maneuvering handwheel

简明释义

操纵手轮

英英释义

例句

1.The operator used the maneuvering handwheel to navigate through the complex machinery.

操作员使用操控手轮在复杂的机器中导航。

2.To fine-tune the alignment, he turned the maneuvering handwheel slowly.

为了微调对齐，他慢慢转动了操控手轮。

3.The maneuvering handwheel allows for precise control of the valve.

这个操控手轮允许对阀门进行精确控制。

4.The technician adjusted the machine's settings using the maneuvering handwheel.

技术员使用操控手轮调整机器的设置。

5.When the system jammed, he released the pressure by turning the maneuvering handwheel.

当系统卡住时，他通过转动操控手轮释放压力。

作文

In the world of engineering and machinery, precision is paramount. One of the critical components that facilitate this precision is the maneuvering handwheel. This device is often used in various machines and equipment to allow operators to make fine adjustments with ease. The maneuvering handwheel is designed to provide tactile feedback, enabling users to feel the resistance and control the movement of the machine accurately.The functionality of the maneuvering handwheel can be observed in many applications, from industrial machinery to household appliances. For instance, in a lathe machine, the maneuvering handwheel allows the operator to adjust the position of the cutting tool with precision. This is crucial in ensuring that the desired specifications are met, as even the slightest deviation can lead to defects in the final product.Moreover, the design of the maneuvering handwheel is often ergonomic, making it comfortable for users to operate over extended periods. The shape and size of the wheel are optimized for grip and torque, allowing for smooth manipulation without excessive effort. This ergonomic consideration is essential in reducing fatigue and improving overall productivity in a work environment.In addition to its practical applications, the maneuvering handwheel also plays a significant role in safety. Many machines are equipped with safety features that rely on the correct positioning of components, which can be achieved through the precise adjustments made possible by the maneuvering handwheel. For example, in a CNC (Computer Numerical Control) machine, the operator uses the handwheel to set the initial parameters before the automated processes begin. This ensures that the machine operates within safe limits, thereby preventing accidents and equipment damage.The versatility of the maneuvering handwheel extends beyond industrial use. In the realm of transportation, for example, vehicles often incorporate similar mechanisms for steering and navigation. The concept remains the same: providing the operator with a means to control direction and movement effectively. Whether it’s a car, a boat, or an aircraft, the ability to maneuver precisely is vital for safety and performance.Furthermore, advancements in technology have led to the integration of digital interfaces that complement the traditional maneuvering handwheel. Modern machines may feature electronic displays that provide real-time data and feedback, enhancing the operator's ability to make informed decisions. However, the fundamental purpose of the maneuvering handwheel remains unchanged; it is still an essential tool for achieving precision and control.In conclusion, the maneuvering handwheel is a remarkable invention that has stood the test of time. Its ability to provide precise control and adjustments in various applications makes it an indispensable component in both industrial and everyday contexts. As technology continues to evolve, the maneuvering handwheel will likely adapt but will always retain its core function of facilitating accurate maneuvering. Understanding the significance of this tool not only helps us appreciate its engineering brilliance but also underscores the importance of precision in our increasingly mechanized world.

在工程和机械的世界中，精确性至关重要。促进这种精确性的关键组件之一是操控手轮。该装置通常用于各种机器和设备，使操作员能够轻松进行微调。操控手轮的设计旨在提供触觉反馈，使用户能够感受到阻力，并准确控制机器的运动。操控手轮的功能可以在许多应用中观察到，从工业机械到家用电器。例如，在车床机器中，操控手轮允许操作员精确调整切削工具的位置。这对于确保满足所需规格至关重要，因为即使是最轻微的偏差也可能导致最终产品出现缺陷。此外，操控手轮的设计通常是符合人体工程学的，使用户在长时间操作时感到舒适。手轮的形状和大小经过优化，以便于握持和施加扭矩，允许平稳操作而无需过多的努力。这种人体工程学的考虑对于减少疲劳和提高工作环境中的整体生产力至关重要。除了其实际应用之外，操控手轮在安全方面也发挥着重要作用。许多机器配备了依赖于正确定位组件的安全特性，而这些定位可以通过操控手轮所实现的精确调整来完成。例如，在CNC（计算机数控）机器中，操作员使用手轮设置初始参数，然后自动化过程开始。这确保了机器在安全限制内运行，从而防止事故和设备损坏。操控手轮的多功能性不仅限于工业用途。在交通运输领域，例如，车辆通常集成类似的机制用于转向和导航。概念保持不变：为操作员提供有效控制方向和运动的手段。无论是汽车、船只还是飞机，精确操控的能力对于安全和性能至关重要。此外，技术的进步使得数字界面的集成得以与传统的操控手轮相辅相成。现代机器可能配备电子显示屏，提供实时数据和反馈，增强操作员做出明智决策的能力。然而，操控手轮的基本目的仍然没有改变；它仍然是实现精确控制和调整的必不可少的工具。总之，操控手轮是一项经受住时间考验的杰出发明。它在各种应用中提供精确控制和调整的能力，使其成为工业和日常场景中不可或缺的组件。随着技术的不断发展，操控手轮可能会适应变化，但始终保留其促进精确操控的核心功能。理解这一工具的重要性不仅帮助我们欣赏其工程智慧，还强调了在我们日益机械化的世界中精确性的重要性。