interlock arrangement

简明释义

联锁装置联锁机构

英英释义

例句

1.The security system features an interlock arrangement that locks doors when an alarm is triggered.

安全系统具有一个联锁安排，在触发警报时锁定门。

2.In the software, the interlock arrangement prevents two processes from accessing the same resource simultaneously.

在软件中，联锁安排防止两个进程同时访问同一资源。

3.Our team implemented an interlock arrangement in the assembly line to improve efficiency and reduce errors.

我们的团队在生产线上实施了一个联锁安排，以提高效率并减少错误。

4.The interlock arrangement in the electrical circuit ensures that no two switches can be activated at the same time.

电路中的联锁安排确保不会同时激活两个开关。

5.The new factory design includes an interlock arrangement to ensure safety during maintenance.

新工厂设计包括一个联锁安排，以确保在维护期间的安全。

作文

In the modern world of engineering and design, the concept of an interlock arrangement has become increasingly important. This term refers to a system where components are designed to fit together in a way that enhances functionality and safety. An interlock arrangement can be found in various applications, from machinery to architecture, ensuring that parts work cohesively and preventing unintended operations. For instance, in machinery, an interlock arrangement might ensure that a machine cannot operate unless all safety guards are in place. This not only protects the operator but also extends the life of the equipment by preventing misuse.The significance of interlock arrangements extends beyond mere functionality; they are crucial in maintaining safety standards across industries. In construction, for example, an interlock arrangement in the design of building materials can provide additional stability during natural disasters such as earthquakes. When bricks or tiles are designed to interlock, they distribute forces more evenly, reducing the risk of collapse. This innovative approach to design highlights how an interlock arrangement can contribute to the longevity and resilience of structures.Furthermore, the application of interlock arrangements is not limited to physical products. In software development, programmers often use interlock arrangements in their code to prevent conflicting operations. For example, in multi-threaded environments, an interlock arrangement can ensure that two processes do not attempt to access the same resource simultaneously, thereby avoiding data corruption and crashes. This form of interlocking is essential for creating reliable and efficient software systems.The versatility of interlock arrangements also allows them to be tailored to specific needs. In automotive design, for instance, manufacturers employ interlock arrangements to enhance vehicle safety features. Seatbelts, airbags, and door locks may all be part of an interlock arrangement that ensures they function correctly only when needed. This careful consideration of how components interact with one another exemplifies the thoughtful engineering behind modern vehicles.Moreover, interlock arrangements can also be seen in everyday objects. Consider a simple puzzle; the pieces are designed to fit together in a specific way. This is a basic example of an interlock arrangement, where the design ensures that the pieces can only connect in a certain manner, promoting both fun and cognitive development. Similarly, in furniture design, an interlock arrangement can provide stability and ease of assembly, making it easier for consumers to put together their purchases without professional help.In conclusion, the concept of an interlock arrangement is a fundamental principle that transcends various fields, including engineering, construction, software development, and everyday product design. By understanding and implementing interlock arrangements, designers and engineers can create safer, more efficient, and more reliable products. As technology continues to evolve, the importance of these arrangements will undoubtedly grow, making them a key focus for future innovations. The ability to interconnect components not only enhances functionality but also fosters a culture of safety and reliability in our increasingly complex world.

在现代工程和设计的世界中，互锁结构的概念变得越来越重要。这个术语指的是一个系统，其中组件被设计成以一种增强功能性和安全性的方式相互配合。互锁结构可以在各种应用中找到，从机械到建筑，确保各个部分能够协同工作，并防止意外操作。例如，在机械中，互锁结构可能确保机器在所有安全防护装置到位之前无法操作。这不仅保护操作员，还通过防止误用来延长设备的使用寿命。互锁结构的重要性超越了单纯的功能性；它们在维护各行业的安全标准方面至关重要。例如，在建筑中，设计中的互锁结构可以在自然灾害如地震期间提供额外的稳定性。当砖块或瓦片被设计成互锁时，它们可以更均匀地分配力量，减少倒塌的风险。这种创新的设计方法突显了互锁结构如何有助于结构的耐久性和韧性。此外，互锁结构的应用不仅限于物理产品。在软件开发中，程序员经常在代码中使用互锁结构来防止冲突操作。例如，在多线程环境中，互锁结构可以确保两个进程不会同时尝试访问同一资源，从而避免数据损坏和崩溃。这种形式的互锁对于创建可靠和高效的软件系统至关重要。互锁结构的多样性也使其能够根据特定需求进行定制。在汽车设计中，例如，制造商采用互锁结构来增强车辆安全特性。安全带、气囊和车门锁都可能是确保它们仅在需要时正常工作的互锁结构的一部分。这种对组件之间相互作用的深思熟虑的考虑突显了现代车辆背后的精心工程。此外，互锁结构还可以在日常物品中看到。考虑一个简单的拼图；这些拼图的设计使得它们以特定的方式相互契合。这是互锁结构的基本例子，其中设计确保了拼图只能以某种方式连接，促进了乐趣和认知发展。类似地，在家具设计中，互锁结构可以提供稳定性和易于组装，使消费者能够在不需要专业帮助的情况下轻松组装他们的购买。总之，互锁结构的概念是一项基本原则，跨越了多个领域，包括工程、建筑、软件开发和日常产品设计。通过理解和实施互锁结构，设计师和工程师可以创造出更安全、更高效和更可靠的产品。随着技术的不断发展，这些结构的重要性无疑会增长，使其成为未来创新的关键焦点。组件之间的互联能力不仅增强了功能性，还在我们日益复杂的世界中促进了安全和可靠性的文化。