doublereduction-locked train
简明释义
功率分轴式二级减速齿轮系
英英释义
例句
1.During the simulation, we encountered a doublereduction-locked train 双重减速锁定列车 that required precise control to avoid derailment.
在模拟过程中,我们遇到了一个需要精确控制以避免出轨的doublereduction-locked train 双重减速锁定列车。
2.The safety features of the doublereduction-locked train 双重减速锁定列车 make it ideal for transporting hazardous materials.
由于安全特性,doublereduction-locked train 双重减速锁定列车 非常适合运输危险物品。
3.Engineers are testing the limits of the doublereduction-locked train 双重减速锁定列车 to ensure it can handle extreme weather conditions.
工程师正在测试doublereduction-locked train 双重减速锁定列车 的极限,以确保其能够应对极端天气条件。
4.The new model of the doublereduction-locked train 双重减速锁定列车 has improved energy efficiency compared to its predecessor.
新型号的doublereduction-locked train 双重减速锁定列车 相比于前一代在能效方面有了改善。
5.The engineer explained how the doublereduction-locked train 双重减速锁定列车 operates under high-stress conditions.
工程师解释了如何在高压条件下操作doublereduction-locked train 双重减速锁定列车。
作文
In the world of engineering and technology, various terms and concepts are often introduced to describe complex systems or mechanisms. One such term that has gained attention in recent years is the doublereduction-locked train. This phrase may sound intricate, but understanding its components can provide valuable insights into its function and significance. To grasp the meaning of a doublereduction-locked train, we must break it down into its constituent parts: 'double reduction,' 'locked,' and 'train.'Firstly, the term 'double reduction' refers to a specific mechanism used in gear systems. In mechanical engineering, reduction gears are employed to decrease the speed of a motor while increasing torque. When we say 'double reduction,' it indicates that there are two stages of reduction occurring within the system. This is particularly beneficial in applications where high torque is required at low speeds, such as in heavy machinery or automotive transmissions.Next, the word 'locked' signifies a state of security and stability. In the context of a doublereduction-locked train, it implies that the system is designed to prevent any unintended movement or disengagement during operation. This locking mechanism ensures that all components work together seamlessly, providing reliability and safety in various applications.The final part of the phrase, 'train,' typically refers to a series of interconnected components that work together to perform a specific function. In engineering, a 'train' can be a set of gears, wheels, or other mechanical parts that transmit power from one component to another. Therefore, a doublereduction-locked train could be seen as a sophisticated assembly of gears that employs a double reduction mechanism while ensuring that all parts are securely locked in place.Understanding the concept of a doublereduction-locked train is crucial for engineers and technicians who work with complex machinery. By utilizing this system, they can design equipment that operates efficiently and safely under demanding conditions. For instance, in heavy construction equipment, a doublereduction-locked train allows for powerful lifting capabilities while maintaining control and stability, which is essential for worker safety.Moreover, advancements in technology have led to the development of innovative materials and designs that enhance the performance of doublereduction-locked trains. Engineers are now able to create lighter yet stronger components, resulting in improved efficiency and reduced energy consumption. This not only benefits the environment but also reduces operational costs for businesses that rely on such machinery.In conclusion, the term doublereduction-locked train encapsulates a complex yet fascinating aspect of mechanical engineering. By understanding its components—double reduction, locking mechanisms, and train assemblies—we can appreciate the ingenuity behind modern machinery. As technology continues to evolve, the importance of such systems will only increase, paving the way for safer and more efficient engineering solutions in the future.
在工程和技术的世界中,各种术语和概念常常被引入以描述复杂的系统或机制。近年来,doublereduction-locked train 这一术语引起了人们的关注。这个短语听起来很复杂,但理解其组成部分可以为我们提供对其功能和意义的宝贵见解。要掌握 doublereduction-locked train 的含义,我们必须将其分解为三个组成部分:'双重减速'、'锁定'和'列车'。首先,'双重减速'一词指的是在齿轮系统中使用的一种特定机制。在机械工程中,减速齿轮用于降低电机的速度,同时增加扭矩。当我们说'双重减速'时,这表明该系统中发生了两个阶段的减速。这在需要高扭矩低速运转的应用中尤为有利,例如重型机械或汽车变速器。接下来,'锁定'一词表示一种安全和稳定的状态。在 doublereduction-locked train 的上下文中,它意味着该系统设计用于防止在操作过程中任何意外移动或脱离。这种锁定机制确保所有组件无缝协作,为各种应用提供可靠性和安全性。短语的最后一部分,'列车',通常指一系列相互连接的组件,这些组件共同工作以执行特定功能。在工程学中,'列车'可以是齿轮、轮子或其他传递动力的机械部件的集合。因此,doublereduction-locked train 可以看作是一种复杂的齿轮组合,采用双重减速机制,并确保所有部件牢固锁定在一起。理解 doublereduction-locked train 的概念对于从事复杂机械工作的工程师和技术人员至关重要。通过利用这一系统,他们可以设计在苛刻条件下高效且安全运行的设备。例如,在重型建筑设备中,doublereduction-locked train 允许强大的提升能力,同时保持控制和稳定性,这对工人的安全至关重要。此外,技术的进步促使创新材料和设计的发展,从而增强了 doublereduction-locked train 的性能。工程师们现在能够创造出更轻但更强的组件,从而提高效率并减少能耗。这不仅有利于环境,还降低了依赖这种机械的企业的运营成本。总之,doublereduction-locked train 这一术语概括了机械工程中一个复杂而迷人的方面。通过理解其组成部分——双重减速、锁定机制和列车组件——我们可以欣赏现代机械背后的聪明才智。随着技术的不断发展,这类系统的重要性只会增加,为未来更安全、更高效的工程解决方案铺平道路。
