gimbal joint

简明释义

水平活节

英英释义

例句

1.A gimbal joint can help reduce vibrations in mechanical systems.

在机械系统中，万向节可以帮助减少振动。

2.In robotics, a gimbal joint allows for multi-directional movement of robotic arms.

在机器人技术中，万向节允许机器人手臂进行多方向移动。

3.When designing a telescope, engineers often include a gimbal joint for better maneuverability.

在设计望远镜时，工程师通常会加入一个万向节以提高灵活性。

4.The drone's stability is enhanced by its gimbal joint, which keeps the camera level.

无人机的稳定性得益于其万向节，保持摄像头水平。

5.The camera was mounted on a gimbal joint to ensure smooth footage during the ride.

相机安装在万向节上，以确保在行驶过程中拍摄平稳的画面。

作文

The concept of a gimbal joint is crucial in various fields, particularly in engineering and robotics. A gimbal joint is a pivoted support that allows the rotation of an object about multiple axes. This mechanism is essential for maintaining stability and orientation in devices ranging from cameras to spacecraft. Understanding the workings of a gimbal joint can enhance our appreciation of how technology interacts with the physical world.To illustrate the importance of a gimbal joint, let’s consider its application in photography. Modern cameras often utilize gimbals to stabilize the lens and sensor, ensuring that images remain clear and sharp even when the camera is in motion. The gimbal joint allows the camera to pivot smoothly, compensating for any unwanted movements caused by the photographer’s hand or environmental factors. This stabilization is particularly vital in action photography, where capturing fast-moving subjects without blur is essential.In robotics, the gimbal joint plays a significant role in the design of robotic arms and drones. For example, a drone equipped with a gimbal joint can maintain a steady camera angle while flying, providing smooth video footage and clear images. This capability is crucial for aerial photography and videography, as it allows for dynamic shots without sacrificing quality. Additionally, in robotic arms, gimbal joints enable precise movements and orientations, allowing robots to perform complex tasks in manufacturing and assembly lines.Furthermore, the principles behind the gimbal joint extend beyond just mechanical applications. In navigation systems, such as those used in ships and aircraft, gimbal joints are employed to keep instruments level, regardless of the vehicle's orientation. This functionality ensures that pilots and navigators receive accurate readings, which are vital for safe travel across the skies and seas.The history of the gimbal joint dates back centuries, with early examples found in ancient maritime navigation tools. As technology evolved, so did the design and application of gimbal joints. Today, they are integral components in advanced technologies, including virtual reality systems and gyroscopic stabilizers in smartphones.In conclusion, the gimbal joint is a remarkable invention that has transformed various industries by enabling stability and precision in movement. Whether in photography, robotics, or navigation, the ability of a gimbal joint to allow multi-axis rotation while maintaining balance is invaluable. Understanding this mechanism not only enhances our knowledge of engineering but also enriches our appreciation for the intricate designs that underpin modern technology. As we continue to innovate and explore new frontiers, the gimbal joint will undoubtedly remain a fundamental element in the development of future technologies.

“gimbal joint”的概念在各个领域中都至关重要，特别是在工程和机器人技术中。“gimbal joint”是一种支撑结构，允许物体绕多个轴旋转。这种机制对于在从相机到航天器的设备中保持稳定性和方向感至关重要。理解“gimbal joint”的工作原理可以增强我们对技术如何与物理世界互动的欣赏。为了说明“gimbal joint”的重要性，让我们考虑它在摄影中的应用。现代相机通常利用万向节来稳定镜头和传感器，确保即使在相机运动时，图像也能保持清晰锐利。“gimbal joint”允许相机平滑地旋转，补偿摄影师手部或环境因素造成的任何不必要的运动。这种稳定性在动作摄影中尤为重要，因为捕捉快速移动的对象而不模糊是至关重要的。在机器人技术中，“gimbal joint”在机器人臂和无人机的设计中发挥着重要作用。例如，配备“gimbal joint”的无人机可以在飞行时保持稳定的相机角度，从而提供平稳的视频画面和清晰的图像。这种能力对于空中摄影和摄像至关重要，因为它允许动态镜头而不牺牲质量。此外，在机器人臂中，“gimbal joint”使得精确的运动和方向成为可能，使机器人能够在制造和装配线上执行复杂的任务。此外，“gimbal joint”的原理不仅限于机械应用。在船舶和飞机等导航系统中，使用“gimbal joint”保持仪器水平，无论车辆的朝向如何。这一功能确保飞行员和导航员获得准确的读数，这对于在天空和海洋中的安全旅行至关重要。“gimbal joint”的历史可以追溯到几个世纪以前，早期的例子可以在古代海洋导航工具中找到。随着技术的发展，“gimbal joint”的设计和应用也不断演变。今天，它们是先进技术中不可或缺的组成部分，包括虚拟现实系统和智能手机中的陀螺稳定器。总之，“gimbal joint”是一项了不起的发明，通过在运动中实现稳定性和精确性，改变了各个行业。无论是在摄影、机器人技术还是导航中，“gimbal joint”能够在保持平衡的同时允许多轴旋转是无价的。理解这一机制不仅增强了我们对工程的知识，也丰富了我们对现代技术基础的复杂设计的欣赏。随着我们继续创新和探索新领域，“gimbal joint”无疑将继续成为未来技术发展的基本元素。