Contact line static space position-based contact network suspension three-dimensional rapid shape finding method

A technology of spatial position and contact line, applied in the direction of image data processing, special data processing applications, instruments, etc., can solve the problems that are not conducive to the rapid realization of large and complex catenary suspension form-finding and lack, so as to improve production efficiency and construction accuracy Effect

Active Publication Date: 2019-11-19
CHINA RAILWAY FIRST SURVEY & DESIGN INST GRP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The patent "A Calculation Method for Initial Static Balance State of Electrified Railway Catenary" and the document [Zou Dong. Research on Vibration Behavior of High-speed Railway Catenary [D]. 2017.] use finite element iteration to calculate the displacement increment of each node of the catenary, Update the coordinates of the catenary structure nodes, take the displacement of the catenary model under the action of gravity less than a certain set capacity as the convergence index, determine the final three-dimensional static suspension shape of the catenary by judging the size of the displacement increment, and use this method to calculate the EN50318 reference model 1, the number of iterations is 16, and the calculation time is directly related to the number of iterations. If the calculation model is complex and the number of nodes is large, more iterative calculations will not be conducive to the rapid realization of large-scale complex catenary suspension form-finding. shape
[0004] Summarizing the existing technology, it is found that the current form-finding methods for catenary suspension are mostly aimed at the two-dimensional form-finding of catenary suspension for the design value of the static space position of the catenary. Or maintenance stage, for the catenary suspension 3D form-finding of the design value or actual value of the static space position of the contact line, especially the fast form-finding

Method used

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  • Contact line static space position-based contact network suspension three-dimensional rapid shape finding method
  • Contact line static space position-based contact network suspension three-dimensional rapid shape finding method
  • Contact line static space position-based contact network suspension three-dimensional rapid shape finding method

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Experimental program
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Effect test

Embodiment 1

[0128] Refer to the simulation reference model parameters given in Appendix B of the standard EN50318-2018 "Railway applications-Current collection systems-Validation of simulation of the dynamic interaction between pantograph and overhead contact line", and use the method of the present invention to calculate the static space position of the contact line as the design The three-dimensional shape and static space position of the elastic chain suspension of the value, such as Figure 9-10 shown. The difference between the design value and the calculated value of the vertical position of the suspension chord point and the anchor point of the contact line is less than 0.5mm, such as Figure 7 shown. The difference between the design value and the calculated value of the hanging string length is less than 1.6mm, such as Figure 8 shown. It shows that the method of the present invention is very accurate for the three-dimensional static form-finding calculation of catenary suspen...

Embodiment 2

[0130] According to the measured data of the static space position of the contact line on the spot, utilize the method of the present invention, calculate the static space position of the contact line as the three-dimensional shape and the static space position of the elastic chain suspension of the test value, such as Figure 19-20 shown. The difference between the test value and the calculated value of the vertical position of the suspension string point and the anchor point of the contact wire is less than 1.5mm, if Figure 21 shown. It shows that the method of the present invention is also very accurate for the three-dimensional static form-finding calculation of the catenary suspension where the static spatial position of the catenary is the test value.

[0131] The technical solution of the present invention has the following characteristics:

[0132] (1) A three-dimensional rapid form-finding method for catenary suspension based on the static spatial position of the c...

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Abstract

The invention relates to a contact line static space position-based contact network suspension three-dimensional rapid shape finding method. The method comprises the following steps: firstly, calculating vertical forces of a contact line dropper point and a positioning point according to a contact line static space position; calculating the three-dimensional static shapes of the carrier cable andthe elastic sling according to the static space position of the contact line, the vertical force of the dropper point and the displacement constraint of the dropper point of the contact line; calculating the gradient and the spatial position of the positioner according to the static spatial position of the contact line, the vertical force of the positioning point and the length of the positioner;and finally, calculating the three-dimensional static shape of the contact network suspension according to the three-dimensional static shapes of the carrier cable and the elastic sling at the staticspace position of the contact line and the slope of the positioner. According to the method, the actual stress state and elastic deformation of the overhead line system suspension cable are considered, the method is simple and efficient, simple chain shapes of various line conditions and actual contact line static space positions and three-dimensional static shapes of elastic chain shape suspension can be accurately calculated, and the method is directly applied to pantograph-catenary system design, overhead line system construction pre-configuration and overhead line system state maintenance.

Description

technical field [0001] The invention relates to the technical field of railway catenary, in particular to a three-dimensional rapid form-finding method for catenary suspension based on the static spatial position of catenary. Background technique [0002] The catenary is a power supply network laid along the railway, which transmits electric energy through the sliding contact between the catenary wire and the pantograph above the high-speed EMU. The static position of catenary wire in space affects the dynamic current receiving performance of pantograph and catenary, as well as the vibration load of catenary components. The standard TB 10758-2018 "Construction Quality Acceptance Standard for High-speed Railway Electric Traction Power Supply Engineering" has strict regulations on the static space position of the contact line, such as: the allowable deviation of the pull-out value of the contact line is ±30mm, and the allowable deviation of the height of the suspension point o...

Claims

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Application Information

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IPC IPC(8): G06F17/50G06T17/00
CPCG06T17/00
Inventor 关金发田志军张学武宫衍圣赵玮唐晓岚吴亚飞李晋刘刚张珹
Owner CHINA RAILWAY FIRST SURVEY & DESIGN INST GRP
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