挡位

  • 网络gear
挡位挡位
  1. 使用合适的挡位,可以保持引擎平稳运行。

    Using the appropriate gear will keep the engine run smoothly .

  2. 一旦速度下降,踏下离合器,切换到更低挡位。

    Once this happens , push in the clutch , and downshift to a lower gear .

  3. 你不太可能长时间把加热器开到最大挡位。

    You are unlikely to run the heater at full blast for long periods .

  4. 基于BP神经网络优化算法的工程车辆挡位判断的训练及仿真

    Training and Simulation on gear position decision for vehi-cle based on optimal algorithm of BP network

  5. 多类分类SVM在工程车辆自动变速挡位决策中的应用

    Application of Shift Decision for Automatic Transmission of Engineering Vehicle Based on Multi-class Classification SVM

  6. 讨论了基于RBF神经网络基础上采用三参数换挡规律的车辆挡位判别方法。

    The method for distinguishing gear position based on RFB neural network and by using three-parameter shift schedule is discussed .

  7. 介绍了应用人机对话技术、PLC和全数字直流调速器,对依靠调整减速箱挡位来设定钢丝绳生产捻距和筐篮转速的老式机械传动的合绳机进行改造。

    Applying interactive interface , PLC and full digital DC speed adjusting system to update old mechanical closer that use gearbox settings to change the layer of wire rope and the speed of cage .

  8. 这台变速箱既可像糖浆般顺滑,又可牢固得像牵狗绳一样紧致,具体怎样还是得看油门和挡位。F-Type的扭矩矢量分配/防滑后差速器也是一样,将使你能够随心所欲地腾起烟雾。

    a transmission that could vary in demeanor from syrupy smooth to taut as a strained leash , again depending on throttle delta and where the switches are set . The same is true of F-Type 's torque-vectoring / limited-slip rear differential , which will allow you to dial up the tire smoke at will .

  9. 工程车辆挡位决策的自适应神经模糊推理系统

    Adaptive Neuro-fuzzy Inference System of Engineering Vehicle Shift Decision

  10. 工程机械模糊神经网络挡位控制试验研究

    Experimental Study on Gear-shifting Control of Construction Machine Based on Fuzzy Neural Network

  11. 嗯,和之前说的一样,这还得看动态挡位设在哪儿。

    Well , again , depending on where the dynamics switches are set .

  12. 机械式自动变速器的挡位检测与控制

    Shift Detection and Shift Control of Automated Mechanical Transmissions

  13. 柴油机驱动钻机绞车提升挡位的分配及效率分析

    Analysis of the Lifting Gear Distribution and the Efficiency of Diesel Driven Drilling Rigs

  14. 基于车辆负荷度的挡位决策研究

    Shift Strategy Research Based on Vehicle Load Degree

  15. 工程车辆自动变速挡位决策的遗传径向基神经网络方法

    RBF Neural Network with Genetic Algorithm of Shift Decision for Automatic Transmission of Construction Vehicle

  16. 湿式换挡离合器在不同起步挡位对传动系统动态特性影响的仿真

    Simulation on dynamical properties of transmission system regarding diverse starting gears of wet gear-shifting clutch

  17. 装载机双泵合分流挡位控制卸荷液压系统

    Gear Control Relief Hydraulic System for Converging and Dividing Flow with Double Pumps on Loaders

  18. 挡位换了吗?

    Have you change the range ?

  19. 该策略将换挡控制过程分为最优挡位决策模块和换挡过程控制模块两部分。

    The control strategy consists of optimal shift decision-making module and gear shifting process control module .

  20. 解放油罐车挡位和优雅。

    Moving off with grace .

  21. 本实用新型特别适用于多挡位的电器工作机上。

    The utility model is especially suitable for an electric appliance working machine with a plurality of thresholds .

  22. 每个挡位都对应离合器和制动器工作状态的某一种组合。

    Each gear corresponds to a certain combination of clutch packs and brake bands being engaged or disengaged .

  23. 结合电动汽车的实际要求,实现了高、中、低、空、倒的五个速度挡位控制及油门输入控制。

    Combined with factual requirement of Electric vehicle , control of different speed gears and accelerator input are realized .

  24. 基本模糊控制模块将油门开度、车速和加速度三参数进行模糊化和模糊推理,实现挡位决策;

    The basic fuzzy shift module implemented the fuzzification of throttle opening , vehicle speed and acceleration and fuzzy inference to decide shift position .

  25. 以汽车变速箱中挡位保持器总成为例,阐述了经冲压铆接替代旋转铆接工艺的设计方案与过程。

    Took the position retainer in the automobile gear box as the example , the design project and process of punching-riveting replace revolving-reveting were elaborated .

  26. 行星变速箱设计过程中,在挂接不同挡位时,各挡功率流向是否合理,是否存在循环功率流,是工程技术人员必须加以解决的问题。

    When designing a planet gear box , the power must be analyzed to make sure if there are unreason - able and circle power .

  27. 建立了变速器挡位分析、运动分析及力矩分析的通用数学模型,给出了各种变速器分析模型的统一表达方法。

    This paper established a common model of analyzing transmission shift , speed and torque . Authors present a general method of analysis model of transmission .

  28. 这种设计也意味着你不能以往后踏的方式,把踏板踩到(车)前进或出发的正好的挡位。

    This arrangement also means you can 't pedal backwards in order to get the pedals in the right place for getting on or moving off .

  29. 现在,您可以在任何挡位享受一种运动感,或在低转速下的享受低碳生活的乐趣。

    You now can rev the engine in any gear for a sportier feel or for a greener pace choose to shift gears at lower rpms .

  30. 您可以挂空挡停车(您的脚不接触离合器),或在任何挡位,用您的左脚踏下离合器,停车。

    You can either stop in Neutral ( to keep your foot off the clutch ) or stop in any gear with your left foot pressing the clutch .