grounded transmitting wire

简明释义

接地导线

英英释义

例句

1.The technician checked the connection of the grounded transmitting wire to ensure it was functioning properly.

技术人员检查了接地传输线的连接，以确保其正常工作。

2.The power outage was traced back to a damaged grounded transmitting wire in the main line.

停电的原因追溯到主线中一根受损的接地传输线。

3.A faulty grounded transmitting wire can lead to signal loss in the communication system.

故障的接地传输线可能导致通信系统中的信号丢失。

4.During the installation, the engineer ensured that the grounded transmitting wire was securely attached.

在安装过程中，工程师确保接地传输线牢固连接。

5.To prevent electrical shocks, always use a grounded transmitting wire when setting up equipment.

为了防止电击，设置设备时请始终使用接地传输线。

作文

In the realm of electrical engineering, the concept of a grounded transmitting wire plays a crucial role in ensuring safety and functionality. A grounded transmitting wire is essentially a conductor that is connected to the ground, providing a path for excess electricity to safely disperse into the earth. This connection is vital in protecting both equipment and individuals from the dangers posed by electrical surges or faults. Without proper grounding, electrical systems can become hazardous, leading to potential fires, equipment damage, or even electric shocks. The significance of a grounded transmitting wire cannot be overstated. In residential settings, for instance, grounding is required by electrical codes to prevent electrical hazards. When a device malfunctions or a short circuit occurs, the grounded transmitting wire ensures that the current has a safe route to follow, thus minimizing the risk of injury or property damage. This is particularly important in areas where sensitive electronic equipment is used, as grounding helps to mitigate the effects of electromagnetic interference (EMI) that can disrupt operations.Moreover, the design of a grounded transmitting wire system involves careful consideration of various factors, including the type of soil, moisture levels, and the electrical load of the system. Engineers must calculate the appropriate size and length of the grounding conductor to ensure it can handle the maximum expected fault current. The installation process also requires adherence to specific guidelines to maintain the integrity and effectiveness of the grounding system.In industrial applications, the importance of a grounded transmitting wire is further amplified due to the higher voltages and currents involved. Equipment such as generators, transformers, and large motors all require robust grounding systems to operate safely. For instance, in a manufacturing plant, a failure to properly ground machinery could lead to catastrophic failures, resulting in costly downtime and potential injuries to workers. Therefore, regular inspections and maintenance of grounding systems are critical to ensure their continued effectiveness.Additionally, the role of a grounded transmitting wire extends beyond just safety. It also contributes to the overall efficiency of electrical systems. By providing a reliable return path for current, grounded systems can reduce energy losses and improve the performance of electrical devices. This is particularly relevant in renewable energy systems, where grounding is essential for the safe integration of solar panels and wind turbines into the grid.In conclusion, understanding the function and importance of a grounded transmitting wire is essential for anyone involved in electrical engineering or related fields. This simple yet effective component serves as a critical safeguard against electrical hazards, ensuring both safety and efficiency in a wide range of applications. As technology continues to evolve, the principles of grounding will remain a fundamental aspect of electrical design and safety protocols. By prioritizing proper grounding practices, we can create safer environments and enhance the reliability of our electrical systems.

在电气工程领域，接地传输线的概念在确保安全性和功能性方面发挥着至关重要的作用。接地传输线本质上是与地面连接的导体，为多余电流提供了一条安全散发到地面的路径。这种连接对于保护设备和个人免受电力浪涌或故障带来的危险至关重要。如果没有适当的接地，电气系统可能会变得危险，导致潜在的火灾、设备损坏或甚至电击。接地传输线的重要性不容小觑。例如，在住宅环境中，接地是电气规范所要求的，以防止电气危险。当设备发生故障或短路时，接地传输线确保电流有一条安全的路径可循，从而将伤害或财产损失的风险降到最低。这在使用敏感电子设备的区域尤为重要，因为接地有助于减轻电磁干扰（EMI）的影响，干扰操作。此外，接地传输线系统的设计涉及对各种因素的仔细考虑，包括土壤类型、湿度水平和系统的电气负载。工程师必须计算接地导体的适当大小和长度，以确保其能够处理最大预期故障电流。安装过程还需要遵循特定的指南，以保持接地系统的完整性和有效性。在工业应用中，接地传输线的重要性由于涉及的电压和电流较高而进一步加强。发电机、变压器和大型电动机等设备都需要强大的接地系统以安全运行。例如，在制造厂，如果未能妥善接地机械设备，可能会导致灾难性故障，造成昂贵的停工时间和对工人的潜在伤害。因此，定期检查和维护接地系统对于确保其持续有效至关重要。此外，接地传输线的作用不仅限于安全。它还促进了电气系统的整体效率。通过为电流提供可靠的回路，接地系统可以减少能源损失，提高电气设备的性能。这在可再生能源系统中特别相关，因为接地对于将太阳能电池板和风力涡轮机安全集成到电网中至关重要。总之，理解接地传输线的功能和重要性对于任何参与电气工程或相关领域的人来说都是必不可少的。这个简单而有效的组件作为电气危险的关键保护措施，确保在广泛的应用中安全性和效率。随着技术的不断发展，接地的原则将仍然是电气设计和安全协议的基本方面。通过优先考虑适当的接地实践，我们可以创造更安全的环境，增强电气系统的可靠性。