hydraulic support

简明释义

液压支架

英英释义

例句

1.The mining operation implemented hydraulic support systems to ensure the safety of the miners.

该矿业操作实施了液压支撑系统以确保矿工的安全。

2.The bridge was reinforced with hydraulic support to handle heavy traffic loads.

这座桥通过液压支撑加固，以承受重型交通负荷。

3.The construction team relied on hydraulic support to stabilize the foundation of the building.

施工团队依靠液压支撑来稳定建筑物的基础。

4.Engineers designed a new type of hydraulic support that can withstand extreme pressures.

工程师设计了一种新型的液压支撑，能够承受极端压力。

5.During the excavation, workers used hydraulic support to prevent soil collapse.

在挖掘过程中，工人们使用液压支撑以防止土壤塌方。

作文

In modern engineering, the term hydraulic support refers to a system that utilizes fluid mechanics to provide stability and strength to various structures. This technology is particularly prevalent in construction and mining industries, where heavy loads and dynamic forces are commonplace. The basic principle behind hydraulic support is simple yet effective: by using pressurized fluid, these systems can exert force in multiple directions, allowing for greater control and safety during operations. One of the most notable applications of hydraulic support is in underground mining. Miners often work in environments where the ground can be unstable due to the removal of material. To combat this challenge, hydraulic support systems are employed to prop up the ceilings of tunnels, preventing collapses and ensuring the safety of workers. These supports can be adjusted dynamically, responding to changes in pressure and load, which enhances their effectiveness. Moreover, hydraulic support is not limited to mining; it is also widely used in construction projects. For instance, when digging deep foundations for skyscrapers, builders use hydraulic support systems to stabilize the sides of the excavation. This not only protects workers but also minimizes the risk of damage to nearby structures. The versatility of hydraulic support makes it an invaluable tool in the construction industry, where safety and efficiency are paramount. The technology behind hydraulic support has evolved significantly over the years. Originally, these systems were manually operated, requiring significant labor and time to adjust the supports as conditions changed. However, with advancements in technology, many modern hydraulic support systems are now automated. Sensors can monitor the pressure and stability of the surrounding environment, allowing for real-time adjustments without human intervention. This not only increases safety but also improves overall productivity on job sites. In addition to its practical applications, the use of hydraulic support also has environmental implications. By providing better support for structures, these systems can reduce the amount of material needed for construction, leading to less waste and lower resource consumption. Furthermore, by stabilizing the ground, hydraulic support can help prevent erosion and other environmental issues that can arise from mining and construction activities. In conclusion, the role of hydraulic support in modern engineering cannot be overstated. Its ability to provide stability and safety in challenging environments makes it an essential component in both mining and construction. As technology continues to advance, we can expect to see even more innovative applications of hydraulic support, further enhancing its importance in the engineering field. Understanding and mastering the concept of hydraulic support will not only benefit professionals in these industries but also contribute to safer and more sustainable practices in engineering as a whole.

在现代工程中，术语液压支撑指的是一种利用流体力学为各种结构提供稳定性和强度的系统。这项技术在建筑和采矿行业尤为普遍，因为在这些领域，重负荷和动态力量是常见的。液压支撑的基本原理简单而有效：通过使用加压流体，这些系统可以在多个方向施加力量，从而在操作过程中实现更大的控制和安全性。液压支撑的一个显著应用是在地下采矿中。矿工们通常在由于物料移除而可能不稳定的环境中工作。为了解决这个挑战，采用液压支撑系统来支撑隧道的天花板，防止坍塌，确保工人的安全。这些支撑可以动态调整，响应压力和负载的变化，从而增强其有效性。此外，液压支撑不仅限于采矿；它在建筑项目中也被广泛使用。例如，在为摩天大楼挖掘深基础时，建筑商使用液压支撑系统来稳定挖掘的侧面。这不仅保护了工人，还最小化了对附近建筑物的损害风险。液压支撑的多功能性使其成为建筑行业中不可或缺的工具，在这里，安全和效率至关重要。液压支撑背后的技术多年来经历了显著的发展。最初，这些系统是手动操作的，需要大量的劳动力和时间来根据条件的变化调整支撑。然而，随着技术的进步，许多现代液压支撑系统现在已实现自动化。传感器可以监测周围环境的压力和稳定性，从而实现实时调整，无需人工干预。这不仅提高了安全性，还提高了工地的整体生产力。除了其实际应用外，使用液压支撑还有环境影响。通过为结构提供更好的支撑，这些系统可以减少建筑所需材料的数量，从而导致更少的废物和更低的资源消耗。此外，通过稳定地面，液压支撑可以帮助防止侵蚀和其他可能因采矿和建筑活动而产生的环境问题。总之，液压支撑在现代工程中的作用不可低估。它在困难环境中提供稳定性和安全性的能力使其成为采矿和建筑中必不可少的组成部分。随着技术的不断进步，我们可以期待看到更多创新的液压支撑应用，进一步增强其在工程领域的重要性。理解和掌握液压支撑的概念不仅将使这些行业的专业人士受益，还将有助于在整个工程中实现更安全和更可持续的实践。