feeder bus-bar

简明释义

馈电汇流条

英英释义

例句

1.We need to install a new feeder bus-bar 母线 to accommodate the additional machinery in the workshop.

我们需要安装一个新的feeder bus-bar 母线以容纳车间内的额外机械设备。

2.The power distribution system was upgraded to include a new feeder bus-bar 母线 for better load management.

电力分配系统升级，增加了一个新的feeder bus-bar 母线以更好地管理负载。

3.The design of the feeder bus-bar 母线 must adhere to safety regulations to prevent electrical hazards.

feeder bus-bar 母线的设计必须遵守安全规定，以防止电气危险。

4.The factory's electrical layout includes multiple feeder bus-bars 母线 to ensure reliable power supply.

工厂的电气布局包括多个feeder bus-bar 母线以确保可靠的电源供应。

5.During the maintenance check, the technician found that the feeder bus-bar 母线 was overheating.

在维护检查中，技术人员发现feeder bus-bar 母线过热。

作文

In modern electrical systems, the distribution of power is crucial for ensuring that various devices operate efficiently and reliably. One of the key components in this distribution network is the feeder bus-bar. A feeder bus-bar is essentially a conductor that serves as a central point for distributing electrical power to multiple circuits or devices. This component is vital in substations, industrial plants, and commercial buildings, where large amounts of electricity need to be managed effectively.The primary function of a feeder bus-bar is to collect power from incoming feeders and distribute it to outgoing circuits. It acts as a hub that connects multiple electrical paths, allowing for efficient load management and reducing the complexity of wiring systems. The design of a feeder bus-bar can vary depending on the application, but it typically consists of a metal strip or bar, usually made of copper or aluminum, which has good conductivity properties.One of the significant advantages of using a feeder bus-bar is its ability to handle high currents. Because it is designed to carry substantial electrical loads, it minimizes the risk of overheating and ensures that power is distributed evenly across all connected circuits. This feature is particularly important in industrial settings where machinery requires a stable and reliable power supply.Furthermore, feeder bus-bars are often installed in conjunction with protective devices such as circuit breakers and fuses. These protective measures are essential for safeguarding the electrical system against overloads and short circuits. By integrating a feeder bus-bar with these devices, operators can ensure that any faults in the system are quickly isolated, preventing damage to equipment and enhancing safety.In addition to their functional benefits, feeder bus-bars also contribute to the overall efficiency of electrical systems. By reducing the amount of wiring needed, they simplify installation and maintenance processes. This reduction in complexity not only saves time during setup but also lowers the costs associated with materials and labor.Moreover, the use of a feeder bus-bar allows for easier scalability in electrical systems. As demand for power increases, additional circuits can be connected to the existing bus-bar without needing extensive rewiring. This flexibility makes feeder bus-bars an ideal choice for growing facilities that may need to expand their electrical capacity in the future.In conclusion, the feeder bus-bar plays a critical role in the efficient distribution of electrical power. Its ability to manage high currents, integrate with protective devices, simplify installations, and allow for scalable solutions makes it an indispensable component in modern electrical systems. Understanding the importance of a feeder bus-bar can help engineers and technicians design better electrical networks that meet the demands of today’s technology-driven world. As we continue to innovate and expand our electrical infrastructure, the role of the feeder bus-bar will undoubtedly become even more significant, ensuring that power is delivered safely and efficiently to where it is needed most.

在现代电力系统中，电力的分配对于确保各种设备高效、可靠地运行至关重要。这个分配网络中的关键组件之一是馈线母线。馈线母线本质上是一种导体，作为将电力分配到多个电路或设备的中心点。这个组件在变电站、工业厂房和商业建筑中是至关重要的，因为需要有效管理大量电力。馈线母线的主要功能是从输入馈线收集电力并将其分配到输出电路。它充当一个枢纽，连接多个电气路径，允许高效的负载管理并减少布线系统的复杂性。馈线母线的设计可以根据应用而有所不同，但通常由金属条或杆构成，通常由铜或铝制成，这些材料具有良好的导电性。使用馈线母线的一个显著优势是其能够处理高电流。由于其设计用于承载大量电流，因此能够最大程度地降低过热风险，并确保电力在所有连接电路之间均匀分配。这个特性在工业环境中特别重要，因为机器需要稳定可靠的电源供应。此外，馈线母线通常与保护装置如断路器和保险丝一起安装。这些保护措施对于保护电力系统免受过载和短路至关重要。通过将馈线母线与这些设备集成，操作员可以确保系统中的任何故障都能迅速隔离，从而防止设备损坏并增强安全性。除了功能上的好处，馈线母线还提高了电力系统的整体效率。通过减少所需的布线量，它简化了安装和维护过程。这种复杂性的减少不仅节省了安装时间，还降低了与材料和劳动力相关的成本。此外，使用馈线母线还允许电力系统更容易地扩展。随着电力需求的增加，可以在不需要大量重新布线的情况下，将额外电路连接到现有母线。这种灵活性使得馈线母线成为那些未来可能需要扩大电力容量的成长型设施的理想选择。总之，馈线母线在电力的高效分配中发挥着关键作用。它管理高电流的能力、与保护装置的集成、简化安装以及允许可扩展解决方案的特点，使其成为现代电力系统中不可或缺的组件。理解馈线母线的重要性可以帮助工程师和技术人员设计出更好的电力网络，以满足当今技术驱动世界的需求。随着我们继续创新和扩展电力基础设施，馈线母线的作用无疑会变得更加重要，确保电力安全高效地送达最需要的地方。