloses a transmission line iced conductor galloping aerodynamic parameter monitoring device comprising an integrated online transmission line monitoring unit and an online conductor galloping monitoring unit which is arranged on an iced conductor. The integrated online transmission line monitoring unit is connected with the online conductor galloping monitoring unit through 3G signals, and is connected with a monitoring center background system through a 3G network. The invention further discloses a method for monitoring the aerodynamic parameters of iced conductor galloping by using the transmission line iced conductor galloping aerodynamic parameter monitoring device. By adopting the transmission line iced conductor galloping aerodynamic parameter monitoring device and the monitoring method of the invention, the icing thickness of an iced conductor of a transmission line and the real-time aerodynamic parameters during galloping of the iced conductor can be acquired accurately.
Transmission line iced conductor galloping aerodynamic parameter monitoring device and monitoring method
Transmission line iced conductor galloping aerodynamic parameter monitoring device and monitoring method
Transmission line iced conductor galloping aerodynamic parameter monitoring device and monitoring method
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Owner:XI'AN POLYTECHNIC UNIVERSITY

Computer simulation platform system for galloping of overhead transmission conductors

InactiveCN102609570AAdaptableDevices for damping mechanical oscillationsSpecial data processing applicationsTerrainSystems design
The invention relates to a computer simulation platform system for galloping of overhead transmission conductors, which comprises a transmission line system dynamic modeling subsystem, a fluid-solid coupling dynamic parameter simulation computing subsystem and a conductor galloping simulation subsystem. The dynamic modeling subsystem comprises a parameter input submodule, a general parameter database submodule, and a line system finite element submodule. The fluid-solid coupling dynamic parameter simulation computing subsystem comprises a terrain and meteorological parameter submodule, an aerodynamic parameter simulation submodule, a test parameter database submodule, and a working condition correction coefficient submodule. The conductor galloping simulation subsystem comprises a fluctuating wind load applying submodule, a real-time dynamic load applying submodule, a conductor galloping dynamic simulation computing submodule and a post-processing submodule. The computer simulation platform system for the galloping of the overhead transmission conductors is capable of implementing computer simulation of the galloping of the overhead transmission conductors of various line structures under optional terrain and meteorological conditions, obtaining vibration characteristics and system mechanical parameters of the line system under different working conditions, and providing technical guidance for the line system design.
Computer simulation platform system for galloping of overhead transmission conductors
Computer simulation platform system for galloping of overhead transmission conductors
Computer simulation platform system for galloping of overhead transmission conductors
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Owner:WUHAN UNIV

Method for calculating load of hanging point of power transmission line tower during conductor galloping

ActiveCN101866395AEasy to analyzeImprove applicabilitySpecial data processing applicationsElement analysisPhase difference
The invention provides a method for calculating the load of a hanging point of a power transmission line tower during conductor galloping. In the method, the conductor galloping amplitude is determined in a weather coefficient method, and the conductor galloping load is determined through theoretical analysis and finite element simulation based on consideration of different influencing factors. The method comprises the following steps: firstly, using a model with two gears and two strain sections to determine the horizontal galloping tension and the tension difference at the hanging point through theoretical analysis under different wind speeds, ice thicknesses, structural parameters of the conductor, gear spans and phase differences; secondly, using a continuous multi-gear model to determine rules of influence of the hanging way and the gear number on the horizontal galloping tension and the tension difference through finite element analysis, and correcting results of the theoreticalcalculation of the two-gear model; and thirdly, transforming the horizontal galloping tension and the tension difference into the load of the hanging point according to the tower type and the rotation angle. The method integrates the influence of the weather, the structural parameters of the conductor, the hanging way, the gear span, the gear number and the like. Compared with the traditional analytical method which adopts the single-gear model, the method has higher applicability and higher accuracy.
Method for calculating load of hanging point of power transmission line tower during conductor galloping
Method for calculating load of hanging point of power transmission line tower during conductor galloping
Method for calculating load of hanging point of power transmission line tower during conductor galloping
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Owner:CHINA ELECTRIC POWER RES INST +1

