speed adjusting lever

简明释义

调速手柄

英英释义

例句

1.The speed adjusting lever (速度调节杆) allows the operator to fine-tune the engine's performance.

这速度调节杆允许操作员微调发动机的性能。

2.Make sure to check the position of the speed adjusting lever (速度调节杆) before starting the equipment.

在启动设备之前，确保检查速度调节杆的位置。

3.To increase the speed of the machine, you need to move the speed adjusting lever (速度调节杆) to the right.

要提高机器的速度，你需要将速度调节杆向右移动。

4.After adjusting the speed adjusting lever (速度调节杆), the vehicle accelerated smoothly.

调整了速度调节杆后，车辆加速平稳。

5.During the test, the technician noticed that the speed adjusting lever (速度调节杆) was stuck.

在测试过程中，技术员注意到速度调节杆卡住了。

作文

In the world of machinery and engineering, precision is key to achieving optimal performance. One crucial component that plays a significant role in this context is the speed adjusting lever. This device allows operators to control the speed of a machine or engine, ensuring that it operates efficiently under various conditions. Understanding the functionality and importance of the speed adjusting lever can greatly enhance our appreciation of modern technology.The speed adjusting lever serves as an interface between the operator and the machine. By manipulating this lever, users can increase or decrease the speed of the equipment they are working with. For instance, in vehicles, the speed adjusting lever can be found in the form of a throttle, which regulates the amount of air and fuel entering the engine. This regulation is essential for maintaining the desired speed and performance of the vehicle while ensuring safety and efficiency.Moreover, the speed adjusting lever is not limited to automotive applications. It is also prevalent in industrial machines, such as conveyor belts, lathes, and milling machines. In these settings, the ability to adjust speed can significantly impact productivity and the quality of the finished product. For example, when operating a lathe, the appropriate speed must be set for the material being machined. If the speed is too high, it could lead to overheating and damage the workpiece; if it is too low, the machining process may take longer than necessary.In addition to its practical applications, the speed adjusting lever also embodies the principles of control and feedback in engineering. When an operator adjusts the lever, they receive immediate feedback from the machine regarding the changes made. This dynamic interaction helps operators make informed decisions about how to optimize the machine's performance based on real-time observations.Furthermore, advancements in technology have led to the development of electronic and automated speed adjusting levers, which enhance precision and ease of use. These modern systems often include sensors and digital displays that provide detailed information about the machine's performance, allowing for even finer adjustments. As a result, operators can achieve greater accuracy and efficiency in their work, ultimately leading to improved outcomes in various industries.In conclusion, the speed adjusting lever is a vital component in many machines and vehicles, playing a crucial role in controlling speed and performance. Its significance extends beyond mere functionality; it represents the intersection of human skill and technological advancement. By understanding how to effectively use the speed adjusting lever, operators can enhance their ability to work efficiently and safely in diverse environments. As we continue to innovate and improve machinery, the importance of such components will undoubtedly remain central to the field of engineering and technology.

在机械和工程的世界中，精确是实现最佳性能的关键。一个在这个背景下发挥重要作用的关键组件是速度调节杠杆。这个装置允许操作员控制机器或发动机的速度，确保它在各种条件下高效运行。理解速度调节杠杆的功能和重要性可以大大增强我们对现代技术的欣赏。速度调节杠杆作为操作员与机器之间的接口。通过操纵这个杠杆，用户可以增加或减少他们正在使用的设备的速度。例如，在车辆中，速度调节杠杆可以以节气门的形式出现，调节进入发动机的空气和燃料的量。这种调节对于维持车辆的期望速度和性能至关重要，同时确保安全和效率。此外，速度调节杠杆并不仅限于汽车应用。它也普遍存在于工业机器中，例如传送带、车床和铣床。在这些环境中，调整速度的能力可以显著影响生产力和成品的质量。例如，在操作车床时，必须为被加工材料设置合适的速度。如果速度过高，可能会导致过热并损坏工件；如果速度过低，加工过程可能比必要的时间更长。除了其实际应用外，速度调节杠杆还体现了工程中的控制和反馈原理。当操作员调整杠杆时，他们会从机器获得关于所做更改的即时反馈。这种动态交互帮助操作员根据实时观察做出明智的决定，以优化机器的性能。此外，技术的进步导致电子和自动化的速度调节杠杆的发展，这增强了精确度和易用性。这些现代系统通常包括传感器和数字显示屏，提供有关机器性能的详细信息，从而允许进行更精细的调整。因此，操作员可以在工作中实现更大的准确性和效率，最终在各个行业中改善结果。总之，速度调节杠杆是许多机器和车辆中至关重要的组成部分，在控制速度和性能方面发挥着关键作用。其重要性超越了单纯的功能性；它代表了人类技能与技术进步的交汇点。通过理解如何有效使用速度调节杠杆，操作员可以增强他们在不同环境中高效和安全工作的能力。随着我们继续创新和改善机械，这些组件的重要性无疑将继续在工程和技术领域中占据中心地位。