insulating field winding

简明释义

绝缘磁场绕组

英英释义

例句

1.Understanding the role of the insulating field winding helps in troubleshooting electrical issues.

了解绝缘励磁绕组的作用有助于排除电气故障。

2.The technician replaced the damaged insulating field winding to restore the machine's efficiency.

技术人员更换了损坏的绝缘励磁绕组以恢复机器的效率。

3.A failure in the insulating field winding can lead to significant performance issues in the generator.

在发电机中，绝缘励磁绕组的故障可能会导致显著的性能问题。

4.Regular maintenance of the insulating field winding is essential for the longevity of the motor.

对绝缘励磁绕组的定期维护对于电动机的使用寿命至关重要。

5.The engineer checked the condition of the insulating field winding to ensure it was functioning properly.

工程师检查了绝缘励磁绕组的状态，以确保其正常工作。

作文

The concept of insulating field winding plays a crucial role in the operation of electrical machines, particularly in generators and motors. Understanding this term requires a basic knowledge of how these machines function. In essence, the field winding is the component that creates a magnetic field when electric current passes through it. This magnetic field is essential for the conversion of electrical energy into mechanical energy and vice versa.To delve deeper into the significance of insulating field winding, we must first explore its construction and materials. The field winding is typically made of copper wire, which is known for its excellent conductivity. However, to ensure safety and efficiency, the wires are coated with an insulating material. This insulation is crucial because it prevents short circuits that could lead to equipment failure or fire hazards. Common insulating materials include varnish, rubber, or various synthetic polymers that can withstand high temperatures and electrical stress.In addition to preventing electrical shorts, the insulating field winding also plays a vital role in maintaining the performance of the machine. If the insulation were to degrade, it could lead to a loss of efficiency due to energy leakage. Moreover, compromised insulation can result in overheating, which may damage the winding and other components of the machine. Therefore, regular maintenance checks on the insulation are essential for ensuring the longevity and reliability of electrical machines.Furthermore, the design of the insulating field winding has evolved over the years to meet the increasing demands of modern technology. Advances in materials science have led to improved insulation techniques that enhance the durability and performance of field windings. For example, newer insulating materials can handle higher voltages and temperatures, making them suitable for use in more powerful machines.The importance of insulating field winding extends beyond individual machines; it also impacts the overall efficiency of electrical systems. In industries where large motors and generators are used, any inefficiency stemming from poor insulation can lead to significant energy losses and increased operational costs. Thus, investing in high-quality insulation not only protects the machinery but also contributes to more sustainable energy practices.In conclusion, the term insulating field winding encapsulates a fundamental aspect of electrical engineering that is often overlooked. It is not merely a technical specification but a critical feature that ensures the safe and efficient operation of electrical machines. By understanding its role, we can appreciate the intricate balance between innovation and safety in the design and maintenance of these essential devices. As technology continues to advance, the importance of effective insulation will only grow, highlighting the need for ongoing research and development in this field.

“绝缘绕组”这一概念在电气机器的运行中起着至关重要的作用，特别是在发电机和电动机中。理解这个术语需要对这些机器的工作原理有基本的了解。实质上，场绕组是当电流通过时产生磁场的组件。这个磁场对于电能转化为机械能以及反之亦然是必不可少的。为了更深入地探讨“绝缘绕组”的重要性，我们必须首先了解它的构造和材料。场绕组通常由铜线制成，铜线以其优良的导电性而闻名。然而，为了确保安全和效率，这些导线会涂上一层绝缘材料。这种绝缘非常关键，因为它可以防止短路，从而导致设备故障或火灾隐患。常见的绝缘材料包括漆、橡胶或各种合成聚合物，这些材料能够承受高温和电气应力。除了防止电气短路外，“绝缘绕组”在保持机器性能方面也发挥着重要作用。如果绝缘层降解，可能会由于能量泄漏而导致效率下降。此外，绝缘受损还可能导致过热，从而损坏绕组和机器的其他组件。因此，定期检查绝缘层对于确保电气机器的耐用性和可靠性至关重要。此外，“绝缘绕组”的设计随着时代的发展而不断演变，以满足现代技术日益增长的需求。材料科学的进步使得绝缘技术得到了改善，从而增强了场绕组的耐用性和性能。例如，更新型的绝缘材料能够承受更高的电压和温度，使其适用于更强大的机器。“绝缘绕组”的重要性不仅局限于单个机器；它还影响着电气系统的整体效率。在大型电动机和发电机使用的行业中，任何因绝缘不良而导致的低效率都可能造成显著的能源损失和增加的运营成本。因此，投资高质量的绝缘不仅保护机器，还促进了更可持续的能源实践。总之，术语“绝缘绕组”概括了电气工程中的一个基本方面，这一方面往往被忽视。它不仅仅是一个技术规格，而是确保电气机器安全高效运行的关键特征。通过理解其作用，我们可以欣赏到在这些基本设备的设计和维护中创新与安全之间的微妙平衡。随着技术的不断进步，有效绝缘的重要性只会增加，这突显了在这一领域进行持续研究和开发的必要性。