Method for monitoring conductor galloping based on spacer recognition

ActiveCN104933403APrecision Dancing SituationThe result is accurateImage enhancementImage analysisResearch ObjectMathematical model
The invention discloses a method for monitoring conductor galloping based on spacer recognition. The monitoring method takes a digital image intercepted in a video stream of a power transmission line as a research object, and the image is pre-processed through an image graying method, a smooth de-noising method and the like. The pre-processed image is subjected to threshold segmentation, edge detection, and outline tracking and compensation; the outline of a conductor spacer is extracted; and a galloping torsion angle is calculated according to the outline matching difference shape of a spacer template before and after galloping. When the galloping torsion angle is abnormal, early warning information can be sent to a safety inspector in time, so that a line operation condition is concerned and corresponding processing measures are adopted. According to the method for monitoring the conductor galloping based on the spacer identification, an accurate mathematic model does not need to be established, and the detection and early warning of the galloping torsion angle can be rapidly and automatically realized.
Method for monitoring conductor galloping based on spacer recognition
Method for monitoring conductor galloping based on spacer recognition
Method for monitoring conductor galloping based on spacer recognition
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Owner:XI'AN POLYTECHNIC UNIVERSITY

Active anti-galloping device of overhead power transmission line

InactiveCN103762536AAmplitude adjustmentDevices for damping mechanical oscillationsEngineeringConductor gallop
The invention relates to an active anti-galloping device of an overhead power transmission line, and belongs to the technical field of power transmission line safety protection. According to the active anti-galloping device of the overhead power transmission line, a rack is adopted for transmitting rotation motions of a driving gear, and the design idea that one rotation motion is finally converted into two symmetrical rotation motions is realized. When galloping of the overhead power transmission line is restrained, the swing amplitude of pendulum bobs can be adjusted by combining the conductor galloping amplitude which is monitored in real time. After galloping acceleration signals caused by different wind speeds are monitored, conductor galloping acceleration signals are transmitted to a signal processing system through a conductor, the signals are processed by the signal processing system, and the processed signals are output to an anti-galloping control device through a conductor. The anti-galloping control device conducts recognition on the signals and outputs control instructions, the control instructions are transmitted into a stepping motor through a conductor and the stepping motor rotates by corresponding angles according to the control instructions so as to adjust the amplitude of the motions of the pendulum bobs.
Active anti-galloping device of overhead power transmission line
Active anti-galloping device of overhead power transmission line
Active anti-galloping device of overhead power transmission line
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Owner:BEIJING INSTITUTE OF TECHNOLOGYGY

Measurement method of power transmission line iced conductor galloping aerodynamic parameters

ActiveCN104913900AGalloping aerodynamic parameters are favorableAerodynamic testingEngineeringTorque coefficient
The invention discloses a measurement method of power transmission line iced conductor galloping aerodynamic parameters. The measurement method includes the following steps that: the galloping lift coefficient, galloping drag coefficient and galloping torque coefficient of a power transmission line iced conductor are acquired; 2) a plurality of cameras are utilized to perform multi-angle image capture on the power transmission line iced conductor, and the icing outline of the power transmission line iced conductor is obtained through a "three-tower two-gear" equivalent icing thickness mechanical calculation model, and an icing shape is obtained through fitting, and therefore, an actual icing shape of the power transmission line iced conductor can be obtained; 3) an inertial navigation sensor is used in combination with power transmission line conductor galloping trajectory reduction technology, so that the real-time wind attack angle of the power transmission line iced conductor can be obtained; 4) all the obtained data are utilized to draw aerodynamic parameter curves under the actual icing shape and the wind attack angle, and as a result the measurement of the galloping aerodynamic parameters of the power transmission line iced conductor can be completed. With the measurement method of the invention adopted, the aerodynamic parameters in the galloping of the power transmission line iced conductor can be measured actually.
Measurement method of power transmission line iced conductor galloping aerodynamic parameters
Measurement method of power transmission line iced conductor galloping aerodynamic parameters
Measurement method of power transmission line iced conductor galloping aerodynamic parameters
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Owner:西安金源电气股份有限公司

Multi-element conductor galloping early warning method based on deep learning and a related device

ActiveCN109492756AImprove universalityImprove accuracyNeural architecturesTerrainLongitude
The invention provides a multi-element conductor galloping early warning method based on deep learning and a related device. The method comprises the following steps: collecting related information ofa target coordinate point, wherein the related information of the target coordinate point comprises latitude and longitude, altitude, temperature, relative humidity and wind speed of the target coordinate point, sounding temperature in sounding data, and a difference value between the sounding temperature and dew point temperature; inputting the collected related information of the target coordinate points as input sample elements of a pre-trained model into the model; and obtaining a galloping early warning result which is output by the model and is used for representing whether the target coordinate point is a galloping point. According to the method, the influence of ground meteorological factors, high-altitude meteorological factors, terrains and geographic positions on power transmission line galloping is comprehensively considered, the universality and accuracy of wire icing galloping prediction are improved, and effective early warning information can be provided for power transmission line galloping under various terrain conditions of various regions in China.
Multi-element conductor galloping early warning method based on deep learning and a related device
Multi-element conductor galloping early warning method based on deep learning and a related device
Multi-element conductor galloping early warning method based on deep learning and a related device
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Owner:中国气象局公共气象服务中心 +2

