armature travel

简明释义

衔铁行程

英英释义

例句

1.Adjusting the armature travel can significantly impact the performance of the device.

调整电枢行程可以显著影响设备的性能。

2.The technician measured the armature travel to ensure the motor was functioning correctly.

技术员测量了电枢行程以确保电机正常运作。

3.Engineers often calibrate the armature travel during the testing phase.

工程师们通常在测试阶段校准电枢行程。

4.The specifications outline the maximum armature travel allowed for safety reasons.

规格说明了出于安全原因允许的最大电枢行程。

5.In this model, the armature travel is limited to prevent mechanical failure.

在这个模型中，电枢行程被限制以防止机械故障。

作文

In the world of electrical engineering and mechanics, understanding the concept of armature travel is crucial for anyone working with motors or generators. The term refers to the movement of the armature within a magnetic field, which is essential for the conversion of electrical energy into mechanical energy, or vice versa. When we delve deeper into the mechanics of electric machines, we find that the efficiency and performance of these devices are significantly influenced by how well the armature travel is managed.The armature is typically a coil of wire or a series of conductive materials that rotates within a magnetic field created by either permanent magnets or electromagnets. As the armature rotates, it cuts through the magnetic lines of force, inducing an electromotive force (EMF) according to Faraday's law of electromagnetic induction. This process is what allows electric motors to function effectively. However, the distance that the armature can travel, or its armature travel, plays a vital role in determining the overall efficiency of the motor.One key factor affecting armature travel is the design of the machine itself. Engineers must carefully consider the dimensions and materials used in constructing the armature to optimize its movement within the magnetic field. For instance, if the armature is too heavy or has excessive friction against its bearings, the armature travel may be restricted, leading to reduced performance and increased energy consumption.Moreover, the alignment of the armature within the stator is also critical. Misalignment can cause uneven wear and tear on the components, resulting in a shorter lifespan for the machine. This is why regular maintenance and precise engineering are essential to ensure that the armature travel remains smooth and efficient.Furthermore, the speed at which the armature travels can affect the overall output of the machine. In some applications, such as in electric vehicles, a faster armature travel can lead to higher speeds and better acceleration. Conversely, in applications requiring precision, such as in robotics, slower and more controlled armature travel is necessary to achieve accurate movements.In conclusion, the concept of armature travel is integral to the functioning of electric motors and generators. Understanding its implications can help engineers design more efficient machines that meet the demands of various applications. By optimizing the armature travel, we can enhance the performance, reliability, and longevity of electric machines, ultimately leading to advancements in technology and energy efficiency across numerous industries.

在电气工程和机械的世界中，理解“armature travel”这一概念对于任何与电动机或发电机打交道的人来说都是至关重要的。这个术语指的是电枢在磁场中的运动，这对于电能与机械能之间的转换至关重要。当我们深入研究电机的机械原理时，我们发现这些设备的效率和性能受到“armature travel”管理的显著影响。电枢通常是一个线圈或一系列导电材料，在由永久磁铁或电磁铁创建的磁场中旋转。当电枢旋转时，它切割磁力线，根据法拉第电磁感应定律诱导出电动势（EMF）。这个过程使得电动机能够有效地运作。然而，电枢可以移动的距离，或称为“armature travel”，在决定电动机的整体效率方面起着至关重要的作用。影响“armature travel”的一个关键因素是机器本身的设计。工程师必须仔细考虑电枢的尺寸和材料，以优化其在磁场中的运动。例如，如果电枢过重或与其轴承之间摩擦过大，可能会限制“armature travel”，导致性能下降和能耗增加。此外，电枢在定子中的对齐也至关重要。对齐不当会导致部件的不均匀磨损，从而缩短机器的使用寿命。这就是为什么定期维护和精确工程设计对于确保“armature travel”保持平稳高效至关重要。此外，电枢的运动速度也会影响机器的整体输出。在一些应用中，例如电动汽车，更快的“armature travel”可以带来更高的速度和更好的加速。相反，在需要精确控制的应用中，例如机器人技术，较慢且更受控的“armature travel”则是实现准确运动所必需的。总之，“armature travel”的概念是电动机和发电机功能的核心。理解其含义可以帮助工程师设计出更高效的机器，以满足各种应用的需求。通过优化“armature travel”，我们可以提高电机的性能、可靠性和使用寿命，最终推动各个行业的技术进步和能源效率提升。