maneuvering lever

简明释义

操纵手柄

英英释义

例句

1.He pulled the maneuvering lever to initiate a sharp turn during the race.

他拉动了操纵杆以在比赛中进行急转弯。

2.The maneuvering lever on the boat allows the captain to steer in tight spaces.

船上的操纵杆允许船长在狭窄的空间内操控方向。

3.The pilot adjusted the maneuvering lever to change the aircraft's altitude smoothly.

飞行员调整了操纵杆以平稳改变飞机的高度。

4.During the training session, the engineer demonstrated how to operate the maneuvering lever effectively.

在培训课程中，工程师演示了如何有效操作操纵杆。

5.In the video game, players can use the maneuvering lever to navigate their character through obstacles.

在这款视频游戏中，玩家可以使用操纵杆让角色穿过障碍物。

作文

In the realm of engineering and mechanics, the term maneuvering lever holds significant importance. A maneuvering lever is a device that allows an operator to control the movement of machinery or equipment with precision and ease. This tool is particularly vital in industries such as aviation, automotive, and maritime, where precise control can mean the difference between success and failure. The design and functionality of a maneuvering lever are critical for ensuring safety and efficiency in operations.To illustrate the significance of a maneuvering lever, let's consider its application in aviation. Pilots rely heavily on various controls, including the maneuvering lever, to navigate their aircraft. This lever enables pilots to adjust the thrust and direction of the plane, allowing for smooth takeoffs, landings, and turns. In this context, the maneuvering lever serves not only as a tool for navigation but also as a means of ensuring passenger safety. A malfunction in this lever could lead to catastrophic consequences, emphasizing the need for rigorous testing and maintenance.Similarly, in the automotive industry, a maneuvering lever plays a crucial role in the operation of vehicles. Drivers use levers to control various functions, such as steering, braking, and accelerating. The responsiveness of these levers directly affects the driving experience and safety. For instance, a well-designed maneuvering lever allows for quick and accurate adjustments while driving, enhancing the overall control of the vehicle. Conversely, a poorly designed lever may lead to delays in response times, which could result in accidents.Maritime operations also heavily depend on maneuvering levers. Ships are equipped with various levers that control their engines, rudders, and other critical systems. The captain and crew must be proficient in using these levers to navigate through challenging waters and avoid potential hazards. The importance of a maneuvering lever in this context cannot be overstated; it is essential for ensuring the vessel's safe passage and operational efficiency.Beyond these practical applications, the concept of a maneuvering lever can also be metaphorically applied to decision-making processes in various fields. Just as a physical maneuvering lever allows for adjustments in machinery, individuals and organizations must learn to maneuver through complex situations by making informed decisions. In business, for example, leaders often face challenges that require them to pull the right maneuvering lever to achieve desired outcomes. This could involve reallocating resources, adjusting strategies, or pivoting in response to market changes.In conclusion, the maneuvering lever is more than just a mechanical component; it represents control, precision, and safety across various industries. Understanding its function and significance is crucial for anyone involved in fields that require careful manipulation of machinery or equipment. As technology continues to evolve, the design and implementation of maneuvering levers will likely advance, further enhancing our ability to operate complex systems effectively. Whether in aviation, automotive, maritime, or even in strategic decision-making, the principles surrounding the maneuvering lever remain relevant and essential.

在工程和机械领域，术语操纵杆具有重要意义。操纵杆是一种设备，允许操作员精确而轻松地控制机器或设备的运动。这种工具在航空、汽车和海事等行业尤为重要，因为精确的控制可能意味着成功与失败之间的差异。操纵杆的设计和功能对于确保操作的安全性和效率至关重要。为了说明操纵杆的重要性，让我们考虑其在航空中的应用。飞行员在导航飞机时非常依赖各种控制装置，包括操纵杆。这个杠杆使飞行员能够调整飞机的推力和方向，从而实现平稳的起飞、着陆和转弯。在这个上下文中，操纵杆不仅作为导航工具，还作为确保乘客安全的手段。这个杠杆的故障可能导致灾难性的后果，这强调了严格测试和维护的必要性。同样，在汽车工业中，操纵杆在车辆操作中发挥着至关重要的作用。驾驶员使用杠杆控制各种功能，如转向、刹车和加速。这些杠杆的响应能力直接影响驾驶体验和安全性。例如，设计良好的操纵杆允许在驾驶过程中快速准确地进行调整，从而增强对车辆的整体控制。相反，设计不良的杠杆可能导致响应时间延迟，这可能导致事故。海事操作也严重依赖于操纵杆。船只配备了各种杠杆来控制它们的引擎、舵和其他关键系统。船长和船员必须熟练使用这些杠杆，以便在复杂水域中航行并避免潜在危险。在这种情况下，操纵杆的重要性不容小觑；它对于确保船只的安全通行和操作效率至关重要。除了这些实际应用，操纵杆的概念在各个领域的决策过程中也可以比喻性地应用。正如物理的操纵杆允许机器的调整一样，个人和组织也必须学习在复杂情况下通过做出明智的决策来操控。在商业中，例如，领导者经常面临挑战，需要他们拉动合适的操纵杆以实现预期的结果。这可能涉及重新分配资源、调整战略或根据市场变化进行转变。总之，操纵杆不仅仅是一个机械组件；它代表了各个行业的控制、精确和安全。理解其功能和重要性对于任何参与需要仔细操控机械或设备的领域的人来说都是至关重要的。随着技术的不断发展，操纵杆的设计和实施可能会进一步增强我们有效操作复杂系统的能力。无论是在航空、汽车、海事，还是在战略决策中，围绕操纵杆的原则仍然是相关和必要的。