ANSYS numerical simulation method of ice-covered conductor galloping based on beam element

ActiveCN109033666AForm-findingImprove reliabilityData processing applicationsDesign optimisation/simulationNODALEngineering
The invention discloses an iced conductor galloping ANSYS numerical simulation method based on a beam element, comprising the following steps: establishing a conductor static model; the static model of conductor being extended to the transmission line, and the static model of transmission line being obtained; establishing a split spacer bar model; solving the lifting force, damping force and torque of any conductor; loading the lifting force, damping force and torque wire model to obtain the wire force model; solving a transformation matrix to obtain the motion displacement value and the velocity value of all nodes of the local coordinate unit of the traverse; transforming the overall coordinate system of the traverse displacement into a local element coordinate system; the nodal forces attwo nodes of each local element of a single wire being solved, and the overall force of the wire being obtained by using the transformation matrix. The ice galloping model of conductor is obtained bytransforming the whole force of conductor into the whole coordinate system. Then the ice galloping model of transmission line is obtained. The utility model has the advantages that the anti-gallopingeffect of the split spacer rod is tested by changing the installation mode of the split spacer rod so as to improve the reliability of the transmission line.
ANSYS numerical simulation method of ice-covered conductor galloping based on beam element
ANSYS numerical simulation method of ice-covered conductor galloping based on beam element
ANSYS numerical simulation method of ice-covered conductor galloping based on beam element
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Owner:STATE GRID HENAN ELECTRIC POWER ELECTRIC POWER SCI RES INST +2

Transmission line galloping monitoring method based on OPGW ground wire induced current

ActiveCN109000716ARealize galloping monitoringLong monitoring distanceMeasurement devicesCouplingEngineering
The invention discloses a transmission line galloping monitoring method based on OPGW ground wire induced current. It is assumed that the galloping frequency, galloping amplitude and galloping position of a transmission line conductor need to be deduced by measuring the induced current on an OPGW ground wire of an N-th base tower of a transmission line. The transmission line galloping monitoring method comprises the following steps that a current transformer is installed on the OPGW ground wire of the N-th base tower, and the output end of the current transformer is connected with wave recorders; the wave recorders are provided with a trigger threshold value, and the wave recorders do not record waveforms when the line works normally; and when the conductor gallops, the OPGW ground wire iscoupled with induced overcurrent, the wave recorders are triggered and record the current waveforms; according to signal analysis and an electromagnetic field theory, the coupling coefficient betweenthe OPGW ground wire and conductor is calculated, so that the galloping frequency and galloping amplitude of the conductor are calculated; and by analyzing the waveforms recorded by the wave recorders installed on different towers, the galloping position is located.
Transmission line galloping monitoring method based on OPGW ground wire induced current
Transmission line galloping monitoring method based on OPGW ground wire induced current
Transmission line galloping monitoring method based on OPGW ground wire induced current
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Owner:TSINGHUA UNIV

Conductor galloping instability analysis method

ActiveCN106484927AGood effectObtain the starting wind speed convenientlySpecial data processing applicationsInstabilityEngineering
The invention relates to a conductor galloping instability analysis method. The method comprises the steps of (1) determining pneumatic parameters and a pneumatic load according to an eccentric icing form of a conductor; (2) building a conductor galloping oscillation starting wind speed calculation model for calculating a conductor galloping oscillation starting wind speed according to the pneumatic parameters and an oscillator model; and (3) calculating a conductor galloping amplitude characteristic according to the pneumatic parameters and the conductor galloping oscillation starting wind speed calculation model. The technical scheme has a very important effect for improving the accuracy and effectiveness of anti-galloping design of a power transmission line.
Conductor galloping instability analysis method
Conductor galloping instability analysis method
Conductor galloping instability analysis method
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Owner:CHINA ELECTRIC POWER RES INST +2

500kV compact type electric transmission line three-phase bundled conductor galloping simulation test platform

