driven handle lever

简明释义

传动操纵杆

英英释义

例句

1.During the test, we found that the driven handle lever was not functioning properly.

在测试过程中，我们发现驱动手柄杠杆工作不正常。

2.The mechanic adjusted the driven handle lever to improve the vehicle's performance.

机械师调整了驱动手柄杠杆以改善车辆的性能。

3.The driven handle lever controls the speed of the conveyor belt.

这个驱动手柄杠杆控制输送带的速度。

4.To operate the machine, pull the driven handle lever firmly.

要操作机器，请用力拉动驱动手柄杠杆。

5.In case of emergency, push the driven handle lever to stop the equipment immediately.

在紧急情况下，推下驱动手柄杠杆以立即停止设备。

作文

In the world of machinery and engineering, various components work together to create efficient systems. One such component that plays a significant role in controlling machines is the driven handle lever. Understanding the function and importance of the driven handle lever can enhance our appreciation of mechanical design and operation.The driven handle lever is a mechanical device that allows operators to control the movement or operation of a machine with ease. It typically consists of a lever arm that is attached to a pivot point, enabling it to move back and forth or rotate. When the operator applies force to the lever, it translates into motion that drives other components within the system. This makes the driven handle lever an essential interface between the user and the machinery.One of the primary advantages of using a driven handle lever is the mechanical advantage it provides. By utilizing the principles of leverage, a small amount of force applied to the lever can result in a much larger force being exerted on the machine's components. This is particularly useful in heavy machinery where the operator needs to manipulate large loads or resistances with minimal effort. For instance, in construction equipment like excavators, the driven handle lever allows the operator to control the boom and bucket efficiently, making it easier to perform tasks such as digging or lifting.Moreover, the driven handle lever offers precision in control. Operators can make fine adjustments to the machine's operation by varying the angle and force applied to the lever. This is crucial in applications where accuracy is paramount, such as in CNC machines or robotic arms. The ability to finely tune movements through the driven handle lever ensures that tasks are completed with high precision, reducing the risk of errors and enhancing the quality of the output.In addition to its mechanical advantages, the driven handle lever also contributes to safety in machine operation. Many machines are equipped with safety features that include the use of levers to control critical functions. For example, emergency stop levers often take the form of a driven handle lever, allowing operators to quickly halt operations in case of a malfunction or danger. This immediate accessibility to control mechanisms helps prevent accidents and ensures a safer working environment.Furthermore, the design of the driven handle lever can vary significantly depending on its application. Different industries may require specific shapes, sizes, or materials to suit their operational needs. For example, in the automotive industry, a driven handle lever may be designed for gear shifting, while in the aviation sector, it could control flaps or landing gear. This adaptability highlights the versatility of the driven handle lever in various fields of engineering and technology.In conclusion, the driven handle lever is more than just a simple mechanical component; it is a vital part of many machines that enhances control, efficiency, and safety. By understanding its function and significance, we can better appreciate the intricate designs of modern machinery and the engineering principles that underpin them. As technology continues to evolve, the role of the driven handle lever will likely adapt, but its core purpose of facilitating human-machine interaction will remain unchanged.

在机械和工程的世界中，各种组件共同作用，以创造高效的系统。其中一个在控制机器方面起重要作用的组件是驱动手柄杠杆。理解驱动手柄杠杆的功能和重要性，可以增强我们对机械设计和操作的欣赏。驱动手柄杠杆是一种机械装置，使操作者能够轻松控制机器的运动或操作。它通常由一个与支点相连的杠杆臂组成，允许其前后移动或旋转。当操作者施加力在杠杆上时，这种力会转化为推动系统内其他组件的运动。这使得驱动手柄杠杆成为用户与机械之间的重要接口。使用驱动手柄杠杆的主要优点之一是它提供的机械优势。通过利用杠杆原理，对杠杆施加的小力量可以导致对机器组件施加更大的力量。这在重型机械中尤其有用，操作者需要以最小的努力操纵大负载或抵抗力。例如，在挖掘机等建筑设备中，驱动手柄杠杆使操作者能够有效控制臂和铲斗，从而更容易地执行挖掘或提升等任务。此外，驱动手柄杠杆还提供了精确的控制。操作者可以通过改变施加在杠杆上的角度和力量来对机器的操作进行微调。这在精度至关重要的应用中尤为重要，例如在数控机床或机器人手臂中。通过驱动手柄杠杆精细调整运动的能力，确保任务以高精度完成，减少错误风险，提高输出质量。除了机械优势外，驱动手柄杠杆还在机器操作的安全性上做出了贡献。许多机器配备了安全功能，包括使用杠杆来控制关键功能。例如，紧急停止杠杆通常呈现为驱动手柄杠杆的形式，使操作者能够迅速停止操作，以应对故障或危险。这种对控制机制的即时可及性有助于防止事故，确保工作环境的安全。此外，驱动手柄杠杆的设计可能会根据其应用而显著不同。不同的行业可能需要特定的形状、尺寸或材料，以满足其操作需求。例如，在汽车工业中，驱动手柄杠杆可能设计用于换挡，而在航空领域，它可能控制襟翼或起落架。这种适应性突显了驱动手柄杠杆在各个工程和技术领域的多功能性。总之，驱动手柄杠杆不仅仅是一个简单的机械组件；它是许多机器中不可或缺的一部分，增强了控制、效率和安全性。通过理解其功能和重要性，我们可以更好地欣赏现代机械的复杂设计和支撑它们的工程原理。随着技术的不断发展，驱动手柄杠杆的角色可能会适应变化，但其促进人机交互的核心目的将保持不变。