non-automatic tripping

简明释义

非自动脱扣

英英释义

例句

1.The safety protocol includes steps for non-automatic tripping 非自动跳闸 in case of an emergency.

安全协议包括在紧急情况下进行非自动跳闸的步骤。

2.During the drill, the team practiced non-automatic tripping 非自动跳闸 to ensure readiness for real situations.

在演习中，团队练习了非自动跳闸以确保为真实情况做好准备。

3.In the event of a power surge, the system may require non-automatic tripping 非自动跳闸 to ensure safety.

在电涌发生时，系统可能需要非自动跳闸以确保安全。

4.The technician explained that non-automatic tripping 非自动跳闸 is necessary for certain machinery during maintenance.

技术人员解释说，在维护期间，某些机器需要非自动跳闸。

5.To prevent equipment damage, operators must be trained to perform non-automatic tripping 非自动跳闸 manually.

为了防止设备损坏，操作员必须接受手动执行非自动跳闸的培训。

作文

In the realm of electrical engineering, safety mechanisms play a crucial role in preventing accidents and ensuring the smooth operation of machinery. One such mechanism is known as non-automatic tripping, which refers to a manual intervention process that disconnects power from a circuit or device when an abnormal condition is detected. Unlike automatic tripping, which occurs without human intervention, non-automatic tripping requires an operator to take action, making it essential in situations where immediate attention is necessary to prevent damage or hazards.The importance of non-automatic tripping cannot be overstated, especially in industrial settings where heavy machinery operates continuously. For instance, if a machine overheats or experiences a fault, an automatic tripping system may not always respond appropriately due to the nature of the fault. In such cases, operators must rely on their training and experience to assess the situation and execute non-automatic tripping to ensure the safety of both the equipment and personnel. This manual process often involves pressing a button or flipping a switch to cut off power, thus preventing further escalation of the problem.Moreover, non-automatic tripping serves as a vital component in emergency protocols. In scenarios such as fires, chemical spills, or equipment malfunctions, quick decision-making is essential. Operators are trained to recognize warning signs and act swiftly by engaging the non-automatic tripping system. This capability not only protects the physical assets but also safeguards the lives of workers who might be in danger due to equipment failure or hazardous conditions.However, relying solely on non-automatic tripping can pose risks if not properly managed. Human error is a significant factor in many industrial accidents, and if an operator fails to respond quickly or correctly, the consequences can be dire. Therefore, it is crucial for organizations to implement comprehensive training programs that emphasize the importance of timely and correct responses to abnormal conditions. Regular drills and simulations can help reinforce the skills needed to effectively utilize non-automatic tripping systems when necessary.In conclusion, while automatic systems are designed to enhance efficiency and safety, the role of non-automatic tripping remains indispensable in many industries. It provides a necessary layer of control that allows trained personnel to intervene in critical situations. As technology advances, the integration of both automatic and non-automatic systems could lead to even safer operational environments. However, the human element must not be overlooked; ongoing training and awareness are key to ensuring that non-automatic tripping is executed effectively when required. Ultimately, the combination of automated safety features and skilled human intervention creates a robust safety net that protects both people and machinery in the workplace.

在电气工程领域，安全机制在防止事故和确保机械平稳运行方面起着至关重要的作用。其中一种机制被称为非自动跳闸，它指的是当检测到异常情况时，通过手动干预过程来切断电路或设备的电源。与无需人为干预的自动跳闸不同，非自动跳闸需要操作员采取行动，这在需要立即关注以防止损坏或危险的情况下至关重要。非自动跳闸的重要性不容小觑，尤其是在重型机械持续运转的工业环境中。例如，如果一台机器过热或出现故障，自动跳闸系统可能由于故障的性质而无法适当地响应。在这种情况下，操作员必须依靠他们的培训和经验来评估情况，并执行非自动跳闸以确保设备和人员的安全。这个手动过程通常涉及按下一个按钮或翻转一个开关来切断电源，从而防止问题进一步升级。此外，非自动跳闸在紧急协议中也起着至关重要的作用。在火灾、化学泄漏或设备故障等场景中，迅速的决策至关重要。操作员接受了识别警告信号并迅速采取行动的培训，通过启动非自动跳闸系统。这种能力不仅保护了物理资产，还保障了可能因设备故障或危险条件而面临危险的工人的生命。然而，如果管理不当，仅依赖于非自动跳闸可能会带来风险。人为错误是许多工业事故中的一个重要因素，如果操作员未能迅速或正确地响应，后果可能是严重的。因此，组织实施全面的培训项目，强调及时和正确响应异常情况的重要性是至关重要的。定期的演练和模拟可以帮助强化在必要时有效利用非自动跳闸系统所需的技能。总之，尽管自动系统旨在提高效率和安全性，但在许多行业中，非自动跳闸的角色仍然不可或缺。它提供了一层必要的控制，使训练有素的人员能够在关键情况下进行干预。随着技术的进步，自动和非自动系统的结合可能会导致更加安全的操作环境。然而，人为因素不应被忽视；持续的培训和意识是确保在需要时有效执行非自动跳闸的关键。最终，自动安全特性与熟练的人为干预的结合创造了一个强大的安全网，以保护工作场所中的人和机械。