InactiveCN103439071AEasy to fixAutomatic tensionVibration testingThree-phaseConductor gallop
The invention discloses a 500kV compact type electric transmission line three-phase bundled conductor galloping simulation test platform. The 500kV compact type electric transmission line three-phase bundled conductor galloping simulation test platform is characterized by comprising a three-phase bundled conductor traction field system, a three-phase bundled conductor galloping platform system and a three-phase bundled conductor tension field system. A three-phase bundled conductor is erected through a reaction wall and a tension end steel framework, a bundled conductor galloping testing machine exerts vibration on the three-phase bundled conductor, three-phase bundled conductor galloping in the actual engineering is simulated, and therefore galloping fatigue test research, galloping-prevention performance test research and novel galloping-prevention fitting development test research can be carried out on the three-phase bundled conductor and a whole inter-phase spacer composed of an inter-phase spacer body and an inter-phase spacer connecting fitting. The 500kV compact type electric transmission line three-phase bundled conductor galloping simulation test platform has the advantages of being real in simulation, reliable in result and the like.
500kV compact type electric transmission line three-phase bundled conductor galloping simulation test platform
500kV compact type electric transmission line three-phase bundled conductor galloping simulation test platform
500kV compact type electric transmission line three-phase bundled conductor galloping simulation test platform
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Owner:NORTHEAST DIANLI UNIVERSITY

Damping connection type multi-split conductor current-disturbing anti-galloping device

ActiveCN105633895AImprove energy absorptionReduce gallopingDevices for damping mechanical oscillationsConnection typeEngineering
The invention relates to a damping connection type multi-split conductor current-disturbing anti-galloping device. The device comprises a framework and wire clamps, wherein the wire clamps are arranged on the framework, perpendicular to the axial direction of the framework, and arranged outwardly; an inner framework and damping apparatuses are arranged on the same plane of the framework; fixed columns are axially fixed on the framework; and current-disturbing wires wind the side faces of the fixed columns. The current-disturbing anti-galloping device is applicable to prevention of multi-split power transmission line galloping; common multi-split spacing rods are designed and improved, so that the flow field characteristics among the multi-split conductors are effectively changed, the conductor galloping energy can be absorbed, the galloping probability of the power transmission line is lowered, and security and reliability of the line are improved.
Damping connection type multi-split conductor current-disturbing anti-galloping device
Damping connection type multi-split conductor current-disturbing anti-galloping device
Damping connection type multi-split conductor current-disturbing anti-galloping device
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Owner:STATE GRID CORP OF CHINA +3

Overhead conductor galloping testing device and testing method on basis of gear-end displacement excitation

InactiveCN102564717AFully understand the mechanism of dancingPrevent dancingVibration testingMeasurement pointExcitation amplitude
The invention discloses an overhead conductor galloping testing device and an overhead conductor galloping testing method on the basis of the gear-end displacement excitation and belongs to the technical field of galloping prevention of an overhead conductor. The testing device comprises conductor hanging devices, a transverse driving device, the overhead conductor and insulator strings. The conductor hanging devices are fixed on the ground. Both ends of the overhead conductor are respectively connected with two conductors hanging devices through the insulator strings. The transverse driving device is connected with the insulator strings. The testing method is implemented by steps of determining a measured point, loading, recording, analyzing and the like. According to the invention, the transverse driving device is matched with the overhead conductor to simulate the galloping condition of the overhead conductor in practice when the overhead conductor is subjected to gear-end displacement excitation along the direction of the overhead conductor; the testing device and the testing method are used for researching the galloping rules of the overhead conductor under the conditions of different spans, different excitation frequencies and different excitation amplitude; the defect of conventionally only carrying out galloping excitation on the conductor in the direction vertical to the overhead conductor is overcome; testers can more comprehensively know the galloping mechanism of the overhead conductor so as to give the galloping prevention measures.
Overhead conductor galloping testing device and testing method on basis of gear-end displacement excitation
Overhead conductor galloping testing device and testing method on basis of gear-end displacement excitation
Overhead conductor galloping testing device and testing method on basis of gear-end displacement excitation
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Owner:NORTH CHINA ELECTRIC POWER UNIV (BAODING)

Conductor galloping monitoring method based on concentric circle detection

PendingCN111307267ARepair Feature InformationImprove recognition rateImage enhancementImage analysisEngineeringVideo image
The invention discloses a conductor galloping monitoring method based on concentric circle detection. The method comprises the steps: fixing a concentric circle-shaped object on a power transmission conductor, enabling a camera to collect a video image containing the concentric circle-shaped object in real time, and calculating the central coordinates of the concentric circle-shaped object throughthe recognition of concentric circles in the image; the conductor galloping track can be obtained by recording center coordinate changes, and the maximum amplitude of conductor galloping and the mainfrequency of galloping are further calculated, so that the effect of dynamically monitoring the conductor galloping condition in real time is achieved.
Conductor galloping monitoring method based on concentric circle detection
Conductor galloping monitoring method based on concentric circle detection
Conductor galloping monitoring method based on concentric circle detection
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Owner:INTELLIGENT MFG INST OF HFUT +1

