disengaging lever

简明释义

分离杆

英英释义

例句

1.Before adjusting the settings, make sure to engage the disengaging lever (脱离杠杆).

在调整设置之前，请确保先启用disengaging lever（脱离杠杆）。

2.When the operation is complete, push the disengaging lever (脱离杠杆) back to its original position.

操作完成后，将disengaging lever（脱离杠杆）推回到原位。

3.To start the machine, first pull the disengaging lever (脱离杠杆) to release the safety lock.

要启动机器，首先拉动disengaging lever（脱离杠杆）以释放安全锁。

4.The user manual explains how to properly use the disengaging lever (脱离杠杆) to prevent accidents.

用户手册解释了如何正确使用disengaging lever（脱离杠杆）以防止事故。

5.In case of an emergency, pull the disengaging lever (脱离杠杆) to stop the machine immediately.

在紧急情况下，拉动disengaging lever（脱离杠杆）可立即停止机器。

作文

In the world of machinery and engineering, understanding the components that enable a device to function smoothly is crucial. One such component is the disengaging lever, which plays a vital role in the operation of various machines. The disengaging lever is essentially a mechanism that allows the operator to disengage a part of the machine from its active state, enabling it to stop functioning without turning off the entire system. This feature is particularly important in complex machinery where safety and control are paramount.For instance, consider a scenario involving a large industrial machine used in manufacturing. The operator might need to temporarily halt a specific function of the machine for maintenance or adjustment purposes. By using the disengaging lever, the operator can safely disconnect that particular function while keeping the rest of the machine operational. This not only enhances safety but also improves efficiency, as the machine can continue to operate without complete shutdown.Moreover, the design of the disengaging lever is often intuitive, allowing operators to easily understand how to use it without extensive training. This ease of use is essential in high-pressure environments where time is of the essence. The lever is typically marked clearly, and its operation is straightforward, involving either a simple pull or push action. Such designs ensure that even in stressful situations, operators can quickly respond to emergencies by disengaging parts of the machinery as needed.In addition to industrial applications, the concept of the disengaging lever can also be found in everyday devices. For example, many vehicles are equipped with a disengaging lever for their parking brakes. When the driver needs to move the vehicle, they can easily disengage the brake, allowing for smooth acceleration. This functionality is essential for safe driving practices, as it prevents the vehicle from rolling unexpectedly while parked.The importance of the disengaging lever extends beyond just mechanical functions; it embodies a principle of control and safety in design. Engineers meticulously consider how these levers are integrated into machines, ensuring they can withstand wear and tear while remaining reliable. The materials used for constructing a disengaging lever must be durable, capable of enduring repeated use without failure. This reliability is crucial, especially in critical applications where a malfunction could lead to accidents or costly downtimes.Furthermore, advancements in technology have led to the evolution of the disengaging lever. In modern machinery, these levers may be integrated with electronic systems, allowing for automated disengagement in response to specific conditions. For instance, if a machine detects an overload, it may automatically engage the disengaging lever to prevent damage, showcasing how traditional mechanical elements can evolve with technological advancements.In conclusion, the disengaging lever is more than just a simple component; it is a fundamental part of machinery that enhances safety, control, and efficiency. Its applications range from industrial machinery to everyday vehicles, demonstrating its versatility and significance. Understanding how to operate and maintain these levers is essential for anyone involved in operating machinery, as they are key to ensuring safe and effective operations. As technology continues to advance, the role of the disengaging lever will undoubtedly evolve, further solidifying its place in the future of engineering and design.

在机械和工程的世界中，理解使设备顺利运行的组件至关重要。其中一个组件就是脱离杠杆，它在各种机器的操作中起着重要作用。脱离杠杆本质上是一个机制，允许操作员将机器的某一部分从其活动状态中脱离，使其能够在不关闭整个系统的情况下停止工作。这个功能在复杂机械中尤为重要，因为安全性和控制至关重要。例如，考虑一个用于制造的大型工业机器的场景。操作员可能需要暂时停止机器的某一特定功能以进行维护或调整。通过使用脱离杠杆，操作员可以安全地断开该特定功能，同时保持机器的其他部分正常运行。这不仅提高了安全性，还提高了效率，因为机器可以在不完全关闭的情况下继续运作。此外，脱离杠杆的设计通常是直观的，使操作员能够轻松理解如何使用它，而无需广泛的培训。这种易用性在高压环境中至关重要，因为时间至关重要。杠杆通常标记清晰，其操作简单，只需简单的拉动或推动动作即可。这样的设计确保即使在压力大的情况下，操作员也能迅速响应紧急情况，通过根据需要脱离机器的某些部分。除了工业应用，脱离杠杆的概念也可以在日常设备中找到。例如，许多车辆配备了停车刹车的脱离杠杆。当驾驶员需要移动车辆时，他们可以轻松地脱离刹车，从而实现平稳加速。这项功能对于安全驾驶实践至关重要，因为它可以防止车辆在停车时意外滑动。脱离杠杆的重要性不仅仅局限于机械功能；它体现了设计中的控制和安全原则。工程师们仔细考虑这些杠杆如何集成到机器中，确保它们能够承受磨损，同时保持可靠性。构造脱离杠杆所使用的材料必须耐用，能够在重复使用的情况下不发生故障。这种可靠性至关重要，尤其是在关键应用中，故障可能导致事故或昂贵的停机时间。此外，技术的进步导致了脱离杠杆的演变。在现代机械中，这些杠杆可能与电子系统集成在一起，允许在特定条件下自动脱离。例如，如果机器检测到过载，它可能会自动激活脱离杠杆以防止损坏，展示了传统机械元件如何随着技术进步而演变。总之，脱离杠杆不仅仅是一个简单的组件；它是增强安全性、控制和效率的机器的基本部分。它的应用范围从工业机械到日常车辆，展示了它的多功能性和重要性。理解如何操作和维护这些杠杆对任何涉及操作机械的人来说都是至关重要的，因为它们是确保安全有效操作的关键。随着技术的不断进步，脱离杠杆的角色无疑将会演变，进一步巩固其在未来工程和设计中的地位。