doublewinding armature

简明释义

双绕组电枢

英英释义

例句

1.We need to replace the doublewinding armature in this old motor to restore its performance.

我们需要更换这台旧电动机中的双绕组电枢以恢复其性能。

2.The new generator features a doublewinding armature for improved efficiency.

新发电机采用了双绕组电枢以提高效率。

3.The design of the doublewinding armature allows for better heat dissipation.

该双绕组电枢的设计允许更好的散热。

4.In electric motors, a doublewinding armature can enhance torque output.

在电动机中，双绕组电枢可以增强扭矩输出。

5.The doublewinding armature is essential for achieving high power output in transformers.

双绕组电枢对于在变压器中实现高功率输出至关重要。

作文

In the field of electrical engineering, the concept of a doublewinding armature plays a crucial role in the design and functionality of various types of machines, particularly in electric motors and generators. To understand this term better, it is essential to break down its components and explore its significance in practical applications.The term 'armature' refers to the component of an electric machine that carries current and generates a magnetic field. In simple terms, it can be seen as the heart of the machine, where the interaction between electricity and magnetism occurs. An armature can be found in both AC (alternating current) and DC (direct current) machines, and its design varies depending on the type of machine it serves.Now, when we add the prefix 'doublewinding' to the term 'armature,' it indicates that the armature consists of two separate windings or coils. This design allows for increased efficiency and improved performance in the machine. The double winding configuration means that there are two sets of coils that can be energized independently or simultaneously, providing greater flexibility in how the machine operates.One of the primary advantages of a doublewinding armature is its ability to produce a more consistent and stable output. In electric motors, for instance, having two windings can help in balancing the load, reducing vibrations, and minimizing noise. This is particularly important in applications where precision and reliability are paramount, such as in robotics or aerospace technology.Moreover, the doublewinding armature can enhance the overall power output of a machine. By allowing for multiple phases of power generation, it can effectively increase the torque produced by the motor. This feature is particularly beneficial in industrial settings, where heavy machinery requires significant power to operate efficiently.In addition to these benefits, the design of a doublewinding armature also facilitates better heat dissipation. With two separate windings, the heat generated during operation can be distributed more evenly, preventing hotspots that could lead to premature failure of the machine. This aspect is critical in ensuring the longevity and reliability of electric motors and generators.Furthermore, the versatility of a doublewinding armature allows engineers to customize the machine's performance based on specific requirements. By altering the configuration of the windings or adjusting the electrical input, it is possible to achieve different operational characteristics, such as varying speeds or torque outputs. This adaptability makes it a valuable design choice in many different applications, from household appliances to large-scale industrial equipment.In conclusion, the doublewinding armature is a vital component in the realm of electrical engineering, offering numerous advantages in terms of efficiency, stability, power output, and customization. Understanding its function and benefits can lead to better designs and innovations in electric machines, ultimately contributing to advancements in technology and industry. As we continue to explore the possibilities within this field, the significance of concepts like the doublewinding armature will undoubtedly remain at the forefront of engineering discussions.

在电气工程领域，‘双绕组电枢’这一概念在各种类型机器的设计和功能中发挥着至关重要的作用，特别是在电动机和发电机中。为了更好地理解这个术语，有必要分解其组成部分，并探讨其在实际应用中的重要性。术语‘电枢’指的是电机中携带电流并产生磁场的组件。简单来说，它可以被视为机器的核心，在这里，电与磁之间的相互作用发生。电枢可以在交流（AC）和直流（DC）机器中找到，其设计取决于所服务机器的类型。现在，当我们在术语‘电枢’前加上前缀‘双绕组’时，它表明该电枢由两个独立的绕组或线圈组成。这种设计允许提高效率和改善机器的性能。双绕组配置意味着可以独立或同时激活两组线圈，从而提供更大的操作灵活性。‘双绕组电枢’的主要优点之一是它能够产生更一致和稳定的输出。例如，在电动机中，拥有两个绕组可以帮助平衡负载，减少振动和噪音。这在需要精确和可靠的应用中尤为重要，例如在机器人或航空航天技术中。此外，‘双绕组电枢’可以增强机器的整体功率输出。通过允许多相功率生成，它可以有效地增加电动机产生的扭矩。这一特征在工业环境中尤其有益，因为重型机械需要显著的动力以高效运作。除了这些优点外，‘双绕组电枢’的设计还促进了更好的散热。由于有两个独立的绕组，运行过程中产生的热量可以更均匀地分布，防止热点，这可能导致机器的提前故障。这一方面对确保电动机和发电机的耐久性和可靠性至关重要。此外，‘双绕组电枢’的多功能性使工程师能够根据特定要求定制机器的性能。通过改变绕组的配置或调整电输入，可以实现不同的操作特性，如变速或扭矩输出。这种适应性使其成为许多不同应用中的宝贵设计选择，从家用电器到大规模工业设备。总之，‘双绕组电枢’是电气工程领域的重要组成部分，在效率、稳定性、功率输出和定制方面提供了众多优势。理解其功能和优点可以促成更好的设计和电动机器的创新，最终推动技术和工业的进步。在我们继续探索该领域的可能性时，像‘双绕组电枢’这样的概念的重要性无疑将始终处于工程讨论的前沿。