Power transmission conductor galloping amplitude measurement method

InactiveCN105890739AEasy to carryQuick installationSubsonic/sonic/ultrasonic wave measurementUsing wave/particle radiation meansMeasurement deviceRemote control
The invention relates to a power transmission conductor galloping amplitude measurement method. According to the power transmission conductor galloping amplitude measurement method, a measurement device composed of a small-sized remote control unmanned aerial vehicle (1) and a small-sized high-definition image pickup instrument (2) which has cross scale marks and is installed at the bottom of the small-sized remote control unmanned aerial vehicle (1) is utilized to realize multi-azimuth and multi-angle observation of the galloping form of a power transmission conductor (3). With the power transmission line galloping amplitude measurement method adopted, an optimal position can be selected, so that the galloping amplitude of the power transmission conductor can be measured at the position, and a measurement angle and the conductor are located at the same horizontal plane; the images of the highest point and the lowest point of the galloping of the conductor can be obtained accurately; a conversion method is simpler; the defects of limited measurement angles and complex conversions methods in existing methods can be eliminated; measurement results can be more accurate and effective; the measurement results can provide data support for follow-up galloping prevention and control work; and safe and stable operation of a power grid can be ensured.
Power transmission conductor galloping amplitude measurement method
Power transmission conductor galloping amplitude measurement method
Power transmission conductor galloping amplitude measurement method
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Owner:ELECTRIC POWER RES INST STATE GRID JIANGXI ELECTRIC POWER CO +1

Active anti-galloping executing mechanism of overhead power transmission line

InactiveCN103762537ADancing stopReal-time monitoring of dancingDevices for damping mechanical oscillationsDrive shaftConductor gallop
The invention discloses an active anti-galloping executing mechanism of an overhead power transmission line, and belongs to the technical field of power transmission line safety protection. The active anti-galloping executing mechanism of the overhead power transmission line comprises a stepping motor, a driving gear, a rack, a first driven gear, a second driven gear, a first transmission shaft, a second transmission shaft, a first pendulum bob and a second pendulum bob. Rotation motions of the driving gear are transmitted by the adoption of the rack, the design idea that one rotation motion is finally converted into two symmetrical rotation motions is realized, the conductor galloping conditions can be monitored in real time according to conductor acceleration signals when galloping of the overhead power transmission line is restrained, and the motion amplitude of the pendulum bobs can be adjusted according to the conductor galloping amplitude. The cylindrical pendulum bobs are adopted, so that in the working process, resistance is large, and therefore conductor galloping is more effectively prevented.
Active anti-galloping executing mechanism of overhead power transmission line
Active anti-galloping executing mechanism of overhead power transmission line
Active anti-galloping executing mechanism of overhead power transmission line
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Owner:BEIJING INSTITUTE OF TECHNOLOGYGY

Conductor galloping suppression system of power transmission line and control method of conductor galloping suppression system

PendingCN108400567AControl positionQuick responseDevices for damping mechanical oscillationsMonitoring systemConductor gallop
The invention discloses a conductor galloping suppression system of a power transmission line. The conductor galloping suppression system comprises a power transmission line conductor, a machine caseand a horizontal suppression block; the horizontal suppression block is in mechanical connection with the machine case through an L-shaped connecting arm a; a perpendicular suppression block is in mechanical connection with the machine case through an L-shaped connecting arm b; a rectangular through hole a with a horizontal length of 2d and a perpendicular length of d is formed in the middle of the horizontal suppression block; a rectangular through hole b with a horizontal length of d and a perpendicular length of 2d is formed in the middle of the perpendicular suppression block, wherein d isthe diameter of the power transmission line conductor; the power transmission line conductor passes through the rectangular through hole a and the rectangular through hole b; a horizontal suppressiontransmission apparatus is arranged between the horizontal suppression block and the machine case; and a perpendicular suppression transmission apparatus is arranged between the perpendicular suppression block and the machine case. The conductor galloping suppression system controls the position of the power transmission line conductor to be stable for preventing galloping; and in addition, by virtue of a monitoring system of the apparatus, the conductor state can be monitored in real time.
Conductor galloping suppression system of power transmission line and control method of conductor galloping suppression system
Conductor galloping suppression system of power transmission line and control method of conductor galloping suppression system
Conductor galloping suppression system of power transmission line and control method of conductor galloping suppression system
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Owner:GUIZHOU POWER GRID CO LTD

