double armature

简明释义

双电枢

英英释义

例句

1.In robotics, a double armature system allows for more precise movements.

在机器人技术中，双绕组系统允许更精确的运动。

2.The engineer decided to use a double armature for the new motor design to enhance efficiency.

工程师决定在新电机设计中使用双绕组以提高效率。

3.Using a double armature can significantly reduce energy loss in electrical systems.

使用双绕组可以显著减少电气系统中的能量损失。

4.The research paper discussed the advantages of implementing a double armature in electromagnetic devices.

研究论文讨论了在电磁设备中实施双绕组的优点。

5.The artist incorporated a double armature in the sculpture to provide better support.

艺术家在雕塑中加入了双绕组以提供更好的支撑。

作文

In the realm of electrical engineering, the term double armature refers to a specific configuration used in certain types of machines, particularly in electric motors and generators. This design involves two armatures that work in tandem to enhance the performance and efficiency of the device. Understanding the concept of double armature is essential for engineers and technicians who are involved in the design and maintenance of electrical systems.The primary function of an armature in an electric machine is to carry current and create a magnetic field, which ultimately leads to motion or energy conversion. In a typical single armature setup, the efficiency can be limited due to various factors such as heat generation and electromagnetic interference. However, by incorporating a double armature configuration, these issues can be mitigated. The dual armatures allow for better distribution of electrical load, reduced heating, and improved torque output.One of the most significant advantages of using a double armature system is its ability to provide higher power ratings without increasing the size of the machine. For instance, in applications where space is a constraint, such as in automotive or aerospace industries, a double armature design can yield more power while maintaining a compact footprint. This is particularly beneficial when designing electric vehicles, where weight and size are critical factors.Moreover, the double armature system can also improve the overall reliability of the machine. With two armatures working together, if one armature experiences a failure, the other can often compensate, ensuring that the machine continues to operate, albeit at a reduced capacity. This redundancy is crucial in many industrial applications where downtime can lead to significant financial losses.In addition to its mechanical benefits, the double armature configuration can also enhance the control and responsiveness of electric machines. By allowing for independent control of each armature, engineers can implement more sophisticated control algorithms that optimize performance based on real-time conditions. This adaptability is particularly important in modern applications where efficiency and precision are paramount.However, designing a double armature system is not without its challenges. It requires careful consideration of factors such as balance, synchronization, and electrical connectivity. Engineers must ensure that both armatures are perfectly aligned and that their operation is coordinated to avoid issues such as vibration or uneven wear. These complexities mean that while the double armature design offers numerous benefits, it also demands a higher level of expertise and precision during the design and manufacturing processes.In conclusion, the concept of double armature plays a vital role in the advancement of electric machines. Its ability to enhance efficiency, power output, and reliability makes it an attractive option for various applications. As technology continues to evolve, the use of double armature systems will likely become more prevalent, paving the way for more efficient and powerful electrical devices. Engineers and technicians must continue to deepen their understanding of this concept to leverage its full potential in future innovations.

在电气工程领域，术语双电枢指的是在某些类型的机器中使用的一种特定配置，特别是在电动机和发电机中。这种设计涉及两个电枢协同工作，以增强设备的性能和效率。理解双电枢的概念对参与电气系统设计和维护的工程师和技术人员至关重要。电枢在电气机器中的主要功能是携带电流并产生磁场，最终导致运动或能量转换。在典型的单电枢设置中，由于热量产生和电磁干扰等各种因素，效率可能受到限制。然而，通过采用双电枢配置，这些问题可以得到缓解。双电枢允许更好的电负荷分配，减少发热，并改善扭矩输出。使用双电枢系统的一个显著优势是它能够在不增加机器尺寸的情况下提供更高的功率额定值。例如，在空间受限的应用中，如汽车或航空航天工业，双电枢设计可以在保持紧凑外形的同时产生更多的功率。这在设计电动汽车时尤为重要，因为重量和尺寸是关键因素。此外，双电枢系统还可以提高机器的整体可靠性。当两个电枢协同工作时，如果一个电枢发生故障，另一个通常可以进行补偿，从而确保机器继续运行，尽管以降低的能力。这种冗余在许多工业应用中至关重要，因为停机时间可能导致巨大的经济损失。除了机械优势之外，双电枢配置还可以增强电气机器的控制和响应能力。通过允许独立控制每个电枢，工程师可以实施更复杂的控制算法，根据实时条件优化性能。这种适应性在现代应用中尤为重要，因为效率和精度至关重要。然而，设计双电枢系统并非没有挑战。它需要仔细考虑平衡、同步和电连接等因素。工程师必须确保两个电枢完美对齐，并且它们的操作协调一致，以避免振动或不均匀磨损等问题。这些复杂性意味着，尽管双电枢设计提供了许多好处，但在设计和制造过程中也要求更高水平的专业知识和精确度。总之，双电枢的概念在电气机器的发展中发挥着至关重要的作用。它提高效率、功率输出和可靠性的能力使其成为各种应用的有吸引力的选择。随着技术的不断发展，双电枢系统的使用可能会变得更加普遍，为更高效、更强大的电气设备铺平道路。工程师和技术人员必须继续加深对这一概念的理解，以充分利用其在未来创新中的潜力。