在汽车驱动装置中,转向机构是极其重要的。
Steering mechanism is very important in the driving facilities of vehicles.
不同结构的转向机构转向性能存在很大差别。
There are big differences of steering performances in different structures of steering mechanisms.
应检查车架或前轴的技术状况及转向机构情况。
Frame or the front axle should check the technical condition and the situation of steering.
给出了全液压式转向机构液压部分的设计计算过程。
The calculation involved in steering mechanism hydraulic system design is also presented.
接着,本文重点论述了组合挂车转向机构的优化设计。
Then, this paper focuses on the combination of trailer steering mechanism of the optimal design.
转向机构是路基边坡压实机调整压实坡度的重要机构。
Steering mechanism is an important mechanism which can adjust compacting gradient of slope for the roadbed side slope compactor.
研究结论为转向机构的设计和改进提供了可靠的参考依据。
The conclusion provides reliable references for the design and improvement of the yawing mechanism.
首先分析了转向机构中最小传动角对汽车转向横拉杆作用力的影响。
Firstly, forces on steering tie-rod are analyzed when minimum driving Angle of steering mechanism is changed.
第二个趋势是从零售(B2C)商业模式转向机构(B2B)模式。
The second trend a shifted focus from retail (B2C) business models to institutional (B2B) business models.
本文应用数学规划法和最优化设计的原理对转向机构进行了优化设计。
The optimum design of steering mechanism is, in this paper, performed by means of mathematical programming method and optimum design principle.
操作机构包括转向机构和离合器操纵机构,转向机构控制松土机转向;
Operation system includes steering hardware and clutch operating device. The former controls the direction.
研究军用履带车辆无级转向机构核心部件泵-马达系统转向功率的确定问题。
Problem to determine steering power of pump-motor system, the kernel in infinite steering mechanism of military crawler vehicles, is studied in the article.
介绍了一种新型差速转向机构的设计,对其主要功能、结构和特点进行了分析。
A new change over mechanism design of differential speed and its main function and structural characteristic are introduced.
介绍了一种新型差速转向机构的设计,对其主要功能、结构和特点进行了分析。
The design of a new differential change over mechanism is introduced. And its main function and structural characteristics are analysed.
按照“穿地龙”机器人的转向机理,提出了“穿地龙”机器人的转向机构方案。
According to the turning principle of "Dragon of Puncturing Mud" robot, we put forward a design scheme on the turning device of "Dragon of Puncturing Mud" robot.
优化匹配转向机构的结构参数一直是车辆工程领域设计开发人员的重要研究课题。
To optimize and match structure parameters of steering mechanisms has been an important task for designers and developers in vehicle engineering industry.
利用解析方法对转向机构进行了运动分析,导出了运动关系式及角传动比计算式。
In this paper the steering gear kinematics is studied, the kinetic relationship and angular transmission ratio equations are derived.
提出了转向机构连架杆最大位移的概念和计算步骤以及转向机构运动学计算方法。
The concept and calculation steps of maximum displacements of side bars for the steering linkages and the kinematic calculation method are also provided.
铰接式转向机构由于具有诸多优点,因而广泛应用于工程车辆的转向系统设计中。
Owing to its outstanding advantages, the articulated steering linkage is widely used in engineering vehicles.
介绍了解放CA1170P2K1L2型载货汽车动力转向机构的组成及工作原理。
Comprising and work principle of the power steering system of JIEFANG truck CA1170P2K1L2 are introduced.
通过对某种国产拼接式多轴挂车转向机构的计算,证明了该方法的合理性和实用性。
According to one homemade combinable multi-axle trailer's steering system, the calculation in the paper proves this design method is reasonable and practicable.
全液压转向系统是由液压泵、优先阀、转向器、转向油缸以及相关的转向机构组成。
FHPSS consists of hydraulic pump, initiative valve, steering control unit, steering cylinder and so on.
转向机构中最具代表性的整体式等腰梯形机构常被简化为平面等腰梯形机构进行设计。
Isosceles trapezoid linkage, a kind of most representative steering linkage, was usually designed in its simplification to a plane isosceles trapezoid linkage.
提出了以车轴的轴偏角作为评价轮胎磨损的指标,并对某具体转向机构进行了计算分析。
It advances that the value of the axial deviation Angle is looked on as the value of the norms which evaluate the level of the tire wearing, and it calculates and analyzes a steering mechanism.
对转向机构优化设计进行了分析研究,推导出了改良的优化设计数学模型,并编程实现。
Optimal design of the steering mechanism was analyzed, deduced improved mathematical model of optimal design and programming.
最常用的汽车转向机构是平面四杆机构,其结构相对简单,而且已经有大量深入的研究。
The most common steering mechanism for vehicles is plane four-bar linkage, which has a simple structure and has been studied in details.
本文对装载机铰接式转向机构的优化设计问题进行了研究,给出了它的优化设计数学模型。
The optimization design of articulated steering mechanism of the loader is investigated. The mathematical model of optimization design is established.
此种齿轮泵回路的典型应用是工程机械上常可见到的行走、转向机构,它节省去一个辅助泵。
This kind of gear pump return route's model application is on the engineering machinery Chang ke sees walks, the rotation gear, it saves a donkey pump.
设计结果表明,在运动副存在间隙或间隙变化时,此设计方法能有效保证转向机构的运动精度。
Optimum results showed that the kinematics precision of steering mechanism is assured even if there are clearances in locomotion joints.
设计结果表明,在运动副存在间隙或间隙变化时,此设计方法能有效保证转向机构的运动精度。
Optimum results showed that the kinematics precision of steering mechanism is assured even if there are clearances in locomotion joints.
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