compensating binnacle

简明释义

补偿罗经柜

英英释义

例句

1.During the storm, the compensating binnacle helped maintain the ship's course despite the heavy winds.

在暴风雨中，补偿舵架帮助船只在强风中保持航向。

2.The sailor adjusted the compass inside the compensating binnacle to ensure accurate navigation.

水手调整了补偿舵架内的指南针，以确保导航的准确性。

3.The compensating binnacle was designed to minimize errors caused by nearby metal objects.

该补偿舵架旨在最小化附近金属物体造成的误差。

4.The technician explained how the compensating binnacle corrects magnetic deviations.

技术人员解释了补偿舵架如何纠正磁偏差。

5.A well-calibrated compensating binnacle is essential for safe maritime operations.

一个经过良好校准的补偿舵架对于安全的海上操作至关重要。

作文

In the vast world of navigation, precision is paramount. One of the critical components that ensure navigators can accurately determine their course is the compensating binnacle. A compensating binnacle is a device used to house and protect magnetic compasses from external magnetic fields that could distort their readings. It serves as an essential tool for sailors and pilots alike, allowing them to maintain a steady and accurate heading even in challenging conditions.The importance of a compensating binnacle cannot be overstated. In maritime navigation, where the stakes are high, any error in compass reading can lead to disastrous consequences. For instance, if a ship's compass is influenced by nearby metal structures or electronic devices, it may show incorrect directions, leading the vessel off course. This is where the compensating binnacle comes into play, as it is designed to minimize these errors by compensating for magnetic interference.To understand how a compensating binnacle works, one must first grasp the fundamental principles of magnetism. The Earth itself acts as a giant magnet, with its magnetic field influencing compass needles. However, man-made objects can create additional magnetic fields, which can confuse the compass. The compensating binnacle uses specific materials and design features to counteract these disturbances. By carefully positioning the compass within the binnacle and using compensating magnets, navigators can ensure that their readings remain true.Moreover, the construction of a compensating binnacle is crucial. It is typically made from non-magnetic materials to prevent interference. The binnacle is often mounted on a gimbal system, allowing it to remain level regardless of the ship's movements. This stability is vital because a tilted compass can lead to further inaccuracies. The design also includes a glass cover to protect the compass from water and debris while allowing for easy visibility.In addition to its protective features, the compensating binnacle also facilitates adjustments. Navigators can calibrate the compass within the binnacle to account for any local magnetic anomalies. This adjustment process is essential for ensuring the accuracy of the compass over time, especially in areas known for magnetic irregularities.As technology advances, the role of the compensating binnacle has evolved, but its core purpose remains unchanged. Modern vessels may use electronic navigation systems, yet the traditional magnetic compass housed in a binnacle is still relevant. Many seasoned sailors prefer the reliability of a magnetic compass, especially in situations where electronic systems may fail due to power loss or other issues.In conclusion, the compensating binnacle is a vital instrument in navigation, providing a reliable means of determining direction amidst various challenges. Its ability to compensate for magnetic interference ensures that navigators can trust their compass readings, ultimately guiding them safely to their destinations. Understanding and appreciating the function of a compensating binnacle highlights the intricate relationship between technology and traditional navigation methods, showcasing the enduring importance of this remarkable device in the ever-changing landscape of exploration and travel.

在广阔的导航世界中，精确性至关重要。确保导航员能够准确确定航向的关键组件之一就是补偿舵台。补偿舵台是一种用于容纳和保护磁罗盘免受外部磁场影响的设备，这些外部磁场可能会扭曲其读数。它是水手和飞行员的重要工具，使他们能够在挑战性条件下保持稳定和准确的航向。补偿舵台的重要性不容小觑。在海洋导航中，风险很高，任何罗盘读数的错误都可能导致灾难性的后果。例如，如果船只的罗盘受到附近金属结构或电子设备的影响，它可能会显示不正确的方向，导致船只偏离航线。这就是补偿舵台发挥作用的地方，因为它旨在通过补偿磁干扰来最小化这些错误。要理解补偿舵台的工作原理，首先必须掌握磁学的基本原理。地球本身就像一个巨大的磁体，其磁场影响着罗盘针。然而，人造物体可以产生额外的磁场，可能会混淆罗盘。补偿舵台使用特定材料和设计特征来抵消这些干扰。通过精确地将罗盘放置在舵台内并使用补偿磁铁，导航员可以确保他们的读数保持真实。此外，补偿舵台的构造也至关重要。它通常由非磁性材料制成，以防止干扰。舵台通常安装在万向节系统上，使其无论船只如何移动都能保持水平。这种稳定性至关重要，因为倾斜的罗盘可能导致进一步的不准确。设计还包括一个玻璃罩，以保护罗盘免受水和碎屑的侵害，同时便于观察。除了保护功能外，补偿舵台还便于进行调整。导航员可以校准舵台内的罗盘，以考虑任何局部磁异常。这一调整过程对于确保罗盘随时间的准确性至关重要，尤其是在已知磁不规则的区域。随着科技的发展，补偿舵台的角色也在不断演变，但其核心目的保持不变。现代船只可能使用电子导航系统，但传统的装在舵台中的磁罗盘仍然相关。许多经验丰富的水手更喜欢磁罗盘的可靠性，特别是在电子系统可能因断电或其他问题而失效的情况下。总之，补偿舵台是导航中的一个重要仪器，提供了一种可靠的方式来确定方向，尽管面临各种挑战。它补偿磁干扰的能力确保导航员可以信任他们的罗盘读数，最终安全引导他们到达目的地。理解和欣赏补偿舵台的功能突显了技术与传统导航方法之间复杂的关系，展示了这一卓越设备在探索和旅行不断变化的背景下的持久重要性。