trip circuit

简明释义

解扣电路

英英释义

例句

1.To reset the system after a failure, you must first trip circuit 跳闸电路 and then restart the main power.

在故障后重置系统时，您必须首先trip circuit 跳闸电路，然后重新启动主电源。

2.If you notice any flickering lights, it might be a sign that the trip circuit 跳闸电路 is malfunctioning.

如果你注意到灯光闪烁，这可能是trip circuit 跳闸电路故障的迹象。

3.The fire alarm system uses a trip circuit 跳闸电路 to cut off power in case of an emergency.

火灾报警系统使用trip circuit 跳闸电路在紧急情况下切断电源。

4.During the safety inspection, the technician had to trip circuit 跳闸电路 to test the emergency systems.

在安全检查期间，技术人员必须trip circuit 跳闸电路以测试应急系统。

5.When the electrical load exceeds the limit, the system will automatically trip circuit 跳闸电路 to prevent damage.

当电负荷超过限制时，系统会自动trip circuit 跳闸电路以防止损坏。

作文

In the realm of electrical engineering, understanding the concept of a trip circuit is crucial for ensuring safety and functionality in various systems. A trip circuit refers to a protective mechanism that disconnects electrical circuits when an abnormal condition occurs, such as an overload or a short circuit. This action helps prevent damage to equipment and reduces the risk of fire hazards. The importance of a trip circuit can be seen in many applications, from residential wiring to industrial machinery. For instance, in homes, circuit breakers serve as trip circuits that automatically turn off the power supply when they detect excessive current flow. This not only protects the wiring but also safeguards appliances and devices connected to the circuit. Without these protective measures, electrical faults could lead to catastrophic failures, resulting in costly repairs or even dangerous situations.In industrial settings, the role of a trip circuit becomes even more significant. Large machines often require high voltages and currents to operate efficiently. However, if something goes wrong, such as a sudden spike in electricity, the trip circuit will activate to cut off the power, preventing potential disasters. Engineers design these systems with redundancy in mind, ensuring that multiple trip circuits are in place to handle various fault conditions. This layered approach enhances the overall safety of the machinery and the personnel working around it.Additionally, the integration of smart technology has revolutionized how trip circuits function. Modern circuit breakers can now communicate with monitoring systems, providing real-time data about electrical usage and potential issues. This connectivity allows for proactive maintenance, where technicians can identify problems before they escalate into serious faults. The ability to monitor trip circuits remotely also means that businesses can reduce downtime and improve operational efficiency.Moreover, it is essential to regularly test and maintain trip circuits to ensure they function correctly. Over time, components can wear out or become less effective, which may lead to false trips or failure to trip during an actual fault. Regular inspections and testing help maintain the integrity of these systems, ensuring that they will respond appropriately in emergencies.In conclusion, the concept of a trip circuit is fundamental to electrical safety across various applications. Whether in homes or industries, these protective mechanisms play a vital role in preventing damage and ensuring the safe operation of electrical systems. As technology continues to advance, the functionality and reliability of trip circuits will undoubtedly improve, further enhancing safety standards in electrical engineering. Understanding and maintaining these systems is not just a technical requirement but a critical aspect of responsible electrical management.

在电气工程领域，理解“trip circuit”这一概念对于确保各种系统的安全性和功能性至关重要。“trip circuit”指的是一种保护机制，当发生异常情况（如过载或短路）时，它会断开电路。这一举动有助于防止设备损坏并降低火灾风险。“trip circuit”的重要性可以在许多应用中看到，从住宅布线到工业机械。例如，在家庭中，断路器作为“trip circuit”，当检测到过量电流流动时，会自动关闭电源。这不仅保护了布线，还保护了连接到电路的电器和设备。如果没有这些保护措施，电气故障可能导致灾难性的失败，造成昂贵的维修费用甚至危险的情况。在工业环境中，“trip circuit”的作用变得更加重要。大型机器通常需要高电压和电流才能高效运行。然而，如果出现问题，例如电力突然激增，“trip circuit”将激活以切断电源，防止潜在灾难。工程师在设计这些系统时考虑了冗余，确保在不同故障条件下有多个“trip circuit”在位。这种分层的方法提高了机器及周围人员的整体安全性。此外，智能技术的集成彻底改变了“trip circuit”的功能。现代断路器现在可以与监控系统通信，提供有关电气使用和潜在问题的实时数据。这种连接性使得主动维护成为可能，技术人员可以在问题升级为严重故障之前识别出问题。远程监测“trip circuit”的能力也意味着企业可以减少停机时间，提高运营效率。此外，定期测试和维护“trip circuit”至关重要，以确保它们正常工作。随着时间的推移，组件可能会磨损或变得不那么有效，这可能导致错误跳闸或在实际故障时未能跳闸。定期检查和测试有助于维护这些系统的完整性，确保它们在紧急情况下能够正确响应。总之，“trip circuit”的概念是电气安全在各种应用中的基础。无论是在家庭还是工业中，这些保护机制在防止损坏和确保电气系统安全运行方面发挥着至关重要的作用。随着技术的不断进步，“trip circuit”的功能和可靠性无疑会得到改善，进一步提高电气工程的安全标准。理解和维护这些系统不仅是技术要求，更是负责任的电气管理的重要方面。