Simulation test method for galloping of iced conductor

InactiveCN112036115AReliable resultsComputer aided designSpecial data processing applicationsMechanical modelsKinetics equation
The invention discloses a simulation test method for galloping of an iced conductor. According to the method, a four-degree-of-freedom multi-gear conductor-insulator system mechanical model is established by utilizing self-programming software. The method comprises steps of determining the initial tension of the wire through a stress state equation according to the typical meteorological conditioncombination, and determining the displacement of the conductor in an initial state by applying a catenary model, utilizing the aerodynamic characteristics of the iced conductor to obtain the stress condition of the conductor under the action of wind power, obtaining a conductor kinetic equation, and then adopting an explicit direct integral algorithm based on center difference to solve the displacement and stress condition of each node of the conductor at the discrete moment. According to the method, through simulation calculation, reliable results can be provided for solving the problems ofdisplacement and tension calculation at discrete moments when the iced conductor gallops under different working conditions. Therefore, scheme reference is provided for field tests, suggestions are provided for power transmission line design, data support is provided for actual line operation, and early warning is made for possible severe working conditions.
Simulation test method for galloping of iced conductor
Simulation test method for galloping of iced conductor
Simulation test method for galloping of iced conductor
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Owner:STATE GRID JIANGXI ELECTRIC POWER CO LTD RES INST +2

Triggering type anti-galloping device and wire galloping monitoring device and method

PendingCN111030020ARealize galloping monitoringWith detuningDevices for damping mechanical oscillationsMeasurement devicesControl theoryLinearity
The invention provides a triggering type anti-galloping device and a wire galloping monitoring device and method. The triggering type anti-galloping device comprises a pendulum bob shell (6), a triggering type sensor (5) arranged in the pendulum bob shell (6), a first spring (7) and a second spring (8). The triggering type sensor (5) is connected with the inner wall of the pendulum bob shell (6) through the first spring (7) and the second spring (8). The triggering type sensor (5) is used to collect the position coding information of the wire. The linear rigidity and the cubic rigidity of thependulum bob are determined on the basis of the nonlinear energy groove theory, the anti-galloping effect limitation is small, the anti-galloping effect is good, and conductor galloping monitoring canbe achieved. The galloping characteristic of the conductor length body is effectively changed, and the easy galloping during low wind speed and thin icing is avoided; according to the conductor galloping monitoring device provided by the invention, the conductor galloping condition is monitored through interaction between the plurality of triggering type anti-galloping devices and the relay system, and a basis is provided for disaster prevention and reduction.
Triggering type anti-galloping device and wire galloping monitoring device and method
Triggering type anti-galloping device and wire galloping monitoring device and method
Triggering type anti-galloping device and wire galloping monitoring device and method
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Owner:CHINA ELECTRIC POWER RES INST +2

An Analysis Method for Conductor Galloping Instability

ActiveCN106484927BImprove accuracyImprove effectivenessDesign optimisation/simulationClassical mechanicsEngineering
An Analysis Method for Conductor Galloping Instability
An Analysis Method for Conductor Galloping Instability
An Analysis Method for Conductor Galloping Instability
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Owner:CHINA ELECTRIC POWER RES INST +2

Electromagnetic damping type transmission conductor galloping suppression device

PendingCN114172103ABroaden the frequency range of vibration absorptionEnhanced inhibitory effectMaintaining distance between parallel conductorsDevices for damping mechanical oscillationsMagnetic dampingMagnetic poles
An electromagnetic damping type transmission conductor galloping suppression device comprises a conductor spacer and an electromagnetic damping device used for suppressing conductor galloping. The electromagnetic damping device comprises two metal pipes which are fixedly connected in a crossed mode. Each metal pipe is provided with two containing cavities, and the two containing cavities in each metal pipe are formed in the two sides of the crossed and fixedly-connected position of the two metal pipes correspondingly. The two metal tubes are oppositely fixed on the inner side or below the conductor spacer; the electromagnetic damping device further comprises four permanent magnets which are arranged in the containing cavity in a sleeved mode and can move relatively and freely. According to the device, induced eddy current is generated through relative movement between the permanent magnet and the metal pipe and reacts on the magnetic pole, and the purposes of widening the vibration absorption frequency range and improving the suppression effect are achieved.
Electromagnetic damping type transmission conductor galloping suppression device
Electromagnetic damping type transmission conductor galloping suppression device
Electromagnetic damping type transmission conductor galloping suppression device
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Owner:CHINA ELECTRIC POWER RES INST

Method for calculating load of hanging point of power transmission line tower during conductor galloping

