液压缓冲器

大口径狙击步枪自适应液压缓冲器设计

The Design of Hydraulic Buffer for Big Caliber Sniper Rifle with Adaptive Control

一种被动式液压缓冲器原理及工作过程仿真研究

Simulation Research on Theory of the Passive Hydraulic Buffer and Its Working Process

利用Matlab优化工具箱对某型大口径狙击步枪液压缓冲器的优化分析，可根据全枪动力模型及缓冲器液压阻力的相关公式得出一组优化的结构参数。

Using the optimization toolbox of MATLAB , this article analyzed the hydraulic bumper of a type of big caliber sniper rifle . Based on dynamics model of whole gun and hydraulic formula of the bumper , a group of optimized parameters of the bumper were got .

采用球面活塞的液压缓冲器特性研究

The Investigation of Characteristics of Oil Shock Absorber with Sphericity Piston

液压缓冲器特性及其检测方法研究

Study for the Characteristic of Hydraulic Bumper and Its Test Method

活塞式蓄能器在电梯用液压缓冲器中的应用

Application of Piston Accumulator in Oil Buffer Used in Elevator

变节流液压缓冲器在冲击机上的应用

Application of Hydraulic Buffer with Variable Throttle to Impact

多孔式液压缓冲器仿真与优化设计

Simulation and Optimum Design to the Multi-orifice Hydraulic Buffer

小型液压缓冲器的动态特性分析

Study on dynamic characteristics of small hydraulic bumper

活塞复位式液压缓冲器的研究

Research on Hydraulic Buffer Restored by Piston Accumulator

一种可调节小型高效液压缓冲器

A miniaturized , efficient and adjustable hydraulic buffer

矿用提升设备液压缓冲器的设计

Design of hydraulic buffer of mine hoisting equipment

介绍了一种新型的液压缓冲器，并作了理论分析。

A new type of hydraulic cushion was introduced and theoretical analysis was carried out .

介绍液压缓冲器检测系统的检测原理、系统结构和检测流程；

Introducing the hydraulic bumper-test system 's test principle , system structure and test flow ;

气动缓冲和液压缓冲器的原理和特性研究

Research on the Principles and Characteristics of Hydraulic Shock Absorbers and Pneumatic Cylinders with Air Buffer

介绍越野车辆液压缓冲器的应用背景，以及液压缓冲器的结构特点和工作原理；

Introducing application background of cross country vehicle-hydraulic bumper and its structural features and principle of work ;

液压缓冲器的研制

Development of Hydraulic buffer

介绍液压缓冲器的基本构成、种类、工作原理以及液压缓冲器的各种缓冲特性模型；

Introducing the hydraulic bumper 's essentially comprising , species , principle of work and diversified absorption characteristic model ;

本论文从工程应用出发，对越野车辆液压缓冲器的特性与检测方法进行了研究。

Aiming at technical application , the paper has studied the characteristic and test method of cross country vehicle-hydraulic bumper .

建立液压缓冲器的综合特性模型与缓冲过程动态模型，并进行仿真计算；

Making the overall characteristic model and the dynamic buffering process model of hydraulic bumper and carrying through simulation calculation ;

分析了液压缓冲器的结构及其动态工作过程，介绍了基于结构的神经网络建模方法。

The structure and dynamic working process of hydraulic bumper were discussed . The modeling method using architecture based neural network was introduced .

随着机械设备向高速化、大型化发展，缓冲性能良好的液压缓冲器有着越来越重要的地位。

With the development of equipments ' giant and high-speed , hydraulic buffer which has an excellent performance is becoming more and more important .

结果表明，采用液压缓冲器是降低大口径狙击步枪后坐力的可行技术途径。

The result illuminated that using the hydraulic bumper in big caliber sniper rifle to reduce the heavy kick is a feasible technology approach .

对液压缓冲器的各种特性，包括薄壁小孔流特性、球面缝隙流特性和油液的压缩性，进行研究计算，从而得到液压缓冲器的综合特性；

Studying characteristics of hydraulic bumper , including thin wall-orifice flow , spherical surface-slit flow and oil compressibility , sequentially gaining the overall characteristic of hydraulic bumper ;

应用该方法建立了52SFZ-140-207B型液压缓冲器基于结构的神经网络模型，并对系统的关键结构参数进行了优化。

By using this optimization method , the ABNN model of52SFZ-140-207B type of hydraulic bumper is established , and the key structural parameters of the hydraulic bumper are optimized .

对液压缓冲器的动态缓冲过程，进行数学建模和仿真计算，并对缓冲器的动态特性影响因素，如冲击载荷、油液的体积弹性系数等，进行讨论分析。

Making the dynamic buffering process model of hydraulic bumper and carrying through simulation calculation , and analyzing influencing factors of hydraulic bumper 's dynamic characteristic , including impulsive load , hydraulic oil 's volume elasticity modulus and so on .

本文推导出液压缓冲器在最佳受力状态时节流孔变化函数和复位弹簧的计算方法，并分析其它参数对缓冲器性能的影响。

In this paper , the variation function of throttle orifice and the method of calculating the reset spring are established on the basis of the best forced condition . This paper also analyses the influence of the other parameters on performance of the buffer .