outer rotor

简明释义

外转子

英英释义

例句

1.We need to replace the bearings of the outer rotor 外转子 for optimal performance.

我们需要更换外转子 outer rotor的轴承以获得最佳性能。

2.In this application, the outer rotor 外转子 is used to achieve higher torque.

在这个应用中，使用外转子 outer rotor以获得更高的扭矩。

3.The cooling system effectively manages the heat produced by the outer rotor 外转子 during operation.

冷却系统有效管理了在运行过程中由外转子 outer rotor产生的热量。

4.The design of the motor includes an outer rotor 外转子 that enhances efficiency.

该电机的设计包含一个外转子 outer rotor，提高了效率。

5.The outer rotor 外转子 design allows for a more compact motor size.

这种外转子 outer rotor设计允许电机尺寸更加紧凑。

作文

The concept of the outer rotor is crucial in various fields of engineering, particularly in the design and functionality of electric motors. An outer rotor refers to a type of rotor that is located on the exterior of the motor stator, as opposed to the more common inner rotor configuration. This design can significantly influence the performance characteristics of the motor, such as efficiency, torque, and size. One of the primary advantages of using an outer rotor is the increased surface area available for generating torque. Since the rotor is positioned outside the stator, it can be larger in diameter compared to an inner rotor. This larger diameter allows for greater leverage, resulting in higher torque output at lower speeds. This feature is particularly beneficial in applications where high starting torque is required, such as in electric bicycles or scooters.Moreover, motors with an outer rotor design often exhibit improved cooling capabilities. The external placement of the rotor allows for better airflow around the motor, which helps dissipate heat more effectively during operation. This attribute is essential for maintaining optimal performance and longevity of the motor, especially in high-demand applications.Another aspect to consider is the weight distribution of the motor. An outer rotor can lead to a more balanced design, which can reduce vibrations and enhance stability during operation. This balance is critical in applications like drones and robotics, where precision and smooth operation are paramount. However, there are some challenges associated with the outer rotor design. One notable drawback is the complexity of manufacturing. Producing an outer rotor motor can be more intricate and costly than traditional inner rotor designs due to the additional components and the need for precise engineering. Furthermore, the size of the outer rotor can limit the overall compactness of the motor, which may not be ideal in applications where space is at a premium.In conclusion, the outer rotor plays a significant role in the development of modern electric motors. Its unique design offers various advantages, including enhanced torque generation, improved cooling, and better weight distribution. However, the challenges in manufacturing and size limitations must also be considered when choosing the appropriate motor design for specific applications. As technology advances, the use of outer rotor configurations may become more prevalent, leading to innovative solutions in electric motor applications across various industries.

“外转子”这一概念在多个工程领域中至关重要，特别是在电动机的设计和功能方面。“外转子”指的是一种位于电机定子外部的转子类型，与更常见的内转子配置相对。这种设计可以显著影响电机的性能特征，如效率、扭矩和尺寸。使用“外转子”的主要优点之一是增加了产生扭矩的表面积。由于转子位于定子外部，它的直径可以比内转子大。这种较大的直径允许更大的杠杆作用，从而在较低速度下产生更高的扭矩输出。这一特性在需要高起始扭矩的应用中尤其有利，例如电动自行车或滑板车。此外，采用“外转子”设计的电机通常表现出更好的散热能力。转子的外部位置允许在电机周围更好地流通空气，这有助于在运行过程中更有效地散发热量。这一属性对于保持电机的最佳性能和延长其使用寿命至关重要，尤其是在高需求应用中。另一个需要考虑的方面是电机的重量分布。“外转子”可以导致更平衡的设计，这可以减少振动并增强在运行过程中的稳定性。这种平衡在无人机和机器人等应用中至关重要，在这些应用中，精度和平稳操作是关键。然而，与“外转子”设计相关的一些挑战也不容忽视。一个显著的缺点是制造的复杂性。生产“外转子”电机可能比传统内转子设计更为复杂和昂贵，因为需要额外的组件和精确的工程。此外，“外转子”的尺寸可能会限制电机的整体紧凑性，这在空间有限的应用中可能并不理想。总之，“外转子”在现代电动机的发展中发挥着重要作用。其独特的设计提供了多种优势，包括增强的扭矩生成、改善的散热和更好的重量分布。然而，在选择特定应用的适当电机设计时，也必须考虑制造挑战和尺寸限制。随着技术的进步，“外转子”配置的使用可能会变得更加普遍，为各个行业的电动机应用带来创新解决方案。