gimbals

简明释义

英[ˈdʒɪmbəlz]美[ˈdʒɪmbəlz]

n. 平衡环

英英释义

单词用法

同义词

反义词

例句

1.The control technique of reaction wheel in the two-axis gimbals mechanism on the satellite is researched.

对星载二维转台中反作用轮的控制技术进行了研究。

2.In 1945, James debuted the toy at a Gimbals in Philadelphia.

1945年，詹姆斯首次在费城玩具城参加玩具推销会。

3.The dynamical equations for a two-gimbal dynamically tuned gyroscope with mass unbalance in both the rotor and the gimbals are put forward as a development based on ideal suspension.

本文给出了转子和平衡环质量不平衡的双平衡环挠性陀螺的动力学方程，推广了理想情况下的陀螺动力学方程。

4.This turnable can be rotated in its own plane about its axis A. and is mounted on gimbals within a ring.

此内转台可在其自身平面内绕其轴线a转动，并装在一个位于圆环里面的常平架上。

5.The dynamical equations for a two-gimbal dynamically tuned gyroscope with mass unbalance in both the rotor and the gimbals are put forward as a development based on ideal suspension.

本文给出了转子和平衡环质量不平衡的双平衡环挠性陀螺的动力学方程，推广了理想情况下的陀螺动力学方程。

6.The hydraulic locking and non-locking actuators are installed through the torque box and the forward actuator gimbals are pinned to fittings on the torque box.

液压锁和非锁定作动筒通过前作动筒平衡环安装于扭矩盒上。

7.Even though it's never given me an ounce of trouble, watching the super-stable video footage from quads equipped with camera gimbals convinced me that I needed an upgrade.

尽管它从来没有给我麻烦盎司，看着从装有摄像云台四边形的超稳定录像说服了我，我需要升级。

8.It may not be the best configuration balance-wise (important with gimbals) but it has worked well so far.

它可能不是最好的配置均衡，明智的(与万向支架很重要)，但它一直很好，到目前为止。

9.The new smartphone features built-in gimbals for enhanced video stabilization.

这款新智能手机具有内置的万向节，以增强视频稳定性。

10.The ship's compass is mounted on gimbals to keep it level regardless of the vessel's tilt.

船的指南针安装在万向节上，以保持其水平，无论船体倾斜如何。

11.The camera was mounted on a set of gimbals to ensure smooth footage while filming.

相机安装在一套万向节上，以确保拍摄时画面流畅。

12.Photographers often use handheld gimbals to eliminate shaky shots.

摄影师常常使用手持万向节来消除抖动的画面。

13.Using gimbals helps stabilize the drone during windy conditions.

使用万向节可以在风大时稳定无人机。

作文

In the world of technology and engineering, precision is paramount. One fascinating device that plays a crucial role in achieving this precision is called gimbals. These mechanical systems allow objects to remain stable and oriented correctly, regardless of external movements or disturbances. The principle behind gimbals can be traced back to ancient times, where they were used in various navigational instruments to ensure accuracy at sea. Today, their application has expanded into numerous fields, including photography, aerospace, and robotics.A gimbal system typically consists of three rings, each mounted on an axis that is perpendicular to the others. This configuration allows for a remarkable range of motion while keeping the central object steady. For instance, in the realm of photography, gimbals are often used to stabilize cameras. When capturing video footage or images, even the slightest shake can lead to blurry results. By using a gimbal, photographers can achieve smooth, cinematic shots that are free from unwanted vibrations.In addition to photography, gimbals have become essential tools in the world of drones. Drones equipped with gimbals can capture stunning aerial footage without the jittery effects that often accompany flight. The gimbal compensates for the drone's movements, ensuring that the camera remains level and focused on the subject below. This stability is critical for filmmakers and content creators who wish to produce high-quality visuals.Moreover, gimbals are also used in the aerospace industry. In spacecraft, they help stabilize instruments and cameras, allowing for precise measurements and observations of celestial bodies. For example, when a satellite orbits the Earth, it must maintain a specific orientation to gather data accurately. Gimbals enable this by adjusting the position of the instruments in response to any shifts in the satellite's movement, ensuring that the data collected is reliable and accurate.The importance of gimbals extends beyond just stabilization; they also enhance the user experience. In virtual reality (VR) applications, gimbals can create immersive environments by tracking head movements and adjusting the visual display accordingly. This technology allows users to feel as though they are truly part of the virtual world, enhancing the overall experience.As technology continues to advance, the design and functionality of gimbals are likely to evolve as well. Innovations in materials and engineering may lead to lighter, more compact designs that can be integrated into smaller devices. This could open up new possibilities for applications in mobile devices, such as smartphones and action cameras, making professional-quality stabilization accessible to a broader audience.In conclusion, gimbals are remarkable devices that play a vital role in various fields by providing stability and precision. From photography to aerospace, their ability to keep objects oriented correctly amidst movement is invaluable. As we look to the future, it is exciting to consider how gimbals will continue to shape technology and enhance our experiences in both the physical and digital realms. Understanding the significance of gimbals not only enriches our knowledge of engineering but also highlights the intricate relationship between technology and creativity.

在科技和工程的世界中，精确性至关重要。一个有趣的装置在实现这种精确性方面发挥着关键作用，这就是所谓的万向节。这些机械系统使物体能够保持稳定并正确定向，无论外部运动或干扰如何。万向节背后的原理可以追溯到古代，当时它们被用于各种导航仪器，以确保海上的准确性。如今，它们的应用已扩展到多个领域，包括摄影、航空航天和机器人技术。一个万向节系统通常由三个环组成，每个环都安装在与其他环垂直的轴上。这种配置允许在保持中心物体稳定的同时，具有惊人的运动范围。例如，在摄影领域，万向节通常用于稳定相机。在拍摄视频素材或图像时，即使是最轻微的抖动也会导致模糊的结果。通过使用万向节，摄影师可以获得平滑的电影镜头，摆脱不必要的振动。除了摄影，万向节也成为无人机领域的重要工具。配备万向节的无人机可以捕捉到令人惊叹的空中镜头，而不会伴随飞行时常见的颤动效果。万向节补偿无人机的运动，确保相机保持水平并聚焦于下方的主题。这种稳定性对希望制作高质量视觉效果的电影制片人和内容创作者至关重要。此外，万向节还用于航空航天工业。在航天器中，它们帮助稳定仪器和相机，从而允许对天体进行精确测量和观察。例如，当卫星绕地球轨道飞行时，它必须保持特定的方向以准确收集数据。万向节通过根据卫星运动的任何变化调整仪器的位置，从而确保收集的数据可靠且准确。万向节的重要性不仅限于稳定性；它们还提升了用户体验。在虚拟现实（VR）应用中，万向节可以通过跟踪头部运动并相应调整视觉显示来创建沉浸式环境。这项技术使用户感到他们真正融入了虚拟世界，增强了整体体验。随着科技的不断进步，万向节的设计和功能也可能会发展。材料和工程的创新可能会导致更轻、更紧凑的设计，可以集成到更小的设备中。这可能为移动设备的应用开辟新的可能性，例如智能手机和运动相机，使专业级别的稳定性可供更广泛的受众使用。总之，万向节是出色的装置，在多个领域发挥着至关重要的作用，通过提供稳定性和精确性。从摄影到航空航天，它们在运动中保持物体正确定向的能力是无价的。展望未来，令人兴奋的是考虑到万向节将如何继续塑造技术并增强我们在物理和数字领域的体验。理解万向节的重要性不仅丰富了我们对工程的知识，也突显了技术与创造力之间的复杂关系。