interlock limit

简明释义

闭锁限度

英英释义

例句

1.If the interlock limit 联锁限制 is exceeded, an alarm will sound.

如果超过了联锁限制，将会发出警报。

2.The technician adjusted the interlock limit 联锁限制 to improve performance.

技术员调整了联锁限制以提高性能。

3.To ensure safety, the interlock limit 联锁限制 must be checked regularly.

为了确保安全，必须定期检查联锁限制。

4.The machine will not operate until the interlock limit 联锁限制 is properly set.

机器在正确设置联锁限制之前不会运行。

5.Understanding the interlock limit 联锁限制 is crucial for operating this equipment safely.

理解联锁限制对安全操作这台设备至关重要。

作文

In modern engineering and design, the concept of interlock limit plays a crucial role in ensuring safety and efficiency. The term interlock limit refers to the maximum extent to which two or more components can engage with each other while still maintaining their functional integrity. This is particularly important in systems where mechanical parts must work together seamlessly to prevent failures that could lead to accidents or malfunctions.For example, consider a complex machine such as an industrial robot. The various joints and actuators of the robot must operate within specific interlock limits to ensure that they do not interfere with one another during operation. If these limits are exceeded, the robot may experience jamming, excessive wear, or even catastrophic failure. Thus, engineers must carefully calculate and define these limits during the design phase to optimize performance and ensure longevity.Moreover, the interlock limit is not only applicable in mechanical systems but also in software engineering. In programming, especially in concurrent systems, the interlock limit can refer to the conditions under which multiple processes can safely interact without causing deadlocks or race conditions. By defining clear interlock limits, developers can create more robust applications that handle multiple tasks efficiently without compromising on performance.In the context of safety protocols, understanding the interlock limit is vital. For instance, in nuclear power plants, various safety systems are designed with strict interlock limits to prevent simultaneous activation of conflicting systems. These limits ensure that if one safety mechanism is engaged, it will inhibit the operation of others that could lead to dangerous situations. This layered approach to safety is essential in high-stakes environments where the margin for error is minimal.Furthermore, the interlock limit concept extends to everyday life as well. Take, for instance, the design of household appliances. Many devices, such as washing machines or microwaves, have built-in interlock limits that prevent them from operating when the door is open. This safety feature is crucial to protect users from potential hazards, demonstrating how widely applicable the concept is.In conclusion, the interlock limit is a fundamental principle in various fields, ranging from mechanical engineering to software development and safety management. By understanding and implementing appropriate interlock limits, we can enhance the reliability and safety of systems we interact with daily. As technology continues to evolve, the importance of defining and adhering to interlock limits will only grow, ensuring that our innovations remain safe and efficient for all users.

在现代工程和设计中，interlock limit的概念在确保安全和效率方面发挥着至关重要的作用。术语interlock limit指的是两个或多个组件在保持其功能完整性的同时可以相互接合的最大程度。这在机械部件必须无缝协作以防止可能导致事故或故障的失效的系统中尤为重要。例如，考虑一个复杂的机器，如工业机器人。机器人的各个关节和执行器必须在特定的interlock limits内运行，以确保它们在操作过程中不会相互干扰。如果超过这些限制，机器人可能会出现卡滞、过度磨损甚至灾难性故障。因此，工程师在设计阶段必须仔细计算和定义这些限制，以优化性能并确保耐用性。此外，interlock limit不仅适用于机械系统，也适用于软件工程。在编程中，尤其是在并发系统中，interlock limit可以指多个进程可以安全交互而不导致死锁或竞争条件的条件。通过定义明确的interlock limits，开发人员可以创建更强大的应用程序，以高效处理多个任务，而不妥协性能。在安全协议的背景下，理解interlock limit至关重要。例如，在核电站，各种安全系统的设计都有严格的interlock limits，以防止冲突系统的同时激活。这些限制确保如果一个安全机制被激活，它将抑制其他可能导致危险情况的系统的操作。这种分层的安全方法在高风险环境中是必不可少的，其中容错率极小。此外，interlock limit的概念也扩展到日常生活中。以家用电器的设计为例。许多设备，如洗衣机或微波炉，都具有内置的interlock limits，防止在门打开时操作。这一安全特性对于保护用户免受潜在危害至关重要，证明了这一概念的广泛适用性。总之，interlock limit是各个领域的基本原则，从机械工程到软件开发和安全管理。通过理解和实施适当的interlock limits，我们可以增强我们日常互动系统的可靠性和安全性。随着技术的不断发展，定义和遵守interlock limits的重要性只会增加，确保我们的创新对所有用户保持安全和高效。