interlocking mechanism
简明释义
联锁机械装置
英英释义
A system or arrangement of parts that are interconnected or linked together in such a way that they work together to achieve a specific function. | 一种部件相互连接或联结的系统或安排,以便共同工作以实现特定功能。 |
例句
1.In the construction of the bridge, engineers designed an interlocking mechanism to ensure stability during high winds.
在桥梁的建造中,工程师设计了一种互锁机制以确保在强风下的稳定性。
2.The new safety feature in the car includes an interlocking mechanism that prevents the doors from opening while the vehicle is in motion.
这款汽车的新安全功能包括一个互锁机制,可以防止车辆行驶时车门打开。
3.The puzzle box has an interlocking mechanism that requires multiple steps to unlock it.
这个拼图盒有一个互锁机制,需要多个步骤才能解锁。
4.The interlocking mechanism in this lock provides an extra layer of security against tampering.
这个锁中的互锁机制提供了额外的安全层,以防止篡改。
5.The toy set features an interlocking mechanism that allows children to build complex structures easily.
这个玩具套件有一个互锁机制,让孩子们能够轻松搭建复杂的结构。
作文
In the intricate world of engineering and design, the term interlocking mechanism refers to a system where different components are designed to fit together in such a way that they cannot be separated without a specific action. This concept is pivotal in various fields, including architecture, machinery, and even everyday objects. The beauty of an interlocking mechanism lies in its ability to create stability and strength through the interdependence of parts. For instance, in construction, bricks may utilize an interlocking mechanism to ensure that they hold firmly together, minimizing the risk of collapse. One of the most prominent examples of an interlocking mechanism can be found in puzzle toys, such as jigsaw puzzles or LEGO blocks. Each piece is designed to fit seamlessly with others, allowing for endless combinations and structures. This not only enhances the fun but also promotes cognitive skills such as problem-solving and spatial awareness. Children learn to recognize how each piece connects with another, fostering creativity and critical thinking. Moreover, the interlocking mechanism is essential in the automotive industry. Cars are composed of thousands of parts, many of which rely on interlocking designs to function correctly. For instance, gears and cogs in a transmission work together through an interlocking mechanism, allowing for smooth transitions between speeds. Without this precise engineering, vehicles would struggle to operate efficiently, leading to safety concerns and performance issues. In addition to mechanical applications, the concept of an interlocking mechanism can also be observed in social systems. For example, in a community, different organizations and groups often work together through interlocking roles and responsibilities. Each entity relies on the others to function effectively, much like the parts of a machine. This interconnectedness is vital for maintaining social harmony and ensuring that resources are allocated efficiently. However, while interlocking mechanisms provide numerous benefits, they can also pose challenges. In complex systems, if one component fails, it can lead to a domino effect, causing other parts to malfunction. This vulnerability highlights the importance of robust design and maintenance in any system utilizing an interlocking mechanism. Engineers and designers must carefully consider the implications of interdependence and strive to create solutions that are both efficient and resilient. In conclusion, the concept of an interlocking mechanism is fundamental across various disciplines, from engineering to social structures. It exemplifies how interconnected components can work together to create stability and functionality. As we continue to innovate and develop new technologies, understanding and mastering interlocking mechanisms will remain crucial in designing systems that are not only effective but also sustainable in the long run.
在复杂的工程和设计世界中,术语互锁机制指的是不同组件被设计成以某种方式相互契合,以至于在没有特定动作的情况下无法分离。这一概念在建筑、机械甚至日常物品等多个领域中至关重要。互锁机制的美在于它能够通过部件之间的相互依赖性创造稳定性和强度。例如,在建筑中,砖块可能利用互锁机制确保它们牢固地结合在一起,从而最小化倒塌的风险。互锁机制的一个显著例子可以在拼图玩具中找到,例如拼图或乐高积木。每个部件都被设计成与其他部件无缝契合,允许无限的组合和结构。这不仅增强了乐趣,还促进了认知技能的发展,如解决问题和空间意识。孩子们学习识别每个部件如何与另一个部件连接,从而培养创造力和批判性思维。此外,互锁机制在汽车工业中至关重要。汽车由数千个部件组成,其中许多依赖于互锁设计才能正常工作。例如,变速器中的齿轮和齿轮通过互锁机制协同工作,使得速度之间的平稳过渡成为可能。如果没有这种精确的工程,车辆将难以高效运行,导致安全隐患和性能问题。除了机械应用之外,互锁机制的概念也可以在社会系统中观察到。例如,在一个社区中,不同的组织和团体通常通过互锁的角色和责任共同工作。每个实体都依赖于其他实体的有效运作,就像机器的各个部分一样。这种相互联系对于维护社会和谐和确保资源的有效分配至关重要。然而,尽管互锁机制提供了许多好处,但它们也可能带来挑战。在复杂系统中,如果一个组件发生故障,可能会导致多米诺效应,使其他部件失效。这种脆弱性突显了在任何利用互锁机制的系统中,坚固设计和维护的重要性。工程师和设计师必须仔细考虑相互依赖的影响,并努力创造既高效又具有弹性的解决方案。总之,互锁机制的概念在各个学科中都是基础,从工程到社会结构。它体现了相互关联的组件如何共同工作以创造稳定性和功能性。随着我们继续创新和开发新技术,理解和掌握互锁机制将仍然是设计既有效又可持续的系统的关键。
相关单词
