deflecting yoke

简明释义

偏转系统偏转线圈

英英释义

例句

1.During the testing phase, we noticed that the deflecting yoke was not functioning as intended.

在测试阶段，我们注意到偏转轭没有按预期工作。

2.In the assembly line, the deflecting yoke helps in guiding the materials precisely to the next station.

在装配线上，偏转轭帮助将材料精确引导到下一个站点。

3.By adjusting the angle of the deflecting yoke, we can optimize the performance of the equipment.

通过调整偏转轭的角度，我们可以优化设备的性能。

4.The engineer designed a new type of machine that incorporates a deflecting yoke to redirect forces effectively.

工程师设计了一种新型机器，采用了偏转轭来有效地重定向力。

5.The deflecting yoke is crucial in ensuring that the machine operates smoothly under heavy loads.

偏转轭在确保机器在重载下平稳运行中至关重要。

作文

In the realm of mechanical engineering, various components work together to ensure that machines operate effectively and efficiently. One such component is the deflecting yoke, a crucial element often used in different types of machinery. The term deflecting yoke refers to a device that redirects forces or movements in a specific manner, typically used in systems where precise control of motion is required. Understanding the function and application of the deflecting yoke can provide valuable insights into how complex machines achieve their intended purposes.The deflecting yoke serves as a pivotal link between various mechanical parts, allowing for the redirection of force without altering the original source. In many cases, it acts as a support structure that mitigates stress and strain on other components, thereby enhancing the overall durability and performance of the machine. For instance, in the context of a rotating system, the deflecting yoke can help distribute forces evenly, preventing wear and tear that could lead to mechanical failure.Moreover, the design of the deflecting yoke is often tailored to meet specific operational requirements. Engineers must consider factors such as material strength, weight distribution, and the nature of the forces involved when creating a deflecting yoke. This customization ensures that the yoke performs optimally within its designated environment, contributing to the reliability and efficiency of the entire system.In practical applications, the deflecting yoke is commonly found in various industries, including automotive, aerospace, and manufacturing. For example, in automotive steering systems, a deflecting yoke may be used to transmit the driver's input from the steering wheel to the wheels, allowing for smooth and responsive handling. Similarly, in aerospace engineering, the deflecting yoke plays a critical role in controlling flight surfaces, ensuring that aircraft respond accurately to pilot commands.Furthermore, the importance of the deflecting yoke extends beyond mere mechanical functionality. It also plays a significant role in safety. By effectively managing forces and preventing excessive loads on critical components, the deflecting yoke helps to reduce the risk of catastrophic failures, which could endanger operators and equipment alike. This aspect of its design underscores the necessity of rigorous testing and quality assurance processes in engineering practices.In conclusion, the deflecting yoke is an indispensable component in many mechanical systems, providing essential functions that enhance performance, reliability, and safety. Its ability to redirect forces and support other parts of a machine makes it a key player in the successful operation of complex machinery. As technology continues to advance, the role of the deflecting yoke is likely to evolve, incorporating new materials and designs to meet the demands of modern engineering challenges. Understanding this component not only enriches our knowledge of mechanical systems but also highlights the intricate relationships between various machine parts that work together harmoniously to achieve desired outcomes.

在机械工程领域，各种组件共同工作，以确保机器有效和高效地运行。其中一个重要的组件是偏转叉，这是不同类型机械中常用的关键元素。术语偏转叉指的是一种以特定方式重定向力量或运动的装置，通常用于需要精确控制运动的系统。理解偏转叉的功能和应用，可以为我们提供有关复杂机器如何实现其预期目的的宝贵见解。偏转叉作为各种机械部件之间的关键连接，能够在不改变原始来源的情况下重定向力量。在许多情况下，它充当支撑结构，减轻其他组件的应力和压力，从而增强机器的整体耐用性和性能。例如，在旋转系统的上下文中，偏转叉可以帮助均匀分布力量，防止磨损和撕裂，避免机械故障。此外，偏转叉的设计通常根据特定的操作要求进行定制。工程师在创建偏转叉时，必须考虑材料强度、重量分布和涉及力量的性质等因素。这种定制确保了叉在其指定环境中最佳运行，促进了整个系统的可靠性和效率。在实际应用中，偏转叉通常出现在各个行业，包括汽车、航空航天和制造业。例如，在汽车转向系统中，偏转叉可能用于将驾驶员从方向盘的输入传递到车轮，从而实现平稳和灵敏的操控。同样，在航空航天工程中，偏转叉在控制飞行表面方面发挥着关键作用，确保飞机准确响应飞行员的指令。此外，偏转叉的重要性不仅限于机械功能。它在安全性方面也发挥着重要作用。通过有效管理力量并防止关键组件上的过载，偏转叉有助于降低灾难性故障的风险，这可能危及操作人员和设备。这一设计方面强调了在工程实践中严格测试和质量保证流程的必要性。总之，偏转叉是许多机械系统中不可或缺的组件，提供增强性能、可靠性和安全性的基本功能。它重定向力量和支撑其他机器部件的能力，使其成为复杂机械成功运行的关键参与者。随着技术的不断进步，偏转叉的角色可能会演变，结合新材料和设计，以满足现代工程挑战的需求。理解这一组件不仅丰富了我们对机械系统的知识，也突显了各个机器部件之间错综复杂的关系，它们共同和谐地工作，以实现预期的结果。