actuating lever

简明释义

起动杆

英英释义

例句

1.Adjust the height of the seat by moving the actuating lever 操作杠杆 forward or backward.

通过前后移动操作杠杆来调整座椅的高度。

2.The operator pulled the actuating lever 操作杠杆 to initiate the hydraulic lift.

操作员拉动操作杠杆以启动液压升降机。

3.When the emergency button is pressed, the actuating lever 操作杠杆 automatically engages to stop the system.

当按下紧急按钮时，操作杠杆会自动启动以停止系统。

4.To start the machine, pull the actuating lever 操作杠杆 downwards.

要启动机器，请向下拉动操作杠杆。

5.The actuating lever 操作杠杆 controls the flow of materials on the conveyor belt.

该操作杠杆控制输送带上材料的流动。

作文

In the world of machinery and engineering, the term actuating lever plays a crucial role in understanding how various systems operate. An actuating lever is essentially a component that converts a small input force into a larger output force, enabling machinery to perform tasks efficiently. This mechanism is found in countless devices, from simple household appliances to complex industrial machines. Understanding the function and importance of the actuating lever can provide insights into the design and operation of many technological innovations.To illustrate the significance of the actuating lever, consider its application in a basic mechanical device like a bicycle. The handlebars of a bicycle serve as an actuating lever. When a rider turns the handlebars, they apply a small force that is transferred through the bike's steering mechanism, causing the front wheel to pivot. This action allows the bicycle to change direction smoothly. Here, the actuating lever not only facilitates movement but also enhances the rider's control over the vehicle.In more complex systems, such as hydraulic machinery, the actuating lever takes on a more sophisticated role. Hydraulic systems often utilize levers to amplify force. For instance, in a hydraulic press, the operator pulls on an actuating lever, which then compresses fluid in a cylinder. This action generates a much larger force at the other end of the system, enabling heavy objects to be lifted or shaped with ease. The efficiency of an actuating lever in this context exemplifies how simple mechanical principles can lead to powerful outcomes.The design of an actuating lever is critical for its effectiveness. Factors such as length, angle, and material all contribute to how well the lever performs its function. Engineers must carefully consider these elements during the design process to ensure that the actuating lever can withstand the forces it will encounter while also providing the desired mechanical advantage. This interplay of design and functionality highlights the importance of precision in engineering disciplines.Moreover, the concept of the actuating lever extends beyond physical machines; it can also be metaphorically applied to various fields, including business and psychology. In business, for example, an actuating lever could represent a strategic decision that leads to significant growth or change within an organization. Just as a lever amplifies force, a well-considered decision can amplify a company's success. Similarly, in psychology, an actuating lever might refer to a key motivator that drives behavior, illustrating how small changes can lead to substantial results.In conclusion, the actuating lever is a fundamental concept that transcends its mechanical origins. Its ability to transform input into output makes it a vital component in various applications, from everyday tools to advanced machinery. By understanding the principles behind the actuating lever, we can appreciate the intricate designs that power our technologies and the broader implications of leverage in different aspects of life. As we continue to innovate and create, the lessons learned from the humble actuating lever will undoubtedly remain relevant, guiding us toward more efficient and effective solutions in the future.

在机械和工程的世界中，术语actuating lever（驱动杆）在理解各种系统如何运作方面发挥着至关重要的作用。actuating lever（驱动杆）本质上是一个将小输入力转换为大输出力的组件，使机械能够高效地执行任务。这个机制在无数设备中都有应用，从简单的家用电器到复杂的工业机器。理解actuating lever（驱动杆）的功能和重要性，可以深入了解许多技术创新的设计和操作。为了说明actuating lever（驱动杆）的重要性，我们可以考虑它在基本机械设备中的应用，比如自行车。自行车的把手充当了一个actuating lever（驱动杆）。当骑行者转动把手时，他们施加一个小的力量，这个力量通过自行车的转向机制传递，导致前轮发生偏转。这一动作使得自行车能够平稳地改变方向。在这里，actuating lever（驱动杆）不仅促进了运动，还增强了骑行者对车辆的控制。在更复杂的系统中，例如液压机械，actuating lever（驱动杆）承担了更复杂的角色。液压系统通常利用杠杆来放大力量。例如，在液压机中，操作员拉动一个actuating lever（驱动杆），这会压缩气缸中的液体。这一动作在系统的另一端产生了更大的力量，使得重物能够轻松地被提升或成型。在这种情况下，actuating lever（驱动杆）的高效性展示了简单机械原理如何导致强大的结果。actuating lever（驱动杆）的设计对于其有效性至关重要。长度、角度和材料等因素都影响着杠杆的性能。工程师在设计过程中必须仔细考虑这些元素，以确保actuating lever（驱动杆）能够承受所遇到的力量，同时提供所需的机械优势。这种设计与功能之间的相互作用突显了工程学科中精确的重要性。此外，actuating lever（驱动杆）的概念不仅限于物理机器；它也可以在商业和心理学等各个领域中隐喻地应用。在商业中，例如，actuating lever（驱动杆）可以代表一个战略决策，这个决策导致组织内的重要增长或变化。正如杠杆放大力量一样，经过深思熟虑的决策可以放大公司的成功。同样，在心理学中，actuating lever（驱动杆）可能指的是驱动行为的关键动机，说明微小的变化可以导致重大的结果。总之，actuating lever（驱动杆）是一个基本概念，超越了其机械起源。它将输入转化为输出的能力使其成为各种应用中的重要组成部分，从日常工具到先进机械。通过理解actuating lever（驱动杆）背后的原理，我们可以欣赏到推动我们技术发展的复杂设计，以及杠杆在生活不同方面的更广泛含义。随着我们继续创新和创造，从谦逊的actuating lever（驱动杆）中学到的经验教训无疑会保持相关性，引导我们在未来朝着更高效和有效的解决方案迈进。