no-voltage release
简明释义
无压释放器
英英释义
例句
1.In the event of a power failure, the no-voltage release will automatically disconnect the equipment.
在停电的情况下,无电压释放将自动断开设备。
2.Make sure to test the no-voltage release mechanism regularly to avoid unexpected shutdowns.
确保定期测试无电压释放机制,以避免意外停机。
3.The circuit breaker features a no-voltage release to ensure safety during maintenance.
该断路器具有无电压释放功能,以确保维护期间的安全。
4.Before starting work on the electrical panel, confirm that the no-voltage release is functioning properly.
在开始对电气面板进行工作之前,请确认无电压释放功能正常。
5.The elevator system is equipped with a no-voltage release feature for emergency situations.
电梯系统配备了无电压释放功能以应对紧急情况。
作文
In the world of electrical engineering, safety is a paramount concern. One of the critical components that ensure safety in electrical systems is the concept of no-voltage release. This term refers to a mechanism designed to disconnect power from equipment when there is a loss of voltage or power supply. Essentially, it acts as a safeguard against unexpected power failures, ensuring that machinery does not operate under unsafe conditions. The importance of no-voltage release cannot be overstated, especially in industrial settings where heavy machinery is used. When a sudden power outage occurs, machines can become hazardous if they continue to operate without proper control. The no-voltage release mechanism ensures that these machines come to a halt, preventing potential accidents and injuries to workers.Moreover, the implementation of no-voltage release systems is crucial in maintaining the integrity of electrical circuits. By automatically disconnecting the power supply during a voltage drop, these systems protect sensitive electronic components from damage. For instance, in the case of an electric motor, a sudden loss of voltage could lead to overheating or mechanical failure. The no-voltage release feature mitigates this risk by cutting off the power supply, allowing the motor to cool down and preventing any further damage.In addition to protecting machinery and components, no-voltage release also plays a significant role in enhancing user safety. Many electrical devices are equipped with this feature to ensure that they do not inadvertently restart after a power interruption. This is particularly important in applications where operators may be working closely with the equipment. For example, consider a scenario in which a worker is performing maintenance on a conveyor belt system. If the system were to suddenly restart due to a power surge, it could lead to severe injuries. The no-voltage release mechanism prevents such occurrences by ensuring that the equipment remains in a safe state until it is manually reset.Furthermore, understanding how no-voltage release works is essential for anyone involved in electrical installation or maintenance. Typically, these systems are integrated into circuit breakers or contactors. When the voltage drops below a certain threshold, the mechanism triggers a disconnection of the power supply. To restore power, the operator must manually reset the device, which serves as an additional layer of safety. This design is intentional, as it requires human intervention to ensure that the situation is assessed before re-energizing the equipment.In conclusion, the concept of no-voltage release is a vital aspect of electrical safety and reliability. By preventing equipment from operating under unsafe conditions, protecting sensitive components, and enhancing user safety, this mechanism plays a crucial role in various applications. As technology continues to advance, the importance of understanding and implementing no-voltage release systems will only grow, making it an essential topic for electrical engineers and technicians alike. Safety should always come first, and no-voltage release is one of the many tools that help achieve this goal in the electrical industry.
在电气工程的世界中,安全是至关重要的。确保电气系统安全的关键组成部分之一是“无电压释放”(no-voltage release)的概念。这个术语指的是一种机制,旨在当电压或电源供应丧失时,切断设备的电源。它基本上充当意外停电的保护装置,确保机器在不安全的条件下不会运行。“无电压释放”(no-voltage release)的重要性不容小觑,特别是在使用重型机械的工业环境中。当突然发生电源中断时,如果机器在没有适当控制的情况下继续运行,可能会变得危险。“无电压释放”(no-voltage release)机制确保这些机器停止运转,从而防止潜在的事故和工人受伤。此外,实施“无电压释放”(no-voltage release)系统对维护电气电路的完整性至关重要。通过在电压下降时自动切断电源,这些系统保护敏感的电子元件免受损坏。例如,在电动机的情况下,电压的突然下降可能导致过热或机械故障。“无电压释放”(no-voltage release)功能通过切断电源来减轻这种风险,使电动机能够冷却,防止进一步的损坏。除了保护机械和组件外,“无电压释放”(no-voltage release)在增强用户安全方面也发挥着重要作用。许多电气设备都配备了这一功能,以确保在电源中断后不会意外重新启动。这在操作员可能与设备密切合作的应用中尤为重要。例如,考虑一个场景,其中工人在进行输送带系统的维护。如果系统由于电源浪涌而突然重新启动,可能会导致严重的伤害。“无电压释放”(no-voltage release)机制通过确保设备保持在安全状态,直到手动重置,防止此类情况的发生。此外,理解“无电压释放”(no-voltage release)的工作原理对于任何参与电气安装或维护的人来说都是至关重要的。通常,这些系统集成在断路器或接触器中。当电压降到某个阈值以下时,机制触发电源的切断。要恢复电源,操作员必须手动重置设备,这提供了额外的安全层。这种设计是有意的,因为它需要人工干预,以确保在重新供电之前对情况进行评估。总之,“无电压释放”(no-voltage release)的概念是电气安全和可靠性的一个重要方面。通过防止设备在不安全的条件下运行、保护敏感组件和增强用户安全,这一机制在各种应用中发挥着至关重要的作用。随着技术的不断进步,理解和实施“无电压释放”(no-voltage release)系统的重要性只会增加,使其成为电气工程师和技术人员必不可少的话题。安全应始终放在第一位,而“无电压释放”(no-voltage release)是帮助实现这一目标的众多工具之一。
