earthing of frame

简明释义

接机座

英英释义

例句

1.After completing the wiring, the engineer checked the earthing of frame to ensure it was properly connected.

完成布线后，工程师检查了框架接地以确保其正确连接。

2.A faulty earthing of frame can lead to equipment failure and pose safety risks.

故障的框架接地可能导致设备故障并带来安全风险。

3.During the installation, we must ensure proper earthing of frame to comply with safety regulations.

在安装过程中，我们必须确保正确的框架接地以符合安全规定。

4.The earthing of frame is crucial for reducing electromagnetic interference in sensitive equipment.

对于敏感设备来说，框架接地对于减少电磁干扰至关重要。

5.The technician explained the importance of the earthing of frame in preventing electrical shocks.

技术员解释了框架接地在防止电击中的重要性。

作文

The concept of earthing of frame is crucial in the field of electrical engineering and safety. It refers to the process of connecting the non-current carrying parts of electrical equipment to the earth. This connection is essential for protecting both the equipment and the users from electrical faults. When a fault occurs, such as a short circuit, the earthing of frame ensures that the excess electrical energy is safely dissipated into the ground, preventing electric shock or fire hazards.In many industrial settings, machines and equipment often have metal frames. These frames can become energized due to insulation failure or other electrical issues. Without proper earthing of frame, any person who comes into contact with these frames could be at risk of severe injury or even death. Therefore, implementing an effective earthing system is not just a regulatory requirement; it is a fundamental aspect of workplace safety.The importance of earthing of frame extends beyond just individual safety. It also plays a significant role in maintaining the integrity of electrical systems. By grounding the frames of equipment, we create a path for fault currents to travel safely away from sensitive components. This helps in minimizing damage to machinery and prolonging their operational lifespan. In addition, a well-designed earthing system can enhance the performance of electrical installations by reducing electromagnetic interference.When designing an earthing system, several factors must be considered. The type of soil, moisture content, and the presence of underground structures can all affect the effectiveness of the earthing of frame. Engineers often conduct soil resistivity tests to determine the best approach for grounding. Additionally, the materials used for earthing connections must be corrosion-resistant to ensure long-term reliability.Regular maintenance and testing of the earthing system are also essential. Over time, connections can loosen, and corrosion can occur, which may compromise the effectiveness of the earthing of frame. Routine inspections help identify potential issues before they lead to failures. Furthermore, training personnel on the importance of earthing and how to recognize potential hazards can significantly enhance safety culture within an organization.In conclusion, the earthing of frame is a vital component of electrical safety and system reliability. It protects individuals from electrical hazards and ensures the proper functioning of electrical equipment. As technology continues to evolve, the methods and materials used for earthing will also advance, but the fundamental principle of grounding will remain a cornerstone of electrical engineering. Understanding and implementing effective earthing practices is essential for anyone involved in the design, installation, or maintenance of electrical systems.Overall, the earthing of frame serves as an essential safeguard in our increasingly electrified world, reminding us of the importance of safety in every aspect of electrical engineering and application.

“框架接地”的概念在电气工程和安全领域至关重要。它指的是将电气设备的非带电部分连接到大地的过程。这个连接对于保护设备和用户免受电气故障的影响是必不可少的。当发生故障时，例如短路，框架接地确保多余的电能安全地释放到地面，从而防止电击或火灾隐患。在许多工业环境中，机器和设备通常有金属框架。这些框架可能因绝缘失效或其他电气问题而带电。如果没有适当的框架接地，任何接触这些框架的人都可能面临严重的伤害甚至死亡的风险。因此，实施有效的接地系统不仅是法规要求；它是工作场所安全的基本方面。框架接地的重要性不仅限于个人安全。它在维护电气系统的完整性方面也发挥着重要作用。通过接地设备的框架，我们为故障电流提供了一条安全的路径，使其远离敏感组件。这有助于最小化对机器的损坏，并延长其使用寿命。此外，良好设计的接地系统可以通过减少电磁干扰来提高电气安装的性能。在设计接地系统时，必须考虑多个因素。土壤类型、湿度和地下结构的存在都会影响框架接地的有效性。工程师通常进行土壤电阻率测试，以确定接地的最佳方法。此外，用于接地连接的材料必须具有抗腐蚀性，以确保长期可靠性。定期维护和测试接地系统也是至关重要的。随着时间的推移，连接可能会松动，腐蚀可能会发生，这可能会影响框架接地的有效性。例行检查有助于在故障发生之前识别潜在问题。此外，对人员进行有关接地重要性以及如何识别潜在危险的培训，可以显著增强组织内的安全文化。总之，框架接地是电气安全和系统可靠性的关键组成部分。它保护个人免受电气危害，并确保电气设备的正常运行。随着技术的不断发展，用于接地的方法和材料也将不断进步，但接地的基本原则将始终是电气工程的基石。理解和实施有效的接地实践对于任何参与电气系统设计、安装或维护的人来说都是至关重要的。总体而言，框架接地在我们日益电气化的世界中充当了重要的保护措施，提醒我们在电气工程和应用的每一个方面都要重视安全。