yoke lever

简明释义

横舵柄

英英释义

例句

1.The yoke lever allows the driver to easily switch between different attachments.

耕具杠杆使驾驶员能够轻松切换不同的附件。

2.During the demonstration, the instructor explained how the yoke lever functions.

在演示中，讲师解释了耕具杠杆的功能。

3.He pulled the yoke lever to lift the harrow off the ground.

他拉动耕具杠杆将耙子抬离地面。

4.When operating the tractor, it's important to check the yoke lever for any signs of wear.

在操作拖拉机时，检查耕具杠杆是否有磨损迹象是很重要的。

5.The farmer adjusted the yoke lever to better control the plow's depth.

农民调整了耕具杠杆以更好地控制犁的深度。

作文

In the realm of machinery and engineering, the term yoke lever holds significant importance. A yoke lever is a mechanical component that serves to connect various parts of a machine, allowing for the transmission of force and movement. This device is often found in agricultural machinery, aviation controls, and even in some types of vehicles. Understanding the function and application of the yoke lever is crucial for anyone involved in mechanical engineering or related fields. The design of a yoke lever typically consists of a rigid frame that pivots around a fixed point. This pivoting action enables the lever to amplify force, making it easier to operate heavy machinery with less physical effort. For instance, in an aircraft, the yoke lever is used by pilots to control the ailerons and elevators, thereby influencing the aircraft's altitude and direction. The ability to manipulate these controls accurately is vital for safe flying, demonstrating how integral the yoke lever is to aviation safety. In agricultural settings, the yoke lever can be found in tractors and other farming equipment. Farmers rely on these levers to adjust the height of plows and other attachments, optimizing their efficiency in the field. The ergonomic design of the yoke lever allows operators to make quick adjustments while maintaining control over their machinery, which is essential during the fast-paced work of planting and harvesting crops. Furthermore, the yoke lever is not limited to large-scale machinery. It can also be seen in everyday tools such as bicycles and lawnmowers. In a bicycle, the handlebars act as a yoke lever, allowing the rider to steer and maintain balance. Similarly, in lawnmowers, the yoke lever is used to engage the cutting blades, providing an efficient means to manage grass length. These examples illustrate how the principles behind the yoke lever extend beyond industrial applications into daily life, emphasizing its versatility and importance. From an engineering perspective, the study of the yoke lever involves understanding the mechanics of levers and the principles of torque and force distribution. Engineers must consider factors such as material strength, pivot points, and the intended use of the lever when designing a yoke lever. Properly engineered levers can lead to increased efficiency, reduced wear and tear on machinery, and enhanced safety for operators. In conclusion, the yoke lever is a fundamental component in various mechanical systems, playing a vital role in controlling and manipulating machinery across different industries. Its significance in aviation, agriculture, and everyday tools cannot be overstated. As technology continues to advance, the design and application of the yoke lever will likely evolve, but its core function as a means to transmit force and facilitate movement will remain constant. Understanding the yoke lever is essential for anyone looking to deepen their knowledge of mechanical systems and their applications in the real world.

在机械和工程领域，术语yoke lever具有重要意义。yoke lever是一个机械组件，用于连接机器的各个部分，从而传递力和运动。该装置通常出现在农业机械、航空控制，甚至某些类型的车辆中。理解yoke lever的功能和应用对于任何涉及机械工程或相关领域的人来说都是至关重要的。yoke lever的设计通常由一个围绕固定点旋转的刚性框架组成。这种旋转动作使得杠杆能够放大力量，使操作重型机械变得更轻松。例如，在飞机中，飞行员使用yoke lever来控制副翼和升降舵，从而影响飞机的高度和方向。准确操作这些控制装置的能力对安全飞行至关重要，这表明yoke lever在航空安全中的重要性。在农业环境中，yoke lever可以在拖拉机和其他农机具中找到。农民依赖这些杠杆来调整犁和其他附件的高度，从而优化他们在田间的效率。yoke lever的人体工学设计使操作员能够快速进行调整，同时保持对机械的控制，这在快速进行播种和收割作业时至关重要。此外，yoke lever并不限于大型机械。它也出现在日常工具中，例如自行车和割草机。在自行车中，车把充当yoke lever，允许骑行者进行转向和保持平衡。同样，在割草机中，yoke lever用于启动切割刀片，提供了一种有效的管理草坪长度的方法。这些例子说明了yoke lever背后的原理如何超越工业应用，渗透到日常生活中，强调了它的多功能性和重要性。从工程的角度来看，yoke lever的研究涉及理解杠杆的力学以及力矩和力分布的原理。工程师在设计yoke lever时必须考虑材料强度、支点和杠杆的预期用途等因素。经过合理设计的杠杆可以提高效率，减少机械磨损，并增强操作人员的安全性。总之，yoke lever是各种机械系统中的基本组件，在控制和操纵不同工业中的机械方面发挥着至关重要的作用。它在航空、农业和日常工具中的重要性不容小觑。随着技术的不断进步，yoke lever的设计和应用可能会发生变化，但其作为传递力量和促进运动的核心功能将始终保持不变。理解yoke lever对任何希望深入了解机械系统及其在现实世界中应用的人来说都是必不可少的。