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Analytical Calculation Method for Optimum Damping Ratio of Secondary Lateral Mounts of High Speed ​​Rail Vehicles

A technology for optimal damping ratio and high-speed orbit, applied in calculation, special data processing applications, instruments, etc., can solve problems such as analytical calculation methods without a given system, dynamic analysis and calculation difficulties, etc.

Inactive Publication Date: 2017-11-17
SHANDONG UNIV OF TECH
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  • Application Information

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Problems solved by technology

However, according to the available information, since the rail vehicle is a multi-degree-of-freedom vibration system, it is very difficult to perform dynamic analysis and calculation on it. At present, there is no system for the design of the damping ratio of the secondary lateral mount of the high-speed rail vehicle at home and abroad. Most of the analytical calculation methods are to select a certain damping ratio based on experience (usually the empirical damping ratio is 0.2-0.4), and then, with the help of computer technology, use the multi-body dynamics simulation software SIMPACK or ADAMS / Rail to optimize the and determine its size, although this method can obtain more reliable simulation values, so that the vehicle has better dynamic performance, however, with the continuous increase in the speed of rail vehicles, people put forward the design of the damping ratio of the secondary lateral suspension Higher requirements, the current method for the design of the damping ratio of the secondary lateral mount cannot provide an innovative theory with guiding significance, and cannot meet the development of the design requirements of the shock absorber under the condition of continuous speed increase of rail vehicles

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  • Analytical Calculation Method for Optimum Damping Ratio of Secondary Lateral Mounts of High Speed ​​Rail Vehicles
  • Analytical Calculation Method for Optimum Damping Ratio of Secondary Lateral Mounts of High Speed ​​Rail Vehicles
  • Analytical Calculation Method for Optimum Damping Ratio of Secondary Lateral Mounts of High Speed ​​Rail Vehicles

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Embodiment Construction

[0061] specific implementation plan

[0062] The present invention will be further described in detail through an embodiment below.

[0063] Two transverse shock absorbers are installed on each bogie of a high-speed rail vehicle, that is, n=2; the full-load mass of its 1 / 2 single-section car body m 3 =31983kg, the mass of a single bogie frame m 2 =2758kg, the equivalent mass of the wheel set m 1 =3442kg, each axle weight W=150000N; the equivalent stiffness K of the lateral positioning spring of a series of wheelset 1y =9784000N / m, the equivalent stiffness K of the central spring 2y =180000N / m; half of the lateral distance between the wheel and rail contact point b=0.7465m, the equivalent slope of the wheel tread λ=0.15, the lateral creep coefficient of the wheel f 1 =16990000N; the damping ratio of the secondary transverse mount to be designed is ξ, where the equivalent damping coefficient of the secondary transverse shock absorber The vehicle speed v=300km / h required fo...

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Abstract

The invention relates to an analytical calculation method for an optimal damping ratio of a secondary lateral mount of a high-speed rail vehicle, and belongs to the technical field of high-speed rail vehicle mounts. The present invention establishes a 1 / 2 car body running yaw vibration model, and takes the best riding comfort of the human body and the minimum lateral force on the wheel set and wheel axle as the design goals, and calculates the secondary lateral suspension based on comfort and safety. The optimal damping ratio of the system is calculated, and the optimal damping ratio of the secondary lateral suspension system is calculated by using the golden section principle. Through the design example and SIMPACK simulation verification, it can be seen that the method can obtain the accurate and reliable optimal damping ratio of the secondary lateral mount system, and provides a reliable design method for the design of the damping ratio of the secondary lateral mount of high-speed rail vehicles. Using this method can not only improve the design level of the suspension system of high-speed rail vehicles, but also improve the ride comfort and safety of the vehicles; at the same time, it can also reduce the design and test costs and enhance the international market competitiveness of my country's rail vehicles.

Description

technical field [0001] The invention relates to a high-speed rail vehicle mount, in particular to an analytical calculation method for the optimum damping ratio of the secondary lateral mount of the high-speed rail vehicle. Background technique [0002] The damping ratio of the secondary lateral suspension system has an important influence on the ride comfort and safety of high-speed rail vehicles, and its design or selection is an important parameter for designing the shock absorber valve system parameters of the secondary lateral suspension system. However, according to the available information, since the rail vehicle is a multi-degree-of-freedom vibration system, it is very difficult to perform dynamic analysis and calculation on it. At present, there is no system for the design of the damping ratio of the secondary lateral mount of the high-speed rail vehicle at home and abroad. Most of the analytical calculation methods are to select a certain damping ratio based on ex...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/50
Inventor 周长城于曰伟赵雷雷
Owner SHANDONG UNIV OF TECH
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