ActiveCN101866395BEasy to analyzeImprove applicabilitySpecial data processing applicationsPhase differenceElement analysis
The invention provides a method for calculating the load of a hanging point of a power transmission line tower during conductor galloping. In the method, the conductor galloping amplitude is determined in a weather coefficient method, and the conductor galloping load is determined through theoretical analysis and finite element simulation based on consideration of different influencing factors. The method comprises the following steps: firstly, using a model with two gears and two strain sections to determine the horizontal galloping tension and the tension difference at the hanging point through theoretical analysis under different wind speeds, ice thicknesses, structural parameters of the conductor, gear spans and phase differences; secondly, using a continuous multi-gear model to determine rules of influence of the hanging way and the gear number on the horizontal galloping tension and the tension difference through finite element analysis, and correcting results of the theoreticalcalculation of the two-gear model; and thirdly, transforming the horizontal galloping tension and the tension difference into the load of the hanging point according to the tower type and the rotation angle. The method integrates the influence of the weather, the structural parameters of the conductor, the hanging way, the gear span, the gear number and the like. Compared with the traditional analytical method which adopts the single-gear model, the method has higher applicability and higher accuracy.
Method for calculating load of hanging point of power transmission line tower during conductor galloping
Method for calculating load of hanging point of power transmission line tower during conductor galloping
Method for calculating load of hanging point of power transmission line tower during conductor galloping
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Owner:CHINA ELECTRIC POWER RES INST +1

Conductor galloping online monitoring method and device based on rectangular image detection

PendingCN113870220AImprove accuracyUpdate quickly and accuratelyImage enhancementImage analysisNight visionComputer graphics (images)
The invention discloses a conductor galloping on-line monitoring method and device based on rectangular image detection, and the method comprises the steps: installing a rectangular marker at a conductor sag point, erecting an infrared night vision camera on a tower, shooting the marker, obtaining video data, processing the video data, so that center coordinates of the rectangular marker are obtained, and then the information such as the conductor galloping track and the maximum amplitude of conductor galloping is obtained. According to the invention, conductor galloping can be monitored in real time, and the conductor galloping identification rate and detection precision are improved.
Conductor galloping online monitoring method and device based on rectangular image detection
Conductor galloping online monitoring method and device based on rectangular image detection
Conductor galloping online monitoring method and device based on rectangular image detection
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Owner:HEFEI UNIV OF TECH

Method and system for evaluating fatigue life of high-voltage composite cross arm

ActiveCN110991098AAccurate life assessmentDesign optimisation/simulationElement modelFatigue life assessment
The invention discloses a method and a system for evaluating the fatigue life of a high-voltage composite cross arm, and the method comprises the steps: calculating the dynamic mounting force of the cross arm generated by the conductor galloping of a high-voltage transmission line according to the conductor galloping theory; establishing a finite element model of the high-voltage composite cross arm, determining a key section with the maximum stress, applying a dynamic load to extract a stress time history of the key section in the cross arm structure, and taking the stress time history as a basis for fatigue evaluation; fitting a stress amplitude-fatigue life S-N curve by utilizing fatigue test data of the composite cross arm, estimating the service condition of the composite cross arm byutilizing historical data of conductor galloping, and estimating the expected fatigue life of the composite cross arm. According to the method, a more complete method for evaluating the service lifeof the high-voltage composite cross arm structure is formed, so that the service life evaluation of the high-voltage line cross arm is more accurate.
Method and system for evaluating fatigue life of high-voltage composite cross arm
Method and system for evaluating fatigue life of high-voltage composite cross arm
Method and system for evaluating fatigue life of high-voltage composite cross arm
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Owner:STATE GRID JIANGSU ELECTRIC POWER CO ELECTRIC POWER RES INST +4

An overhead conductor galloping test device and test method based on gear end displacement excitation

InactiveCN102564717BFully understand the mechanism of dancingPrevent dancingVibration testingMeasurement pointExcitation amplitude
The invention discloses an overhead conductor galloping testing device and an overhead conductor galloping testing method on the basis of the gear-end displacement excitation and belongs to the technical field of galloping prevention of an overhead conductor. The testing device comprises conductor hanging devices, a transverse driving device, the overhead conductor and insulator strings. The conductor hanging devices are fixed on the ground. Both ends of the overhead conductor are respectively connected with two conductors hanging devices through the insulator strings. The transverse driving device is connected with the insulator strings. The testing method is implemented by steps of determining a measured point, loading, recording, analyzing and the like. According to the invention, the transverse driving device is matched with the overhead conductor to simulate the galloping condition of the overhead conductor in practice when the overhead conductor is subjected to gear-end displacement excitation along the direction of the overhead conductor; the testing device and the testing method are used for researching the galloping rules of the overhead conductor under the conditions of different spans, different excitation frequencies and different excitation amplitude; the defect of conventionally only carrying out galloping excitation on the conductor in the direction vertical to the overhead conductor is overcome; testers can more comprehensively know the galloping mechanism of the overhead conductor so as to give the galloping prevention measures.
An overhead conductor galloping test device and test method based on gear end displacement excitation
An overhead conductor galloping test device and test method based on gear end displacement excitation
An overhead conductor galloping test device and test method based on gear end displacement excitation
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Owner:NORTH CHINA ELECTRIC POWER UNIV (BAODING)

