spurling gate

简明释义

甲板锚链孔

英英释义

例句

1.The design of the spurling gate allows for easy adjustment of the rigging.

这个spurling gate的设计允许对索具进行简单调整。

2.To prevent accidents, always keep the area around the spurling gate clear.

为了防止事故，始终保持spurling gate周围区域的清洁。

3.During the storm, the captain ordered everyone to check the spurling gate for any damage.

在暴风雨中，船长命令大家检查spurling gate是否有任何损坏。

4.The crew practiced using the spurling gate during their training exercises.

船员们在训练演习中练习使用spurling gate。

5.The sailor carefully adjusted the ropes at the spurling gate to ensure the sail was secure.

水手小心翼翼地调整spurling gate上的绳索，以确保帆的安全。

作文

In the world of engineering and architecture, various components play crucial roles in the functionality and aesthetics of structures. One such component is the spurling gate, which is often overlooked yet serves a vital purpose in many applications. A spurling gate is a type of gate that is designed to control the flow of water or other materials, particularly in hydraulic systems. It can be found in dams, canals, and irrigation systems, where it helps regulate water levels and ensure efficient distribution. Understanding the significance of a spurling gate requires delving into its mechanics and its role in larger systems.The operation of a spurling gate is relatively straightforward. It typically consists of a hinged or sliding mechanism that opens and closes to allow or restrict the passage of water. The design may vary depending on the specific application, but the fundamental principle remains the same: to manage the flow effectively. For instance, in a dam, a spurling gate can be used to release excess water during heavy rainfall, preventing overflow and potential flooding downstream. This functionality is critical for maintaining safety and stability in water management systems.Moreover, the importance of a spurling gate extends beyond mere water control. In agricultural settings, these gates are essential for irrigation purposes. Farmers rely on spurling gates to direct water to their fields, ensuring crops receive the necessary hydration without wastage. By efficiently managing water resources, spurling gates contribute to sustainable farming practices, which are increasingly important in the face of climate change and growing populations.In addition to their practical applications, spurling gates also represent an intersection of engineering and environmental stewardship. As engineers design these gates, they must consider the ecological impact of water flow changes. For instance, altering the flow of a river can affect local wildlife habitats. Therefore, modern designs often incorporate features that minimize disruption to ecosystems while still achieving the desired control over water movement.The evolution of spurling gates has also been influenced by advancements in technology. With the integration of automated systems, these gates can now be operated remotely and adjusted in real-time based on environmental conditions. This innovation not only enhances efficiency but also reduces the need for manual intervention, thereby increasing safety for operators who would otherwise be exposed to potentially hazardous situations.In conclusion, the spurling gate is a small yet significant component in the realm of water management and engineering. Its ability to control water flow makes it indispensable in various applications, from preventing floods to facilitating irrigation. As society continues to face challenges related to water scarcity and environmental sustainability, understanding and improving the functionality of spurling gates will be crucial. Through innovative designs and technology, we can enhance the effectiveness of these gates, ensuring they meet the demands of both human needs and ecological balance. Ultimately, the humble spurling gate exemplifies how even the simplest mechanisms can have profound impacts on our environment and daily lives.

在工程和建筑的世界中，各种组件在结构的功能和美学中扮演着至关重要的角色。其中一个常被忽视的组件是spurling gate，它在许多应用中发挥着重要作用。spurling gate是一种旨在控制水流或其他材料流动的门，特别是在液压系统中。它可以在大坝、运河和灌溉系统中找到，在这些地方，它帮助调节水位并确保有效分配。理解spurling gate的重要性需要深入了解其机械原理及其在更大系统中的作用。spurling gate的操作相对简单。它通常由一个铰链或滑动机制组成，打开和关闭以允许或限制水的通过。设计可能因具体应用而异，但基本原理保持不变：有效管理流量。例如，在大坝中，spurling gate可以用于在强降雨期间释放多余的水，防止下游溢出和潜在的洪水。这一功能对于维护水管理系统的安全和稳定至关重要。此外，spurling gate的重要性不仅限于水的控制。在农业环境中，这些门对灌溉至关重要。农民依靠spurling gate将水引导到他们的田地，确保作物获得必要的水分而不浪费。通过有效管理水资源，spurling gate有助于可持续农业实践，这在气候变化和人口增长的背景下显得尤为重要。除了实际应用外，spurling gate还代表了工程与环境保护的交汇点。当工程师设计这些门时，他们必须考虑水流变化对生态的影响。例如，改变河流的流动可能会影响当地野生动物栖息地。因此，现代设计通常结合了减少生态系统干扰的特征，同时仍能实现所需的水流控制。spurling gate的演变也受到了技术进步的影响。随着自动化系统的集成，这些门现在可以远程操作，并根据环境条件实时调整。这一创新不仅提高了效率，还减少了人工干预的需求，从而增加了操作人员的安全性，因为他们将不再暴露于潜在的危险情况中。总之，spurling gate是水管理和工程领域中一个小而重要的组成部分。它控制水流的能力使其在各种应用中不可或缺，从防止洪水到促进灌溉。随着社会继续面临与水资源短缺和环境可持续性相关的挑战，理解和改善spurling gate的功能将至关重要。通过创新设计和技术，我们可以提高这些门的有效性，确保它们满足人类需求和生态平衡的要求。最终，谦逊的spurling gate体现了即使是最简单的机制也能对我们的环境和日常生活产生深远的影响。