gimbal suspension

简明释义

万向接头常平架

英英释义

例句

1.The aircraft's gimbal suspension system ensures stable navigation even in turbulent weather.

飞机的万向节悬挂系统确保在恶劣天气中也能稳定导航。

2.The drone's stability is enhanced by its gimbal suspension, which allows for smooth footage.

这款无人机的稳定性得益于其万向节悬挂，能够拍摄平滑的视频。

3.The camera features a gimbal suspension system that reduces vibrations during filming.

这款相机配备了万向节悬挂系统，可以在拍摄时减少震动。

4.In high-speed racing, the car's gimbal suspension helps maintain control over rough terrain.

在高速赛车中，汽车的万向节悬挂有助于在崎岖地形上保持控制。

5.With a gimbal suspension, the robotic arm can perform precise movements without distortion.

通过使用万向节悬挂，机器人手臂可以进行精确的运动而不失真。

作文

In the world of engineering and technology, the term gimbal suspension is frequently encountered, especially in applications involving stabilization and orientation. This innovative mechanism allows objects to maintain a stable position regardless of external movements or rotations. The concept of gimbal suspension can be traced back to ancient times, where it was utilized in navigational instruments such as compasses. Today, its applications have expanded significantly, playing a crucial role in various fields including aerospace, photography, and robotics.To understand how gimbal suspension works, it is essential to first grasp the basic structure of a gimbal. A gimbal consists of a set of rings, each mounted on a pivot point that allows it to rotate freely about an axis. When multiple gimbals are combined, they create a system that can stabilize an object in three-dimensional space. This means that no matter how the base moves, the inner object remains level and steady. This principle is particularly useful in situations where precision and stability are paramount.One of the most notable uses of gimbal suspension is in the field of camera technology. Many modern cameras and drones employ gimbal systems to ensure smooth and steady footage, even when the operator is moving or when external factors like wind come into play. By utilizing a gimbal suspension, filmmakers can capture high-quality video without the unwanted effects of shaky hands or unstable platforms. This has revolutionized the way we record and experience visual media, allowing for more dynamic storytelling and immersive experiences.In addition to photography, gimbal suspension is integral to the aerospace industry. Aircraft and spacecraft rely on gimbal systems to maintain orientation during flight. For instance, gyroscopes that use gimbal suspension help pilots and astronauts understand their position in relation to the Earth and other celestial bodies. This information is vital for navigation and control, ensuring safety and efficiency in flight operations.Moreover, robotics has greatly benefited from advancements in gimbal suspension technology. Robots equipped with gimbal systems can navigate complex environments while maintaining balance and stability. This is particularly important in applications such as search and rescue missions, where robots may need to traverse uneven terrain while carrying out their tasks. The ability to keep sensors and cameras stable allows these robots to gather accurate data and perform their functions effectively.In conclusion, the concept of gimbal suspension is not only fascinating but also essential in various modern technologies. Its ability to provide stability and maintain orientation has made it a valuable tool in fields ranging from cinematography to aerospace and robotics. As technology continues to evolve, the applications of gimbal suspension are likely to expand further, paving the way for new innovations and improvements in how we interact with the world around us. Understanding this mechanism opens up a greater appreciation for the intricate designs that enhance our daily lives and the technologies we often take for granted.

在工程和技术的世界中，术语gimbal suspension（万向节悬挂）常常被提及，尤其是在涉及稳定性和方向性的应用中。这种创新机制使物体能够保持稳定的位置，无论外部运动或旋转如何。gimbal suspension的概念可以追溯到古代，当时它被用于导航仪器，如指南针。今天，它的应用已经大大扩展，在航空航天、摄影和机器人等多个领域发挥着至关重要的作用。要理解gimbal suspension的工作原理，首先必须了解万向节的基本结构。万向节由一组环组成，每个环都安装在一个枢轴点上，使其可以围绕一个轴自由旋转。当多个万向节组合在一起时，它们形成一个可以在三维空间中稳定物体的系统。这意味着无论基础如何移动，内部物体仍然保持水平和稳定。这一原理在需要精确和稳定的情况下尤其有用。gimbal suspension最显著的用途之一是在摄影技术领域。许多现代相机和无人机采用万向节系统，以确保平稳和稳定的镜头，即使操作员在移动或者外部因素如风的影响下。通过利用gimbal suspension，电影制作人能够拍摄高质量的视频，而不受手抖或不稳定平台的影响。这彻底改变了我们记录和体验视觉媒体的方式，使更具动态叙事和沉浸式体验成为可能。除了摄影，gimbal suspension在航空航天工业中也是不可或缺的。飞机和航天器依赖万向节系统在飞行过程中保持方向。例如，使用gimbal suspension的陀螺仪帮助飞行员和宇航员了解他们与地球和其他天体的相对位置。这些信息对于导航和控制至关重要，确保飞行操作的安全和效率。此外，机器人技术也从gimbal suspension技术的进步中受益匪浅。配备万向节系统的机器人可以在复杂环境中导航，同时保持平衡和稳定。这在搜索和救援任务等应用中尤为重要，因为机器人可能需要穿越不平坦的地形，同时执行任务。保持传感器和相机稳定的能力使这些机器人能够收集准确的数据并有效地执行其功能。总之，gimbal suspension的概念不仅令人着迷，而且在各种现代技术中至关重要。它提供稳定性和保持方向的能力使其成为从电影制作到航空航天和机器人等领域的宝贵工具。随着技术的不断发展，gimbal suspension的应用可能会进一步扩大，为我们与周围世界的互动开辟新的创新和改进的道路。理解这一机制使我们更好地欣赏那些增强我们日常生活的复杂设计以及我们经常视而不见的技术。