全液压转向系统具有明显的不足转向特性。
The characteristic of the full hydraulic steering system characteristic has obvious insufficiency.
全液压转向系统一般用在斗容量较小的装载机上。
Full hydraulic steering system is generally used on loaders of small capacities while its application on medium sized units is introduced in this article.
采用双泵合流全液压转向系统,操作轻便、灵活,性能稳定可靠。
6 double pump confluence full hydraulic steering system, easy operation, flexible, stable and reliable performance.
本文首先分析了全液压转向系统的工作原理和各液压元件之间的关系。
Firstly, the working principle of FHPSS and the relationship among those components are analyzed.
采用全液压转向系统、钢圈压配式实心轮胎和具有报警功能的新型中央式仪表板。
The tractor adopts fully hydraulic steering system, steel ring press-fitted solid tires and central control panel with alarming function.
转弯半径小,更加灵活,液压转向系统,转向灵活。先导操作液压体统,操作方便。
The small turning radius, more flexible, hydraulic steering system, flexible steering. The pilot operation of hydraulic system, easy to operate.
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.
依据功率键合图原理,研究BZZ5型液压转向器和负荷传感全液压转向系统的建模方法。
Based on the principle of power bond graphs, the modeling method for the hydraulic steering control unit type BZZ5 with the load sensing hydraulic steering system is introduced.
CAN总线技术能够解决其液压转向系统协同工作的控制问题,实现平板车行车的智能控制。
With CAN-bus technology, problem to control cooperated operation of its hydraulic steering system can be settled and intelligent control for the trailer travel is realized.
本文介绍了工程车辆全液压转向系统的设计,应用adams软件建立了转向系统的动力学模型。
This paper introduces the design of full-hydraulic steering system used in construction vehicles and USES the ADAMS software to set up a dynamic model of steering system.
转向时,不可将方向“打死”,特别是在原地转向时,要留有一定的余量,保证液压转向系统处于正常工作状态。
Shift, the direction can not be "killed", especially when turning in place, it is necessary to leave some margin to ensure that the hydraulic steering system is in normal working condition.
港口牵引车液压系统中的转向泵在发动机高速状态时的能量损失较大。
The efficiency of steering pump of port tractor lost very heavy when engine was in high speed.
介绍了一种用于拖拉机自动驾驶的电控液压动力转向系统。
An electronic hydraulic power steering system for automatic operating of tractor is introduced in this paper.
液压行走系统因其结构简单、操纵方便、转向灵活等特点已广泛在联合收割机中采用。
The hydraulic driving system has been adopted in caterpillar combines because of its simple design, easy to control and flexible steering.
根据液压转向助力器的结构和转向系统的工作原理,介绍了一种转向助力器检测回路的设计和测试原理。
According to the structure of hydraulic steering boosters and the work principle of steering system, design of the test circuit and test principle for a steering booster are introduced in the article.
本文介绍了这种转向液压系统的结构与工作原理。
The construction and operating principle of this system are described in this article.
该模型在普通转向器模型的基础上考虑了转向齿轮、齿条等构件的变形和液压特性对系统动力学特性的影响。
This model takes the effect of the steering gear and rack's deformation and the dynamic characteristic of hydraulic system into account on the basis of common steering system.
该系统由转向电子控制单元(ecu)、全液压转向器、步进电机、步进电机驱动器、角位移传感器等组成。
This system consists of steering electronic control unit (ECU), all hydraulic steering, stepping motor, stepping motor driver and angular displacement sensor, etc.
在液压系统提供的动力的帮 助下,操作者可以很方便地实现插秧机的转向,大大减轻了操作者的劳动强度。
With the help of the power of the hydraulic system, an operator is able to complete the steering of rich planter with great reduction of labor intensity.
它一般由动力传动系统、行走装置、工作装置、转向制动系统、液压系统和操纵系统组成。
It is generally composed of power transmission system, walk device, job device, turn to brakes system, hydraulic system and control system.
本文以大中型起重机搬运机械为例,介绍了液压助力式动力转向系统常见的故障诊断与排除方法。
Based on the example of the large and medium-sized crane handling machine, the paper introduces common fault diagnosis and eliminating methods of the hydraulic booster type power steering system.
转向沉重多是由于转向液压助力系统不起作用引起的,它与转向机械部分无关。
Heavy multi-shift is due to hydraulic power steering system caused by non-functional, it has nothing to do with turning the mechanical parts.
使用伊顿的FCNVH解决方案可以应用在申请范围从动力转向系,液压油泵,积极骑系统。
The use of Eaton's FC NVH solution can be applied in applications which range from power steering lines, to hydraulic pumps, to active ride systems.
从而为液压机械差速转向系统的优化设计、参数匹配及性能分析提供理论依据。
The theory basis of optimization design, parameters matching and performance analysis of hydromechanical differential turning system are provided.
为了实现燃料电池电动客车的动力转向功能,提出了直流电机通过联轴机构直接驱动油泵的电动液压式动力转向系统。
In order to achieve power steering function in fuel cell bus, an electrohydraulic system is proposed, where the pump is directly driven by a DC motor through an axis coupler.
车辆液压动力转向系统通过伺服阀控制压力油的方向和流量,把转向盘输入的转角信号转变为车轮的偏转角度输出。
Vehicle power steering systems control direction and flow of pressure oil with servo valves, then transfer angular inputs from steering wheels to corner angular outputs of road wheels.
实现转向的液压系统由单向阀、常开电磁阀控制。
The hydrostatic system is controlled by the unilateral valves and electromagnetic valves.
电动助力转向系统完全取消液压装置,用电能取代液压能,减少了发动机的能量消耗。
The electric power steering system (hereafter call it EPS) totally abolishes the hydraulic instruments and uses electric power to substitute the hydraulic power.
电动助力转向系统完全取消液压装置,用电能取代液压能,减少了发动机的能量消耗。
The electric power steering system (hereafter call it EPS) totally abolishes the hydraulic instruments and uses electric power to substitute the hydraulic power.
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