single tandem articulated gearing

简明释义

链式二级减速齿轮装置

英英释义

例句

1.The bicycle features a single tandem articulated gearing mechanism that provides smooth shifting between gears.

这款自行车配备了单排联动齿轮系统机制，使得档位之间的切换非常顺畅。

2.The design team chose a single tandem articulated gearing to improve the efficiency of the conveyor belt system.

设计团队选择了单排联动齿轮系统以提高输送带系统的效率。

3.The new formula one car features a revolutionary single tandem articulated gearing system, which enhances speed and control.

这款新型方程式赛车采用了革命性的单排联动齿轮系统，提高了速度和控制力。

4.For the latest model of the construction crane, engineers integrated a single tandem articulated gearing for better load handling.

在最新型号的建筑起重机中，工程师集成了单排联动齿轮系统以更好地处理负载。

5.In robotics, the single tandem articulated gearing allows for more fluid movement of the robotic arms.

在机器人技术中，单排联动齿轮系统使机器手臂的运动更加流畅。

作文

In the world of mechanical engineering, various systems and components work together to create efficient machines. One such system is known as single tandem articulated gearing. This term refers to a specific arrangement of gears that allows for complex movements in machinery while maintaining a compact design. Understanding this concept can be crucial for engineers and designers who aim to optimize performance in their projects.The term 'single' in single tandem articulated gearing indicates that there is one primary gear system involved in the mechanism. This single system is essential because it simplifies the design and reduces the number of components that need to be managed. In many applications, having fewer moving parts can lead to increased reliability and lower maintenance costs.'Tandem' refers to the arrangement of gears in a sequence, where one gear drives another directly. In single tandem articulated gearing, the tandem arrangement allows for a more efficient transfer of power between gears. This configuration is particularly advantageous in applications where space is limited, as it enables the use of multiple gears without significantly increasing the overall size of the machine.The term 'articulated' adds another layer of complexity to the single tandem articulated gearing system. Articulated mechanisms are designed to allow for rotational movement at various angles, which is essential for applications requiring flexibility and adaptability. For instance, in robotics or automotive designs, an articulated system can enable precise movements that mimic natural motion.When combined, these elements create a powerful gearing system that can be utilized in various fields, including robotics, automotive engineering, and aerospace. The single tandem articulated gearing system can be found in robotic arms, where precise control over movement is necessary. By using this gearing mechanism, engineers can design robots that perform intricate tasks with high accuracy.Moreover, in the automotive industry, single tandem articulated gearing can enhance the performance of vehicles by providing better torque distribution and responsiveness. This is particularly important in high-performance cars, where every aspect of the machine must work in harmony to achieve optimal speed and handling.In conclusion, the concept of single tandem articulated gearing is an essential part of modern engineering. Its ability to combine simplicity with functionality makes it a preferred choice for many applications. As technology continues to advance, understanding such mechanisms will be vital for engineers looking to innovate and improve existing systems. By mastering the principles behind single tandem articulated gearing, professionals can contribute to the development of more efficient and effective machinery that meets the demands of an ever-evolving industry.

在机械工程的世界中，各种系统和组件共同工作，以创造高效的机器。一个这样的系统被称为单串联关节齿轮传动。这个术语指的是一种特定的齿轮排列，它允许机器中的复杂运动，同时保持紧凑的设计。理解这个概念对于那些旨在优化项目性能的工程师和设计师来说至关重要。在单串联关节齿轮传动中，“单”这个词表明该机制中涉及一个主要的齿轮系统。这个单一系统是至关重要的，因为它简化了设计，并减少了需要管理的组件数量。在许多应用中，拥有更少的活动部件可以提高可靠性并降低维护成本。“串联”指的是齿轮按顺序排列，其中一个齿轮直接驱动另一个齿轮。在单串联关节齿轮传动中，串联排列允许更有效的动力传递。这种配置在空间有限的应用中尤为有利，因为它使得在不显著增加机器整体尺寸的情况下使用多个齿轮成为可能。“关节”这个术语为单串联关节齿轮传动系统增添了另一层复杂性。关节机制旨在允许在各种角度下进行旋转运动，这对于需要灵活性和适应性的应用至关重要。例如，在机器人技术或汽车设计中，关节系统可以实现精确的运动，模拟自然动作。当这些元素结合在一起时，就形成了一种强大的齿轮系统，可以在机器人技术、汽车工程和航空航天等多个领域中使用。单串联关节齿轮传动系统可以在机器人手臂中找到，其中对运动的精确控制是必要的。通过使用这种齿轮机制，工程师可以设计出能够高精度执行复杂任务的机器人。此外，在汽车工业中，单串联关节齿轮传动可以通过提供更好的扭矩分配和响应性来增强车辆的性能。这在高性能汽车中尤为重要，因为机器的每个方面都必须协调工作，以实现最佳速度和操控。总之，单串联关节齿轮传动的概念是现代工程的重要组成部分。它将简单性与功能性相结合，使其成为许多应用的首选。随着技术的不断进步，理解此类机制对于希望创新和改进现有系统的工程师来说将至关重要。通过掌握单串联关节齿轮传动背后的原理，专业人士可以为开发更高效、更有效的机器做出贡献，以满足不断发展的行业需求。