interlock arrangement

简明释义

联锁装置

英英释义

例句

1.The interlock arrangement ensures that the conveyor belt only operates when all safety guards are in place.

该联锁装置确保只有在所有安全护罩到位时，传送带才会运行。

2.In the design of the security system, we implemented an interlock arrangement to ensure that all doors must be locked before the alarm is activated.

在安全系统的设计中，我们实施了一个联锁装置，以确保在激活警报之前所有门必须锁定。

3.The interlock arrangement in the electrical panel prevents two circuits from being powered simultaneously.

电气面板中的联锁装置防止两个电路同时通电。

4.For the new assembly line, engineers designed an interlock arrangement to enhance worker safety.

为了新的装配线，工程师设计了一个联锁装置以增强工人安全。

5.The new safety features in the machine include an interlock arrangement to prevent accidental operation.

机器中的新安全功能包括一个联锁装置，以防止意外操作。

作文

In the realm of engineering and design, the term interlock arrangement refers to a system where components are connected in such a way that they cannot operate independently. This concept is crucial in various fields, including mechanical engineering, architecture, and even software development. The primary purpose of an interlock arrangement is to enhance safety and efficiency by ensuring that certain conditions are met before allowing a system to function. For instance, in a manufacturing setup, machines may be designed with an interlock arrangement to prevent them from operating unless all safety guards are in place. This prevents accidents and protects workers from potential hazards.Moreover, the interlock arrangement can also be seen in architectural designs where different structural elements are interconnected. For example, in a building, beams and columns may be arranged in such a way that they provide mutual support, enhancing the overall stability of the structure. This type of design not only ensures the integrity of the building but also allows for more efficient use of materials. By utilizing an interlock arrangement, architects can create spaces that are both functional and aesthetically pleasing.In the world of software, interlock arrangements manifest as dependencies between different modules or components. When developing complex software systems, certain parts of the code may require others to be initialized or configured before they can operate correctly. This interdependency is crucial for maintaining the overall functionality of the system. Developers often implement these arrangements to minimize errors and ensure that the software runs smoothly. For instance, if a user tries to access a feature that relies on another feature being active, the interlock arrangement will prevent that action until the necessary conditions are met.The benefits of using interlock arrangements extend beyond safety and efficiency. They also promote a sense of order and organization within a system. By establishing clear connections and dependencies, designers and engineers can better manage complex systems, making it easier to troubleshoot issues when they arise. For example, in automotive engineering, safety features such as seatbelt reminders and airbags often utilize interlock arrangements to ensure that all necessary precautions are taken before a vehicle can operate.Furthermore, interlock arrangements can lead to innovative solutions in problem-solving. When faced with challenges, engineers and designers can think creatively about how to arrange components in a way that maximizes their interconnectivity. This kind of thinking often leads to breakthroughs in technology and design, pushing the boundaries of what is possible.In conclusion, the concept of interlock arrangement is fundamental across various industries, serving to enhance safety, efficiency, and organization. Whether in engineering, architecture, or software development, understanding and implementing these arrangements can lead to improved outcomes and innovative solutions. As technology continues to evolve, the importance of interlock arrangements will undoubtedly grow, shaping the future of design and engineering practices.

在工程和设计领域，术语互锁安排指的是组件以某种方式连接在一起，使它们无法独立运行。这一概念在机械工程、建筑甚至软件开发等多个领域至关重要。互锁安排的主要目的是通过确保在允许系统运作之前满足某些条件，从而提高安全性和效率。例如，在制造设置中，机器可能设计有互锁安排，以防止它们在所有安全防护装置到位之前运行。这可以防止事故，保护工人免受潜在危险。此外，互锁安排也可以在建筑设计中看到，其中不同的结构元素相互连接。例如，在一栋建筑中，梁和柱可能以某种方式排列，提供相互支持，从而增强整个结构的稳定性。这种设计不仅确保建筑的完整性，还能更有效地利用材料。通过利用互锁安排，建筑师可以创造出既实用又美观的空间。在软件世界中，互锁安排表现为不同模块或组件之间的依赖关系。在开发复杂的软件系统时，代码的某些部分可能需要其他部分初始化或配置后才能正常工作。这种相互依赖对于维护系统的整体功能至关重要。开发人员通常实施这些安排，以最小化错误并确保软件顺利运行。例如，如果用户尝试访问一个依赖于另一个功能的特性，互锁安排将防止该操作，直到满足必要条件。使用互锁安排的好处超越了安全性和效率。它们还促进了系统内的秩序感和组织感。通过建立明确的连接和依赖关系，设计师和工程师可以更好地管理复杂系统，使他们在出现问题时更容易进行故障排除。例如，在汽车工程中，安全特性如安全带提醒和气囊通常利用互锁安排，以确保在车辆可以运行之前采取所有必要的预防措施。此外，互锁安排可以在解决问题时导致创新的解决方案。当面临挑战时，工程师和设计师可以创造性地思考如何以最大化其互联性的方式排列组件。这种思维方式往往会导致技术和设计方面的突破，推动可能性的边界。总之，互锁安排的概念在各个行业都是基础，旨在提高安全性、效率和组织性。无论是在工程、建筑还是软件开发中，理解和实施这些安排都可以导致更好的结果和创新的解决方案。随着技术的不断发展，互锁安排的重要性无疑会增加，塑造设计和工程实践的未来。