automatic trip
简明释义
自动跳闸
英英释义
例句
1.The circuit breaker will perform an automatic trip when it detects an overload.
当电路过载时,断路器将执行一次自动跳闸。
2.During testing, we observed an automatic trip of the generator when it reached critical temperature.
在测试过程中,我们观察到发电机在达到临界温度时发生了自动跳闸。
3.The safety protocols include an automatic trip feature to ensure personnel safety.
安全协议包括一个自动跳闸功能,以确保人员安全。
4.The software has an automatic trip mechanism to shut down operations in emergencies.
该软件具有一种自动跳闸机制,以便在紧急情况下关闭操作。
5.In case of a fault, the system is designed to initiate an automatic trip to protect the equipment.
在发生故障的情况下,系统设计为启动一次自动跳闸以保护设备。
作文
In today's fast-paced world, technology has become an integral part of our lives. One of the fascinating advancements in technology is the concept of an automatic trip (自动跳闸). This term refers to a system or mechanism that automatically activates certain functions or safety measures when specific conditions are met. The implications of this technology can be seen in various fields, including transportation, energy management, and even home automation.In the transportation sector, an automatic trip system is crucial for ensuring safety. For instance, many modern trains are equipped with automatic braking systems that activate when the train exceeds a certain speed or if there is an obstruction on the tracks. This type of automatic trip not only prevents accidents but also enhances the overall efficiency of train operations. By reducing the need for manual intervention, these systems allow operators to focus on other critical aspects of their job, thereby improving productivity.Similarly, in the field of energy management, an automatic trip mechanism plays a vital role in maintaining the stability of power grids. When there is an overload or a fault in the system, the automatic trip function can disconnect the affected section from the grid to prevent widespread outages. This quick response helps safeguard equipment and ensures that power supply remains uninterrupted in other areas. As renewable energy sources become more prevalent, the importance of reliable automatic trip systems will only increase, as they help manage the variable nature of solar and wind energy.Home automation is another area where automatic trip technology is making significant strides. Smart home devices often come with safety features that utilize automatic trip functions. For example, a smart smoke detector can trigger an automatic trip to turn off appliances or unlock doors in case of a fire. This not only enhances safety but also provides peace of mind to homeowners. The integration of such systems allows for a seamless living experience where technology works in the background to protect and serve its users.Moreover, the concept of automatic trip extends beyond physical systems to software applications as well. In programming, an automatic trip can refer to error-handling mechanisms that automatically execute predefined actions when a fault occurs. This ensures that applications run smoothly, minimizing downtime and enhancing user experience.In conclusion, the idea of an automatic trip (自动跳闸) is a testament to how far technology has advanced in promoting safety and efficiency across various domains. Whether it is in transportation, energy management, home automation, or software development, the ability to automatically respond to specific conditions is invaluable. As we continue to innovate and integrate these systems into our daily lives, the benefits of automatic trip technologies will undoubtedly play a pivotal role in shaping a safer and more efficient future.
在当今快节奏的世界中,技术已成为我们生活中不可或缺的一部分。一个引人入胜的技术进步是“自动跳闸”的概念。这个术语指的是一种系统或机制,它在特定条件满足时自动激活某些功能或安全措施。这项技术的影响可以在多个领域看到,包括交通、能源管理,甚至家庭自动化。在交通领域,自动跳闸系统对确保安全至关重要。例如,许多现代火车配备了自动刹车系统,当火车超过某个速度或轨道上有障碍物时,该系统会自动启动。这种类型的自动跳闸不仅可以防止事故,还能提高火车运行的整体效率。通过减少对人工干预的需求,这些系统使操作员能够专注于工作中的其他关键方面,从而提高生产力。同样,在能源管理领域,自动跳闸机制在维护电网稳定性方面发挥着重要作用。当系统出现过载或故障时,自动跳闸功能可以将受影响的部分与电网断开,以防止大范围停电。这种快速响应有助于保护设备,并确保其他区域的电力供应不受干扰。随着可再生能源的普及,可靠的自动跳闸系统的重要性只会增加,因为它们有助于管理太阳能和风能的变化特性。家庭自动化是另一个自动跳闸技术取得重大进展的领域。智能家居设备通常配备利用自动跳闸功能的安全特性。例如,智能烟雾探测器可以触发自动跳闸以在发生火灾时关闭电器或解锁门。这不仅增强了安全性,还为房主提供了安心。此类系统的集成使得技术在后台无缝运作,以保护和服务其用户。此外,自动跳闸的概念还扩展到软件应用程序。在编程中,自动跳闸可以指错误处理机制,当发生故障时自动执行预定义的动作。这确保了应用程序的平稳运行,最小化停机时间并增强用户体验。总之,“自动跳闸”是技术在促进各个领域安全和效率方面取得的进步的证明。无论是在交通、能源管理、家庭自动化还是软件开发中,自动响应特定条件的能力都是无价的。随着我们继续创新并将这些系统融入日常生活,自动跳闸技术的好处无疑将在塑造一个更安全、更高效的未来中发挥关键作用。
