multiplex lap winding

简明释义

复叠绕组

英英释义

例句

1.Our research focuses on optimizing multiplex lap winding configurations for electric vehicles.

我们的研究专注于优化电动车辆的多重绕组配置。

2.In our latest prototype, we implemented multiplex lap winding to reduce the overall weight of the machine.

在我们最新的原型中，我们实施了多重绕组以减轻机器的整体重量。

3.Using multiplex lap winding allows for better thermal management in high-performance applications.

使用多重绕组可以在高性能应用中实现更好的热管理。

4.The advantages of multiplex lap winding include increased power density and improved torque characteristics.

多重绕组的优点包括增加的功率密度和改善的扭矩特性。

5.The engineer explained that the design of the motor utilized multiplex lap winding to enhance efficiency.

工程师解释说，电机的设计采用了多重绕组以提高效率。

作文

In the field of electrical engineering, the design and construction of electric machines are crucial for their efficiency and performance. One important aspect of this design is the winding configuration used in the stator and rotor. Among various winding techniques, multiplex lap winding has gained significant attention due to its unique characteristics and advantages. This method not only enhances the performance of electric machines but also optimizes their manufacturing process.The term multiplex lap winding refers to a specific type of winding arrangement where multiple coils are layered or 'lapped' over each other. This configuration allows for better utilization of the available space within the machine, leading to a more compact design. The overlapping nature of the coils helps in reducing the magnetic leakage, which is a common issue in other winding types. As a result, machines utilizing multiplex lap winding tend to exhibit improved efficiency and higher power output.One of the primary benefits of multiplex lap winding is its ability to reduce the copper losses associated with electrical resistance. In traditional winding methods, the distribution of current can lead to increased heat generation, which ultimately affects the machine's performance and longevity. However, the design of multiplex lap winding allows for a more uniform distribution of current throughout the coils, minimizing these losses and enhancing thermal management.Moreover, multiplex lap winding contributes to better fault tolerance in electric machines. In the event of a coil failure, the overlapping coils can still maintain functionality, allowing the machine to operate at reduced capacity rather than failing completely. This characteristic is particularly important in applications where reliability is critical, such as in aerospace and automotive industries.The manufacturing process of machines using multiplex lap winding can also benefit from this technique. Since the coils are layered, it simplifies the assembly process, potentially reducing labor costs and production time. Additionally, the compact nature of the winding allows for smaller machine designs, which can be advantageous in applications where space is limited.Despite its many advantages, the implementation of multiplex lap winding is not without challenges. The complexity of the winding arrangement requires precise engineering and design considerations to ensure optimal performance. Engineers must carefully analyze the electromagnetic properties of the winding to avoid issues such as overheating or inefficient magnetic field distribution.In conclusion, the multiplex lap winding technique stands out as a valuable approach in the design of electric machines. Its ability to enhance efficiency, reduce losses, and improve fault tolerance makes it an attractive option for various applications. As technology continues to advance, further research and development in multiplex lap winding may unlock even greater potential for electric machines, paving the way for more efficient and reliable systems in the future.

在电气工程领域，电机的设计和构造对其效率和性能至关重要。这一设计的重要方面是用于定子和转子的绕组配置。在各种绕组技术中，多重重叠绕组因其独特的特性和优势而受到广泛关注。这种方法不仅提高了电机的性能，还优化了其制造过程。术语多重重叠绕组指的是一种特定的绕组排列方式，其中多个线圈相互叠加或“重叠”。这种配置可以更好地利用机器内部的可用空间，从而实现更紧凑的设计。线圈的重叠特性有助于减少磁漏，这是其他绕组类型中的常见问题。因此，采用多重重叠绕组的机器往往表现出更高的效率和更大的功率输出。多重重叠绕组的主要优点之一是能够减少与电阻相关的铜损。在传统的绕组方法中，电流的分布可能导致热量增加，这最终影响机器的性能和使用寿命。然而，多重重叠绕组的设计允许电流在整个线圈中更均匀地分布，从而最小化这些损失并增强热管理。此外，多重重叠绕组有助于提高电机的故障容忍度。在发生线圈故障时，重叠的线圈仍然可以维持功能，使机器以降低的能力运行，而不是完全失效。这一特性在航空航天和汽车等对可靠性要求严格的应用中尤为重要。采用多重重叠绕组的机器的制造过程也可以从这一技术中受益。由于线圈是分层的，这简化了组装过程，可能降低人工成本和生产时间。此外，绕组的紧凑特性使得机器设计更小，这在空间有限的应用中具有优势。尽管有许多优点，实施多重重叠绕组并非没有挑战。绕组排列的复杂性需要精确的工程和设计考虑，以确保最佳性能。工程师必须仔细分析绕组的电磁特性，以避免过热或磁场分布不均等问题。总之，多重重叠绕组技术在电机设计中脱颖而出。它提高效率、减少损失和改善故障容忍度的能力使其成为各种应用中的一种有吸引力的选择。随着技术的不断进步，对多重重叠绕组的进一步研究和开发可能会为电机解锁更大的潜力，为未来更高效和可靠的系统铺平道路。