gyrocompass

简明释义

英[ˈdʒaɪrəʊˌkʌmpəs]美[ˈdʒaɪroʊˌkʌmpəs]

n. 回转罗盘；陀螺罗经，电罗经

英英释义

单词用法

同义词

反义词

例句

1.The gyro-theodolite , which is composed of a suspended two-degree-of-freedom gyrocompass and a theodolite, is the main instrument in the engineering measurement for meridian determination.

由悬挂式二自由度陀螺罗盘仪和经纬仪组合而成的陀螺经纬仪，是工程测量领域中用以确定子午线方位的主要仪器。

2.The system originally designed to provide power supply for naval gyrocompass is also suitable for civil usage. Circuit design and test results are also presented in the paper.

实践证实这种电源革新方案是可行的，它不仅适用于精度高的军用罗经，对于民用罗经也是有益的。

3.Because the restraint of PMB (permanent magnetic bearings) is the elastic restraint, suspended SDOF gyrocompass restrained by PMB, in fact, is not SDOF gyrocompass, but two DOFS gyrocompass.

考虑到永磁轴承约束为弹性约束，永磁轴承约束的悬挂式单自由度陀螺罗盘实质为永磁轴承约束的悬挂式二自由度陀螺罗盘。

4.The navigation data converter of ship can output gyrocompass and GPS signals after the data conversion, which just bases on gyrocompass (or GPS) input signal.

文中所设计的船舶导航数据转换器可以只依据一种导航数据，经过数据转换后输出电罗经和GPS两种信号，保证电罗经设备与GPS设备的正常工作。

5.Drag onto the page to add a gyro, gyroscope, or gyrocompass.

拖到绘图页后，可以添加回转仪、陀螺仪或回转罗盘。

6.The Marine autopilot receives signals from directional sensors such as the gyrocompass and USES them to automatically control the helm for navigation.

海洋自动驾驶仪接收，如罗盘从定向传感器的信号，并使用它们控制的自动导航掌舵。

7.The instrument made by inertia principle and used for navigation is gyrocompass.

利用惯性原理制成仪表而又是用于导航，那要算陀螺罗经了。

8.A gyrocompass is required to indicate the heading of a land, sea, or air vehicle.

陀螺被用来指示陆上的、海上的或空中的运动体的方向。

9.Represents a gyro, gyroscope, or gyrocompass.

表示回转仪、陀螺仪或回转罗盘。

10.The ship's navigation system relies heavily on the gyrocompass 陀螺罗盘 to maintain its heading.

这艘船的导航系统在保持航向时严重依赖于gyrocompass 陀螺罗盘。

11.During the storm, the captain trusted the gyrocompass 陀螺罗盘 for accurate direction.

在暴风雨中，船长信任gyrocompass 陀螺罗盘以获得准确的方向。

12.The gyrocompass 陀螺罗盘 is essential for submarines navigating underwater.

对于在水下航行的潜艇来说，gyrocompass 陀螺罗盘是必不可少的。

13.Many modern aircraft use a gyrocompass 陀螺罗盘 to ensure stable flight paths.

许多现代飞机使用gyrocompass 陀螺罗盘来确保稳定的飞行路径。

14.The accuracy of the gyrocompass 陀螺罗盘 improves navigation in remote areas.

