antirolling gyroscope

简明释义

减摇陀螺仪

英英释义

例句

1.In modern ships, the antirolling gyroscope significantly reduces the rolling motion caused by waves.

在现代船只中，防倾斜陀螺仪显著减少了波浪引起的滚动运动。

2.With the antirolling gyroscope, passengers can enjoy a smoother ride without feeling the ship's movements.

有了防倾斜陀螺仪，乘客可以享受更平稳的航行，而不会感受到船只的运动。

3.The new yacht is equipped with an antirolling gyroscope to ensure stability during rough seas.

这艘新游艇配备了防倾斜陀螺仪，以确保在恶劣海况下的稳定性。

4.The research team tested the antirolling gyroscope in a laboratory setting before deploying it on the vessel.

研究团队在实验室环境中测试了防倾斜陀螺仪，然后才将其部署到船只上。

5.The technology behind the antirolling gyroscope has advanced significantly over the years.

随着时间的推移，防倾斜陀螺仪背后的技术已经显著进步。

作文

In the world of engineering and technology, various innovations have been developed to enhance safety and stability in vehicles and other moving platforms. One such remarkable invention is the antirolling gyroscope, a device designed to counteract the forces that cause rolling or tipping in vehicles, especially those that are tall or have a high center of gravity. The antirolling gyroscope (反倾斜陀螺仪) operates on the principles of angular momentum and gyroscopic stability, which allows it to maintain balance and prevent excessive tilting during maneuvers or when encountering uneven surfaces.The concept of using gyroscopes for stabilization is not new; however, the application of the antirolling gyroscope in modern vehicles has revolutionized how we think about vehicle safety. For instance, in buses, trucks, and even some sports cars, the integration of this technology can significantly reduce the risk of rollover accidents. When a vehicle turns sharply or encounters a sudden obstacle, the antirolling gyroscope detects the change in orientation and responds by adjusting the vehicle's suspension system. This proactive measure helps to keep the vehicle upright, ensuring the safety of passengers and cargo alike.Moreover, the use of the antirolling gyroscope extends beyond just land vehicles. In maritime applications, ships and boats equipped with these gyroscopes can maintain stability in rough seas, preventing capsizing and enhancing the comfort of passengers. Similarly, in aviation, certain aircraft utilize gyroscopic technology to stabilize their flight paths, ensuring smoother operations even in turbulent conditions.The effectiveness of the antirolling gyroscope can be attributed to its ability to harness the principles of physics. Gyroscopes resist changes to their axis of rotation due to angular momentum, making them ideal for maintaining stability. As they spin, they create a stabilizing force that counters any tilting motion. This phenomenon is crucial in dynamic environments where balance is constantly challenged.As technology continues to advance, the design and functionality of the antirolling gyroscope are also evolving. Engineers are now integrating advanced sensors and computer algorithms to enhance the responsiveness and accuracy of these systems. For example, modern antirolling gyroscopes can analyze real-time data from the vehicle’s movements and make instantaneous adjustments to optimize stability. This level of sophistication not only improves safety but also enhances the overall driving experience.In conclusion, the antirolling gyroscope (反倾斜陀螺仪) represents a significant leap forward in engineering solutions aimed at improving safety and stability in various modes of transportation. Its ability to counteract rolling motions makes it an invaluable asset in vehicles prone to tipping, ensuring that passengers remain safe and secure. As we continue to innovate and integrate such technologies into our daily lives, the potential for enhanced safety and comfort in transportation is limitless.

在工程和技术的世界中，各种创新被开发出来，以增强车辆和其他移动平台的安全性和稳定性。其中一个显著的发明是反倾斜陀螺仪，这种设备旨在抵消导致车辆翻滚或倾斜的力量，特别是在那些高大或重心较高的车辆中。反倾斜陀螺仪（antirolling gyroscope）按照角动量和陀螺稳定性的原理运作，使其能够保持平衡并防止在机动或遇到不平坦表面时过度倾斜。使用陀螺仪进行稳定的概念并不新颖；然而，反倾斜陀螺仪在现代车辆中的应用彻底改变了我们对车辆安全的思考。例如，在公共汽车、卡车甚至一些跑车中，这项技术的整合可以显著降低翻车事故的风险。当一辆车急转弯或遇到突发障碍物时，反倾斜陀螺仪会检测到方向的变化，并通过调整车辆的悬挂系统做出响应。这种主动措施有助于保持车辆直立，确保乘客和货物的安全。此外，反倾斜陀螺仪的使用不仅限于陆地车辆。在海事应用中，配备这些陀螺仪的船只和小艇可以在恶劣海况下保持稳定，防止倾覆，并提高乘客的舒适度。同样，在航空领域，某些飞机利用陀螺技术来稳定飞行路径，确保即使在动荡条件下也能顺利操作。反倾斜陀螺仪的有效性归功于其利用物理原理的能力。陀螺仪由于角动量的原因，对其旋转轴的变化具有抵抗力，使它们成为保持稳定的理想工具。当它们旋转时，产生一种抵消任何倾斜运动的稳定力。这一现象在动态环境中至关重要，因为平衡始终受到挑战。随着技术的不断进步，反倾斜陀螺仪的设计和功能也在不断演变。工程师们现在正在整合先进的传感器和计算机算法，以增强这些系统的响应性和准确性。例如，现代的反倾斜陀螺仪可以分析来自车辆运动的实时数据，并做出瞬时调整以优化稳定性。这种复杂程度不仅提高了安全性，还提升了整体驾驶体验。总之，反倾斜陀螺仪（antirolling gyroscope）代表了在改善各类交通工具安全性和稳定性方面的一次重大进步。它抵消翻滚运动的能力使其成为易倾翻车辆中不可或缺的资产，确保乘客安全无虞。随着我们继续创新并将此类技术融入日常生活，交通运输中增强安全性和舒适性的潜力是无限的。