holding coil

简明释义

吸持线圈

英英释义

例句

1.During the testing phase, the holding coil was monitored for any signs of wear and tear.

在测试阶段，监测holding coil是否有磨损的迹象。

2.The design engineer specified the dimensions of the holding coil to fit the new prototype.

设计工程师指定了holding coil的尺寸，以适应新的原型。

3.In the assembly line, the holding coil is essential for maintaining the position of components during welding.

在装配线上，holding coil对于在焊接过程中保持组件位置至关重要。

4.After replacing the battery, make sure the holding coil is properly connected to avoid malfunctions.

更换电池后，请确保holding coil正确连接，以避免故障。

5.The technician adjusted the holding coil to ensure the electromagnetic field was stable.

技术人员调整了holding coil以确保电磁场稳定。

作文

In the world of electrical engineering, various components play crucial roles in ensuring the efficient operation of devices. One such component is the holding coil, which is essential in electromagnetic systems. The holding coil is a type of coil that maintains the position of a movable part within an actuator or relay. It works by generating a magnetic field when electric current passes through it, allowing it to hold a specific position without continuous power supply. This feature is particularly beneficial in reducing energy consumption and enhancing the longevity of the device.The function of the holding coil can be observed in many applications, such as in door locks, industrial machinery, and automotive systems. For example, in an electric door lock, the holding coil ensures that the lock remains secured even when the power is turned off. This is achieved by the coil being energized only momentarily to engage the lock, after which it maintains its position using the magnetic field generated by the coil.Moreover, the design of the holding coil is critical for its performance. Factors such as the number of turns in the coil, the material used for the core, and the gauge of the wire all influence how effectively the coil can hold its position. Engineers must carefully consider these parameters during the design phase to ensure optimal functionality. Additionally, the holding coil must be able to withstand various environmental conditions, such as temperature fluctuations and humidity, to ensure reliable operation over time.One of the significant advantages of using a holding coil is its ability to provide a fail-safe mechanism. In situations where power loss occurs, the holding coil can maintain the position of the actuator, preventing unwanted movements that could lead to safety hazards. This characteristic is especially important in industrial settings, where machinery must operate safely and efficiently.Furthermore, the holding coil can be integrated into more complex systems, such as automated production lines. In these systems, multiple holding coils can work in unison to control various elements of the machinery, allowing for precise movements and operations. The coordination of these coils can lead to increased productivity and reduced operational costs, making them a valuable asset in modern manufacturing.In conclusion, the holding coil is a vital component in many electrical and mechanical systems. Its ability to maintain position with minimal energy consumption makes it an efficient solution for various applications. As technology continues to advance, the role of the holding coil will likely expand, leading to even more innovative uses in the future. Understanding the significance of the holding coil is essential for anyone involved in engineering or design, as it highlights the importance of efficiency and reliability in modern technology.

在电气工程的世界中，各种组件在确保设备高效运行方面发挥着至关重要的作用。其中一个组件是保持线圈，它在电磁系统中是必不可少的。保持线圈是一种线圈，用于维持执行器或继电器中可移动部件的位置。当电流通过时，它会产生磁场，使其能够在不持续供电的情况下保持特定位置。这一特性在减少能耗和延长设备寿命方面尤其有益。保持线圈的功能可以在许多应用中观察到，例如门锁、工业机械和汽车系统。例如，在电动门锁中，保持线圈确保锁即使在断电时也保持安全。这是通过瞬时通电来激活锁定，然后利用线圈产生的磁场保持其位置。此外，保持线圈的设计对其性能至关重要。线圈的匝数、使用的核心材料以及导线的规格等因素都会影响线圈保持位置的有效性。工程师在设计阶段必须仔细考虑这些参数，以确保最佳功能。此外，保持线圈必须能够承受各种环境条件，例如温度波动和湿度，以确保长期可靠运行。使用保持线圈的一个显著优势是其提供了故障安全机制。在发生停电的情况下，保持线圈可以保持执行器的位置，防止可能导致安全隐患的意外移动。这一特性在工业环境中尤为重要，因为机械设备必须安全高效地运行。此外，保持线圈可以集成到更复杂的系统中，例如自动化生产线。在这些系统中，多个保持线圈可以协同工作，以控制机械的各个元素，从而实现精确的运动和操作。这些线圈的协调可以提高生产率并降低运营成本，使其成为现代制造业的宝贵资产。总之，保持线圈是许多电气和机械系统中的重要组件。它以最小的能耗保持位置的能力使其成为各种应用的高效解决方案。随着技术的不断进步，保持线圈的作用可能会扩展，未来可能会有更多创新的用途。理解保持线圈的重要性对于任何参与工程或设计的人来说都是至关重要的，因为它突出了现代技术中效率和可靠性的重要性。