hydraulic elevator

简明释义

液压卷杨机

英英释义

例句

1.During the inspection, the technician found that the hydraulic elevator 液压电梯 was leaking oil, which required immediate repair.

在检查过程中，技术人员发现液压电梯 hydraulic elevator漏油，这需要立即修理。

2.The hydraulic elevator 液压电梯 in the shopping mall is designed to accommodate large crowds during peak hours.

购物中心的液压电梯 hydraulic elevator设计用于在高峰时段容纳大量人群。

3.To ensure safety, the hydraulic elevator 液压电梯 is equipped with emergency brakes and alarms.

为了确保安全，液压电梯 hydraulic elevator配备了紧急制动和报警系统。

4.Many residential buildings use a hydraulic elevator 液压电梯 because of its reliability and lower maintenance costs.

许多住宅楼使用液压电梯 hydraulic elevator，因为它的可靠性和较低的维护成本。

5.The new office building features a state-of-the-art hydraulic elevator 液压电梯 that provides smooth and quiet rides between floors.

这座新办公大楼配备了一部先进的液压电梯 hydraulic elevator，提供平稳安静的楼层间乘坐体验。

作文

In modern buildings, elevators have become an essential feature that enhances accessibility and convenience. Among the various types of elevators available, the hydraulic elevator (液压电梯) stands out due to its unique operational mechanism and advantages. This essay will explore the working principle, benefits, and applications of hydraulic elevators (液压电梯), demonstrating their significance in contemporary architecture.The working principle of a hydraulic elevator (液压电梯) is based on the principles of fluid mechanics. It utilizes a hydraulic system, which consists of a pump, a cylinder, and a piston. When the elevator is called to a particular floor, the pump sends hydraulic fluid into the cylinder, pushing the piston upward. This upward movement raises the elevator car to the desired level. To descend, the fluid is released back into the reservoir, allowing the piston to lower gradually. This mechanism allows for smooth and quiet operation, making hydraulic elevators (液压电梯) a popular choice in low- to mid-rise buildings.One of the main advantages of hydraulic elevators (液压电梯) is their capacity to carry heavy loads. Unlike traction elevators, which rely on cables and pulleys, hydraulic elevators (液压电梯) can handle larger weights due to the strength of the hydraulic system. This makes them particularly suitable for freight applications or buildings with high traffic demands, such as hospitals or shopping malls.Moreover, hydraulic elevators (液压电梯) are known for their reliability and low maintenance costs. The absence of complex machinery reduces the likelihood of mechanical failures, resulting in fewer service interruptions. Additionally, hydraulic systems are less prone to wear and tear compared to traditional cable systems, contributing to their longevity and cost-effectiveness.Another significant benefit of hydraulic elevators (液压电梯) is their space-saving design. Hydraulic systems do not require a machine room at the top of the shaft, which is often necessary for traction elevators. Instead, the machinery can be located at the base of the elevator shaft. This feature allows architects greater flexibility in building design, enabling them to maximize usable space while ensuring efficient vertical transportation.However, it is essential to consider some limitations of hydraulic elevators (液压电梯). One notable drawback is their speed; they are generally slower than traction elevators, making them less ideal for high-rise buildings where quick vertical travel is essential. Furthermore, hydraulic elevators may require a more extensive pit depth to accommodate the cylinder, which could pose challenges in certain construction scenarios.In conclusion, the hydraulic elevator (液压电梯) plays a vital role in enhancing mobility within modern structures. Its unique hydraulic system provides a reliable, efficient, and robust solution for transporting people and goods. While there are some limitations regarding speed and installation requirements, the benefits of hydraulic elevators (液压电梯) make them a popular choice for many low- to mid-rise buildings. As urbanization continues to rise, understanding the importance and functionality of hydraulic elevators (液压电梯) will remain crucial for architects, engineers, and building managers alike.

在现代建筑中，电梯已成为提升可达性和便利性的重要功能。在各种可用的电梯类型中，液压电梯（hydraulic elevator）因其独特的操作机制和优势而脱颖而出。本文将探讨液压电梯（hydraulic elevator）的工作原理、优点和应用，展示其在当代建筑中的重要性。液压电梯（hydraulic elevator）的工作原理基于流体力学的原理。它利用一个液压系统，该系统由泵、气缸和活塞组成。当电梯被召唤到特定楼层时，泵将液压油送入气缸，推动活塞向上移动。这种向上的运动将电梯轿厢提升到所需的高度。为了下降，液体被释放回储液箱，使活塞逐渐降低。这一机制使得液压电梯（hydraulic elevator）能够平稳安静地运行，成为低层至中层建筑的热门选择。液压电梯（hydraulic elevator）的主要优点之一是其承载重物的能力。与依赖电缆和滑轮的牵引电梯不同，液压电梯（hydraulic elevator）由于液压系统的强度，可以处理更大的重量。这使得它们特别适合用于货运应用或高交通需求的建筑，如医院或购物中心。此外，液压电梯（hydraulic elevator）以其可靠性和低维护成本而闻名。缺少复杂的机械装置减少了机械故障的可能性，从而导致服务中断较少。此外，与传统的电缆系统相比，液压系统不易磨损，延长了其使用寿命和经济性。液压电梯（hydraulic elevator）的另一个显著优势是其节省空间的设计。液压系统不需要在井道顶部设置机房，而牵引电梯通常需要。相反，机器可以位于电梯井的底部。这一特点使建筑师在建筑设计中拥有更大的灵活性，使他们能够最大化可用空间，同时确保高效的垂直运输。然而，必须考虑液压电梯（hydraulic elevator）的一些局限性。一个显著的缺点是它们的速度；通常比牵引电梯慢，因此在高层建筑中不太理想，因为快速的垂直旅行至关重要。此外，液压电梯可能需要更深的井深，以容纳气缸，这在某些施工情况下可能会带来挑战。总之，液压电梯（hydraulic elevator）在提升现代建筑内的流动性方面发挥着重要作用。其独特的液压系统为运输人和货物提供了一种可靠、高效和强大的解决方案。虽然在速度和安装要求方面存在一些限制，但液压电梯（hydraulic elevator）的好处使其成为许多低层至中层建筑的热门选择。随着城市化的不断发展，理解液压电梯（hydraulic elevator）的重要性和功能将对建筑师、工程师和建筑管理者至关重要。