这极大地增加了效率,液力变矩器。
This dramatically increases the efficiency of the torque converter.
液力变矩器早期多凭经验研制。
In the early days, to design and manufacture converter is through experience.
定子居住在非常中心地带的液力变矩器。
The stator resides in the very center of the torque converter.
介绍了液力变矩器单叶片的两种设计方法。
液力变矩器的外特性决定着它的整个性能。
Of the hydraulic converter, the outer characteristics determine the device performance.
自动变速器是通过液力变矩器与发动机相连的。
An automatic transmission is connected to the engine via a torque converter.
阐述了该液力变矩器的结构、工作原理及特点。
The structure, working principle and features of the hydraulic torque converter are introduced.
可调液力变矩器为解决这一问题提供了良好的途径。
But variable torque converter provides a good means for solving the problem.
本文对C273.1矿用液力变矩器进行了试验研究。
In this paper, the experimental research of C273. 1 torque converter is carried out.
分析了装载机液力变矩器在实际工作过程中油温过高的种种原因。
The causes of excessive high oil temperature in practical work process of torque converter of loader.
分析了装载机液力变矩器在实际工作过程中油温过高的种种原因。
The causes of excessive high oil temperature in practical work process of torque converter of loader. were mainly analyzed in this paper.
本发明的装置提供了在失速时比0.8速比时更松的液力变矩器。
The apparatus of the present invention provides a torque converter that is looser at stall than it is at 0.8 speed ratio.
液力变矩器的叶片可以分为两类:可展曲面叶片和不可展曲面叶片。
The torque converter leaves can be divided into two categories: developable surface leaves and leaves an exhibition surface.
介绍了一种用于液力变矩器总成焊接的六点TIG焊专机控制系统。
This paper introduced the design of a TIG welding machine, which is used for six PTP(point to point) assembling welding of the Hydraulic Torque Converter.
本文依托项目合作单位的某工程机械用钣金型液力变矩器为研究对象。
In this paper, the project co-operation with a certain construction machinery sheet metal hydraulic torque converter for the study.
本文在UG和ANSYS软件的基础上对液力变矩器的内部流场进行研究。
In this dissertation we will study the interval flow of hydraulic torque converter with UG and ANSYS software.
结果说明,本文提出的算法简单可靠,可供研究液力变矩器内特性时应用。
The results show that the algorithm is simple and reliable, it can be used to study the internal properties of hydraulic torque converters.
为该系统设计了具有双离合器(闭锁离合器,换档离合器)的液力变矩器。
The torque converter with a dual clutch (lock clutch, gear shifting clutch) is developed for the system.
这一方法曾多次应用于液力变矩器试验数据的处理过程,证明是可行而有效的。
This method has been for many times used for date-processing in tests of hydraulic torque converter and proved to be useful and effective.
根据综合式液力变矩器外特性的试验结果,应用比例分配法对其内特性进行了计算。
The internal characteristics of the torque converter were calculated from its tested external characteristics by the method of proration.
同时,通过与作为基型的W305型液力变矩器的比较,证明了研究结论的可靠性。
The obtained results were verified by their comparison with the baseline, W305 type hydraulic torque conveter.
在液力变矩器工作的高效率速比区域,分流传动的效率始终优于液力变矩器传动;
The results show in the region of high efficiency ratio for torque converter operation, power-split transmission efficiency is always better than that of torque converter transmission.
综述了微机控制液力变矩器性能试验台设计,描述了试验台各组成部分和功能特点。
The article comprehensively states the bentch design tor the hydraulic torque converter controlled by microcomputer, and describes each part in the bentch and its function features.
针对机械驱动钻机液力变矩器传动消耗燃油多的问题,开展了液力偶合器传动的试验。
In the light of the problem of excessive fuel consumption in hydraulic torque converter drive of mechanical drilling RIGS, experiments on the hydraulic coupling transmission are conducted.
采用LB46型液力变矩器为基型作计算仿真,得出了液力变矩器部分充液输出特性。
Calculation simulation is conducted with model LB46 hydraulic torque converter as a basic model and output characteristics of the partially filled converter are obtained.
本文分析了CHC—750型液力变矩器机械密封装置的失效原因,制订了修理工艺。
The author works out in this article a repair process for the mechanical seals on CHC-750 Hydraulic Torque Converter through failure analysis of the seals.
其变形的大小将直接影响到液力变矩器的性能和在工作中与相邻零部件间的位置关系。
The magnitude of deformation affects the performance of hydraulic torque converter and its connection with adjacent parts.
液力变矩器在工作载荷下,同时受到油压的面力和旋转所产生的离心力作用而发生变形。
Under the operation load, the hydraulic torque converter could be regarded as a rotating pressure vessel. It will dilate like a balloon as a result of the centrifugal force and fluid pressure.
TCM 870装载机传动系统,采用三元件液力变矩器和定轴式常啮合动力换档变速器。
The drive system on Model TCM870 loader features three-element torque converter and counter shaft, constant mesh, power-shift transmission.
TCM 870装载机传动系统,采用三元件液力变矩器和定轴式常啮合动力换档变速器。
The drive system on Model TCM870 loader features three-element torque converter and counter shaft, constant mesh, power-shift transmission.
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