sectional winding

简明释义

分段绕组

英英释义

例句

1.Using a sectional winding allows for better thermal management in high-performance applications.

使用分段绕组可以更好地管理高性能应用中的热量。

2.The new generator features an innovative sectional winding that enhances power output.

这款新发电机采用了创新的分段绕组，增强了功率输出。

3.The motor's efficiency improved significantly after we switched to a sectional winding design.

在我们切换到分段绕组设计后，电机的效率显著提高。

4.Engineers prefer sectional winding for its flexibility in design and maintenance.

工程师们更喜欢分段绕组，因为它在设计和维护上具有灵活性。

5.The sectional winding technique is commonly used in large transformers to reduce losses.

分段绕组技术通常用于大型变压器，以减少损耗。

作文

The concept of sectional winding plays a crucial role in the design and operation of various electrical machines, particularly in transformers and electric motors. Understanding this term requires a closer look at its definition and application in engineering. Sectional winding refers to a method of winding coils in sections or segments, rather than using a single continuous winding. This approach allows for better control over the electrical characteristics of the coil, such as impedance and inductance, which are vital for the efficient functioning of electrical devices.In traditional winding methods, a single wire is wrapped around the core of the machine, creating a long coil. While this method can be effective, it often leads to challenges such as overheating, uneven distribution of magnetic fields, and increased losses due to resistance. By contrast, sectional winding breaks the coil into smaller, manageable sections that can be optimized individually. Each section can be designed to meet specific requirements, enhancing the overall performance of the machine.One significant advantage of sectional winding is its ability to improve cooling efficiency. Since the windings are divided into sections, heat generated in one part of the coil can dissipate more effectively, preventing hotspots that could damage the insulation or reduce the lifespan of the machine. This is especially important in high-power applications where thermal management is critical.Moreover, sectional winding allows for greater flexibility in design. Engineers can experiment with different configurations and materials for each section, tailoring the winding to achieve desired performance metrics. For instance, in a transformer, certain sections may be designed to handle higher voltages, while others are optimized for lower voltages, thus improving the overall efficiency and reliability of the transformer.Another benefit of using sectional winding is the ease of maintenance and repair. If one section of the winding fails, it can often be replaced without needing to dismantle the entire coil. This modular approach not only saves time and costs but also minimizes downtime for the equipment, which is crucial in industrial settings where operational continuity is essential.In summary, sectional winding is an innovative technique that enhances the performance, efficiency, and reliability of electrical machines. Its segmented approach allows for better thermal management, design flexibility, and easier maintenance. As technology continues to evolve, the importance of such methods will only increase, paving the way for more advanced and efficient electrical systems. Understanding and implementing sectional winding can lead to significant improvements in the design and functionality of various electrical devices, making it a key concept for engineers and technicians in the field of electrical engineering.

“分段绕组”的概念在各种电气机器的设计和操作中扮演着至关重要的角色，特别是在变压器和电动机中。要理解这个术语，需要仔细研究其定义及其在工程中的应用。“分段绕组”是指将线圈分成多个部分或段的绕制方法，而不是使用单一的连续绕组。这种方法允许更好地控制线圈的电气特性，如阻抗和电感，这对于电气设备的有效运行至关重要。在传统的绕制方法中，一根长线圈缠绕在机器的核心上，形成一个长线圈。虽然这种方法可以有效，但通常会导致过热、磁场分布不均以及由于电阻造成的损耗增加等问题。相比之下，“分段绕组”将线圈分为更小、更易管理的部分，可以单独优化。每个部分都可以设计以满足特定要求，从而增强机器的整体性能。“分段绕组”的一个显著优势是能够提高冷却效率。由于绕组被分为多个部分，某一部分产生的热量可以更有效地散发，防止热点的形成，这可能损坏绝缘材料或缩短机器的使用寿命。这在高功率应用中尤为重要，因为热管理至关重要。此外，“分段绕组”还允许更大的设计灵活性。工程师可以对每个部分的不同配置和材料进行实验，定制绕组以实现所需的性能指标。例如，在变压器中，某些部分可以设计用于处理更高的电压，而其他部分则针对较低电压进行优化，从而提高变压器的整体效率和可靠性。使用“分段绕组”的另一个好处是维护和修理的便利。如果绕组的某一部分出现故障，通常可以在不拆解整个线圈的情况下进行更换。这种模块化的方法不仅节省了时间和成本，还最大限度地减少了设备的停机时间，这在工业环境中至关重要，因为操作连续性是必不可少的。总之，“分段绕组”是一种创新技术，可以增强电气机器的性能、效率和可靠性。其分段的方法允许更好的热管理、设计灵活性和更简单的维护。随着技术的不断发展，这种方法的重要性只会增加，为更先进和高效的电气系统铺平道路。理解和实施“分段绕组”可以显著改善各种电气设备的设计和功能，使其成为电气工程领域工程师和技术人员的关键概念。