repeating lever

简明释义

回令手柄

英英释义

例句

1.The repeating lever 复位杠杆 mechanism allows for continuous operation without manual intervention.

该复位杠杆机制允许持续操作，无需手动干预。

2.The design of the new firearm includes a repeating lever 复位杠杆 for faster reload times.

新型火器的设计包括一个复位杠杆，以提高装填速度。

3.The toy uses a repeating lever 复位杠杆 to activate sounds and lights with each press.

该玩具使用复位杠杆在每次按压时激活声音和灯光。

4.In mechanical engineering, a repeating lever 复位杠杆 can be used to create a more efficient power transmission system.

在机械工程中，复位杠杆可以用来创造更高效的动力传输系统。

5.During the demonstration, the engineer explained how the repeating lever 复位杠杆 improves the device's reliability.

在演示过程中，工程师解释了复位杠杆如何提高设备的可靠性。

作文

The concept of a repeating lever is often associated with mechanical devices that allow for repeated action or movement. In simple terms, a repeating lever can be defined as a lever that, when activated once, continues to perform its function multiple times without the need for continuous input. This principle is widely used in various fields, including engineering, machinery, and even in everyday tools. Understanding how a repeating lever works can provide valuable insights into the mechanics behind many devices we use today.At its core, the repeating lever operates on the principle of leverage, which is the ability to amplify force by using a fulcrum. When a force is applied to one end of the lever, it creates a rotational motion around the fulcrum, allowing the other end to move with greater force. This mechanism is not only efficient but also allows for a series of actions to occur in quick succession. For instance, in a printing press, a repeating lever might be used to repeatedly strike ink onto paper, producing multiple copies in a single operation.The design of a repeating lever can vary significantly depending on its intended use. Some levers are designed for manual operation, where a user pulls or pushes the lever to initiate the repeated action. Others may be powered by motors or other mechanical systems, allowing for automatic operation. Regardless of the design, the fundamental principle remains the same: the lever's ability to convert a single input into multiple outputs.In the context of modern technology, the repeating lever has evolved into more complex mechanisms. For example, in robotics, repeating levers are often incorporated into robotic arms that can perform repetitive tasks with precision and speed. These robotic systems rely on advanced sensors and programming to ensure that each movement is executed accurately, demonstrating how traditional mechanical principles can be enhanced with modern technology.Moreover, the repeating lever is not limited to mechanical applications. In software development, the concept can be metaphorically applied to functions or routines that repeat certain processes until a specific condition is met. This is akin to a loop in programming, where a set of instructions is executed repeatedly, similar to how a physical repeating lever would function. Such parallels highlight the versatility of the concept across different domains.In conclusion, the repeating lever serves as a foundational element in both mechanical and digital systems, illustrating the power of leverage and repetition. By understanding this concept, we gain a deeper appreciation for the ingenuity behind various technologies that simplify tasks and enhance efficiency. Whether in a workshop, a factory, or a computer program, the principles governing a repeating lever continue to play a crucial role in our daily lives. As we advance into the future, exploring the applications and innovations surrounding this concept will undoubtedly lead to further advancements in technology and engineering.

“重复杠杆”的概念通常与允许重复动作或运动的机械设备相关。简单来说，“重复杠杆”可以定义为一种杠杆，当被激活一次时，无需持续输入即可继续执行其功能多次。这个原理广泛应用于工程、机械，甚至日常工具中。理解“重复杠杆”的工作原理可以为我们提供关于今天使用的许多设备背后机械结构的宝贵见解。“重复杠杆”的核心运作原理是杠杆原理，即通过使用支点放大力量的能力。当施加力量于杠杆的一端时，它会在支点周围产生旋转运动，使得另一端以更大的力量移动。这种机制不仅高效，而且允许一系列动作快速连续发生。例如，在印刷机中，“重复杠杆”可能用于将墨水反复印在纸上，一次操作就能生产多个副本。“重复杠杆”的设计可以根据其预期用途显著不同。有些杠杆设计用于手动操作，用户拉动或推动杠杆以启动重复动作。其他杠杆可能由电动机或其他机械系统驱动，从而实现自动操作。无论设计如何，基本原理保持不变：杠杆能够将单一输入转换为多个输出。在现代技术的背景下，“重复杠杆”已演变为更复杂的机制。例如，在机器人技术中，重复杠杆通常被纳入可以精确快速执行重复任务的机器人手臂。这些机器人系统依赖先进的传感器和编程，以确保每个动作准确执行，展示了传统机械原理如何与现代技术相结合。此外，“重复杠杆”并不限于机械应用。在软件开发中，这个概念可以比喻地应用于在满足特定条件之前重复某些过程的函数或例程。这类似于编程中的循环，其中一组指令被重复执行，类似于物理“重复杠杆”的功能。这种类比突显了这一概念在不同领域的多样性。总之，“重复杠杆”作为机械和数字系统中的基础元素，展示了杠杆和重复的力量。通过理解这个概念，我们对各种技术的巧妙构思有了更深刻的理解，这些技术简化了任务并提高了效率。无论是在车间、工厂还是计算机程序中，支配“重复杠杆”的原则在我们的日常生活中继续发挥着重要作用。随着我们迈向未来，探索围绕这一概念的应用和创新无疑会引领技术和工程的进一步发展。