在偏远地区，gyrocompass 陀螺罗盘的准确性提高了导航能力。

作文

The development of navigation technology has significantly transformed the way we travel and explore our world. One of the most remarkable inventions in this field is the gyrocompass, which plays a crucial role in modern navigation systems. A gyrocompass is a type of non-magnetic compass that uses a gyroscope to find true north. Unlike traditional magnetic compasses, which can be affected by nearby metal objects or magnetic fields, the gyrocompass provides a stable and reliable reference point for navigation. This makes it particularly valuable for ships and aircraft, where precision is essential. The basic principle behind a gyrocompass lies in the behavior of gyroscopes. When a gyroscope is set in motion, it tends to maintain its orientation due to the conservation of angular momentum. This characteristic allows the gyrocompass to align itself with the Earth's rotational axis, effectively pointing towards true north. This capability is especially important for navigators who require accurate heading information to plot their courses. One significant advantage of using a gyrocompass is its ability to function accurately regardless of the surrounding magnetic environment. For instance, in areas with strong magnetic interference, such as near the poles, traditional compasses can become unreliable. In contrast, the gyrocompass remains unaffected, providing consistent and dependable readings. This reliability has made it an indispensable tool for naval operations, where navigating through treacherous waters is paramount. Furthermore, the gyrocompass has evolved over time, incorporating advanced technology such as digital displays and integration with GPS systems. Modern gyrocompass units can provide real-time data, allowing navigators to make informed decisions quickly. The fusion of traditional navigation methods with cutting-edge technology exemplifies the ongoing evolution of maritime and aerial navigation. In addition to its applications in marine and aviation contexts, the gyrocompass has found its way into various other industries. For example, it is used in robotics and autonomous vehicles, where precise orientation is critical for movement and navigation. As technology continues to advance, the potential applications for the gyrocompass are expanding, opening new possibilities for exploration and travel. In conclusion, the gyrocompass represents a significant advancement in navigation technology. Its ability to provide accurate and reliable heading information, free from the limitations of magnetic interference, has made it an essential tool in various fields. As we look to the future, the continued development and integration of gyrocompass technology will undoubtedly enhance our ability to navigate the complexities of our world, whether on land, at sea, or in the air. Understanding the principles and applications of the gyrocompass not only highlights its importance in navigation but also showcases the ingenuity of human innovation in overcoming challenges associated with exploration.

导航技术的发展显著改变了我们旅行和探索世界的方式。在这个领域中，最显著的发明之一就是陀螺罗盘，它在现代导航系统中发挥着至关重要的作用。陀螺罗盘是一种非磁性罗盘，利用陀螺仪来寻找真北。与传统的磁性罗盘不同，后者可能会受到附近金属物体或磁场的影响，陀螺罗盘提供了一个稳定可靠的导航参考点。这使得它在船只和飞机中尤为重要，因为精确性至关重要。 陀螺罗盘的基本原理在于陀螺仪的行为。当陀螺仪开始运动时，由于角动量守恒，它倾向于保持其方向。这一特性使得陀螺罗盘能够与地球的旋转轴对齐，有效指向真北。这一能力对于需要准确航向信息以绘制航线的导航员而言尤为重要。 使用陀螺罗盘的一个显著优点是它能够在周围磁环境中准确工作。例如，在强磁干扰区域，如靠近极地，传统罗盘可能变得不可靠。相比之下，陀螺罗盘不受影响，提供一致且可靠的读数。这种可靠性使其成为海军作战中的不可或缺的工具，在险恶水域航行时尤为重要。 此外，陀螺罗盘随着时间的推移不断发展，融入了先进技术，如数字显示和与GPS系统的集成。现代陀螺罗盘单元可以提供实时数据，使导航员能够快速做出明智的决策。传统导航方法与尖端技术的融合彰显了海洋和航空导航的持续演变。 除了在海洋和航空领域的应用外，陀螺罗盘还进入了其他各个行业。例如，它被用于机器人和自动驾驶车辆中，在这些领域，精确的方向感对于移动和导航至关重要。随着技术的不断进步，陀螺罗盘的潜在应用正在扩大，为探索和旅行开辟新的可能性。 总之，陀螺罗盘代表了导航技术的重要进步。它提供准确可靠的航向信息，摆脱了磁干扰的限制，使其在各个领域成为必不可少的工具。展望未来，陀螺罗盘技术的持续发展和整合无疑将增强我们在陆地、海洋或空中导航复杂世界的能力。理解陀螺罗盘的原理和应用不仅突显了其在导航中的重要性，还展示了人类创新在克服探索相关挑战方面的聪明才智。