fluid transmission

简明释义

液体变速机

英英释义

例句

1.The engineer explained how fluid transmission 液体传动系统 works in hydraulic systems.

工程师解释了液体传动系统在液压系统中的工作原理。

2.Many modern vehicles utilize fluid transmission 液体传动系统 to provide a seamless driving experience.

许多现代车辆利用液体传动系统提供无缝的驾驶体验。

3.The new car model features an advanced fluid transmission 液体传动系统 that improves fuel efficiency.

这款新车型配备了先进的液体传动系统，提高了燃油效率。

4.The maintenance manual includes guidelines for checking the fluid transmission 液体传动系统 fluid levels.

维护手册包括检查液体传动系统液位的指南。

5.In heavy machinery, fluid transmission 液体传动系统 is essential for smooth operation.

在重型机械中，液体传动系统 对于平稳操作至关重要。

作文

Fluid transmission is a crucial concept in various fields, particularly in engineering and automotive industries. The term refers to the process of transferring power or motion through fluids, typically hydraulic or pneumatic systems. These systems utilize the properties of liquids or gases to transmit energy efficiently and effectively. Understanding fluid transmission (流体传输) is essential for designing systems that require precise control and high performance.In hydraulic systems, fluid transmission allows for the amplification of force. For example, when a small amount of force is applied to a piston in a confined space filled with hydraulic fluid, that force is transmitted through the fluid to another piston, resulting in a much larger force at the other end. This principle is widely used in heavy machinery, such as excavators and forklifts, where significant lifting power is needed without requiring an enormous physical effort from the operator.Moreover, fluid transmission (流体传输) plays a vital role in the automotive industry, particularly in the operation of automatic transmissions. In these systems, hydraulic fluid is used to engage and disengage gears seamlessly, allowing for smooth acceleration and deceleration of vehicles. The efficiency of fluid transmission (流体传输) in this context ensures that vehicles can operate under varying loads and speeds while maintaining optimal performance and fuel efficiency.Another significant application of fluid transmission (流体传输) is found in pneumatic systems, which utilize compressed air to transmit power. These systems are commonly used in manufacturing and assembly lines, where quick and precise movements are necessary. For instance, pneumatic tools, such as nail guns and impact wrenches, rely on fluid transmission (流体传输) to deliver rapid bursts of energy, making tasks more efficient and less labor-intensive.The advantages of fluid transmission (流体传输) extend beyond mere efficiency; they also include the ability to control motion with great precision. By adjusting the flow rate and pressure of the fluid, operators can fine-tune the performance of machines and equipment. This level of control is particularly beneficial in applications such as robotics, where precise movements are critical for successful operations.Despite its many benefits, fluid transmission (流体传输) does come with challenges. One of the primary concerns is the maintenance of the fluid systems, as leaks or contamination can lead to significant performance issues. Regular monitoring and maintenance are essential to ensure that hydraulic and pneumatic systems operate smoothly and safely. Additionally, understanding the properties of the fluids used, such as viscosity and compressibility, is crucial for optimizing the performance of fluid transmission (流体传输) systems.In conclusion, the concept of fluid transmission (流体传输) is fundamental in various industries, providing efficient and powerful means of transferring energy through liquids and gases. Its applications in hydraulic and pneumatic systems highlight the importance of this technology in modern machinery and vehicles. As industries continue to evolve, further advancements in fluid transmission (流体传输) technologies will likely lead to even greater efficiencies and capabilities, shaping the future of engineering and automation.

流体传输是多个领域中的一个关键概念，尤其是在工程和汽车工业中。这个术语指的是通过流体（通常是液压或气动系统）转移动力或运动的过程。这些系统利用液体或气体的特性高效且有效地传递能量。理解流体传输在设计需要精确控制和高性能的系统中至关重要。在液压系统中，流体传输使得力量得以放大。例如，当一小部分力量施加到充满液压液体的密闭空间中的活塞时，这种力量通过液体传递到另一个活塞，导致另一端产生更大的力量。这个原理广泛应用于重型机械，如挖掘机和叉车，在这些设备中，需要在不要求操作员付出巨大体力的情况下提供显著的提升能力。此外，流体传输在汽车工业中也发挥着重要作用，特别是在自动变速器的操作中。在这些系统中，液压油用于无缝地接合和分离齿轮，使车辆能够平稳加速和减速。流体传输在这种情况下的效率确保了车辆可以在不同的负载和速度下运行，同时保持最佳性能和燃油效率。流体传输的另一个重要应用是在气动系统中，这些系统利用压缩空气来传递动力。这些系统通常用于制造和装配线，其中快速和精确的运动是必要的。例如，气动工具，如钉枪和冲击扳手，依赖于流体传输来提供快速的能量爆发，使任务更加高效且劳动强度降低。流体传输的优势不仅仅限于效率；它们还包括以极高的精度控制运动的能力。通过调整流体的流量和压力，操作员可以微调机器和设备的性能。这种控制水平在机器人等应用中尤为有益，因为精确的运动对于成功的操作至关重要。尽管有许多好处，流体传输也面临挑战。主要问题之一是流体系统的维护，因为泄漏或污染可能导致显著的性能问题。定期监测和维护对于确保液压和气动系统安全平稳地运行至关重要。此外，了解所使用流体的特性，如粘度和可压缩性，对于优化流体传输系统的性能至关重要。总之，流体传输的概念在各个行业中是基础，提供通过液体和气体有效且强大的能量传递方式。在液压和气动系统中的应用突显了这项技术在现代机械和车辆中的重要性。随着行业的不断发展，流体传输技术的进一步进步可能会导致更大的效率和能力，塑造工程和自动化的未来。