Six-degree-of-freedom conductor galloping monitoring method, system and device

PendingCN114166337AImprove monitoring accuracyAcceleration measurement using interia forcesSubsonic/sonic/ultrasonic wave measurementFast Fourier transformOriginal data
The invention discloses a six-degree-of-freedom conductor galloping monitoring method, system and device. The method comprises the following steps: firstly, determining a conductor galloping frequency and a conductor galloping period according to an angular velocity by adopting a fast Fourier transform method; and then, a quaternion method is adopted, carrier displacement groups corresponding to the N galloping periods are determined according to the original data and the initial attitude quaternion, and finally, the conductor galloping amplitude is calculated according to the carrier displacement groups in the N galloping periods. The scheme disclosed by the invention not only can widen the application scene of conductor galloping monitoring, but also can improve the monitoring precision.
Six-degree-of-freedom conductor galloping monitoring method, system and device
Six-degree-of-freedom conductor galloping monitoring method, system and device
Six-degree-of-freedom conductor galloping monitoring method, system and device
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Owner:BEIJING GUOWANG FUDA SCI & TECH DEV

An active anti-dancing actuator for overhead transmission lines

InactiveCN103762537BDancing stopReal-time monitoring of dancingDevices for damping mechanical oscillationsDrive shaftEngineering
The invention discloses an active anti-galloping executing mechanism of an overhead power transmission line, and belongs to the technical field of power transmission line safety protection. The active anti-galloping executing mechanism of the overhead power transmission line comprises a stepping motor, a driving gear, a rack, a first driven gear, a second driven gear, a first transmission shaft, a second transmission shaft, a first pendulum bob and a second pendulum bob. Rotation motions of the driving gear are transmitted by the adoption of the rack, the design idea that one rotation motion is finally converted into two symmetrical rotation motions is realized, the conductor galloping conditions can be monitored in real time according to conductor acceleration signals when galloping of the overhead power transmission line is restrained, and the motion amplitude of the pendulum bobs can be adjusted according to the conductor galloping amplitude. The cylindrical pendulum bobs are adopted, so that in the working process, resistance is large, and therefore conductor galloping is more effectively prevented.
An active anti-dancing actuator for overhead transmission lines
An active anti-dancing actuator for overhead transmission lines
An active anti-dancing actuator for overhead transmission lines
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Owner:BEIJING INSTITUTE OF TECHNOLOGYGY

Anti-galloping phase-to-phase spacer

ActiveCN111082383ASolve the phenomenon of easy breakageResolve the breakMaintaining distance between parallel conductorsDevices for damping mechanical oscillationsEngineeringMechanical engineering
Anti-galloping phase-to-phase spacer
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Owner:CHINA ELECTRIC POWER RES INST +2

Monitoring system and monitoring method for transmission conductor galloping based on GPS

InactiveCN102721401BGood achievabilityRealize real-time monitoringAngle measurementSatellite radio beaconingDigital signal processingEngineering
The invention discloses a monitoring system and a monitoring method for transmission conductor galloping based on GPS (Global Position System). The monitoring system is characterized in that the monitoring system comprises a satellite signal receiving module, a satellite signal analyzing module, a digital signal processing module, a keyboard and a liquid crystal display module, a GSM (Global System for Mobile Communications) wireless communication module and a power supply management module. According to the monitoring system disclosed by the invention, two GPS antennae are fixed on an insulating string or suspended under a sample conductor; other parts of the monitoring system are respectively fixed on a tower head of a transmission conductor iron tower without influencing a galloping model of the conductor. The monitoring method disclosed by the invention has the advantages of favorable reliability, favorable dynamic performance, high technical level and capability of working all weather.
Monitoring system and monitoring method for transmission conductor galloping based on GPS
Monitoring system and monitoring method for transmission conductor galloping based on GPS
Monitoring system and monitoring method for transmission conductor galloping based on GPS
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Owner:HEFEI UNIV OF TECH

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