cardan axis
简明释义
万向节轴
英英释义
例句
1.The performance of the vehicle greatly depends on the quality of the cardan axis 万向轴 used.
车辆的性能在很大程度上取决于所使用的cardan axis 万向轴的质量。
2.In robotics, the cardan axis 万向轴 is crucial for enabling flexible movement of robotic arms.
在机器人技术中,cardan axis 万向轴对于实现机器人手臂的灵活运动至关重要。
3.When assembling the transmission, ensure that the cardan axis 万向轴 is properly aligned.
在组装变速器时,请确保cardan axis 万向轴正确对齐。
4.The cardan axis 万向轴 design helps to minimize vibrations in high-speed machinery.
这种cardan axis 万向轴设计有助于减少高速机械中的振动。
5.The engineer explained how the cardan axis 万向轴 allows for smooth rotation in the vehicle's drive system.
工程师解释了如何通过使用cardan axis 万向轴实现车辆驱动系统的平稳旋转。
作文
The concept of the cardan axis is integral to various mechanical systems, particularly in vehicles and machinery where rotational motion is required. The cardan axis, also known as a universal joint, allows for the transmission of torque and rotation between two shafts that are not in a straight line, making it essential for the functionality of many machines. This mechanism is especially crucial in the automotive industry, where it enables the connection between the engine and the wheels, allowing for smooth and efficient power transfer.In essence, the cardan axis consists of two yokes connected by a cross-shaped member. As one of the shafts rotates, the cardan axis transmits this motion to the other shaft, even if they are at an angle to each other. This flexibility is vital in applications where components must move independently yet remain connected. Without the cardan axis, vehicles would struggle to navigate uneven terrain or make sharp turns, leading to potential mechanical failures.The design of the cardan axis has evolved over the years, with advancements in materials and engineering techniques enhancing its durability and performance. Modern versions often incorporate bearings and seals to reduce friction and wear, extending the lifespan of the component. Furthermore, the use of computer-aided design (CAD) has allowed engineers to optimize the geometry of the cardan axis, improving its efficiency and reliability.Beyond automobiles, the cardan axis finds applications in various fields, including aerospace, robotics, and industrial machinery. In aerospace, for instance, it is used in helicopters and airplanes to ensure that the rotor systems can operate effectively while accommodating changes in orientation. Similarly, in robotics, the cardan axis enables articulated arms to perform complex movements while maintaining control over their positioning.Understanding the mechanics behind the cardan axis is essential for engineers and technicians who work in fields related to motion and mechanics. Knowledge of how to properly install, maintain, and troubleshoot these components can significantly impact the overall performance of a machine. For instance, improper alignment of the cardan axis can lead to excessive vibrations, increased wear, and ultimately, failure of the system.In conclusion, the cardan axis is a pivotal component in many mechanical systems, facilitating the transfer of motion and power in a flexible manner. Its design and application have profound implications across various industries, highlighting the importance of understanding such mechanisms in modern engineering. As technology continues to advance, the role of the cardan axis will likely expand, paving the way for innovative solutions in motion control and mechanical design.
“卡丹轴”的概念在各种机械系统中至关重要,特别是在需要旋转运动的车辆和机器中。“卡丹轴”,也称为万向节,允许在不成直线的两个轴之间传递扭矩和旋转,这使其成为许多机器功能的关键。这一机制在汽车工业中尤为重要,因为它能够连接发动机和车轮,实现平稳高效的动力传递。从本质上讲,“卡丹轴”由两个通过十字形部件连接的轴承组成。当其中一个轴旋转时,“卡丹轴”将这种运动传递给另一个轴,即使它们之间存在角度。这种灵活性在组件必须独立移动但又保持连接的应用中至关重要。如果没有“卡丹轴”,车辆将难以在不平坦的地形上行驶或进行急转弯,可能导致机械故障。“卡丹轴”的设计经过多年的发展,材料和工程技术的进步提高了其耐用性和性能。现代版本通常采用轴承和密封件,以减少摩擦和磨损,延长组件的使用寿命。此外,计算机辅助设计(CAD)的使用使工程师能够优化“卡丹轴”的几何形状,提高其效率和可靠性。除了汽车外,“卡丹轴”还在航空航天、机器人和工业机械等多个领域找到了应用。例如,在航空航天中,它被用于直升机和飞机中,以确保旋翼系统在适应方向变化的同时能够有效运行。同样,在机器人技术中,“卡丹轴”使得关节臂能够执行复杂的运动,同时保持对其定位的控制。了解“卡丹轴”背后的机械原理对从事运动和机械相关领域的工程师和技术人员至关重要。掌握如何正确安装、维护和排除这些组件的故障,可以显著影响机器的整体性能。例如,“卡丹轴”的不当对齐可能导致过度振动、增加磨损,最终导致系统故障。总之,“卡丹轴”是许多机械系统中的关键组件,以灵活的方式促进运动和动力的传递。其设计和应用在各个行业中具有深远的影响,突显了在现代工程中理解此类机制的重要性。随着技术的不断进步,“卡丹轴”的角色可能会进一步扩大,为运动控制和机械设计提供创新解决方案。
