lattice boom

简明释义

笼格吊杆

英英释义

例句

1.For this project, we will need a crane equipped with a long lattice boom to reach the upper floors.

对于这个项目，我们需要一台配备长格构臂的起重机，以便到达上层。

2.A lattice boom allows for greater reach and stability when working on tall structures.

格构臂在高层建筑作业时能提供更大的伸展和稳定性。

3.During the inspection, we noticed that the lattice boom was showing signs of wear and tear.

在检查中，我们注意到格构臂出现了磨损的迹象。

4.The operator skillfully maneuvered the crane with the lattice boom to position the load accurately.

操作员熟练地操控着带有格构臂的起重机，准确地定位负载。

5.The construction crew used a crane with a lattice boom to lift heavy steel beams into place.

施工队使用带有格构臂的起重机将重型钢梁吊装到位。

作文

The construction industry has evolved significantly over the years, introducing various innovations that enhance efficiency and safety on job sites. One such innovation is the use of the lattice boom, a type of crane structure that has become essential in modern construction projects. Understanding the significance of the lattice boom can provide insights into how construction techniques have progressed and the benefits they bring to both workers and project outcomes.A lattice boom is characterized by its crisscrossed framework, which allows for a lightweight yet strong structure. This design not only reduces the overall weight of the crane but also enhances its lifting capacity. In contrast to solid boom cranes, the lattice boom provides greater stability and flexibility, making it an ideal choice for lifting heavy materials in challenging environments. For example, when constructing tall buildings or bridges, the ability to lift heavy steel beams with precision is crucial, and the lattice boom excels in this regard.One of the most significant advantages of using a lattice boom crane is its versatility. These cranes can be used in various applications, from construction to industrial maintenance. Their design allows them to operate in confined spaces where traditional cranes may struggle. This adaptability is particularly important in urban areas, where space is often limited, and construction must proceed without disrupting surrounding activities.Moreover, the lattice boom contributes to enhanced safety on construction sites. The open design of the lattice structure allows for better visibility, enabling operators to see their surroundings more clearly. This increased visibility minimizes the risk of accidents caused by blind spots, which are common in other types of cranes. Additionally, the lightweight nature of the lattice boom reduces the overall load on the crane's base, decreasing the likelihood of tipping or structural failure during operation.Another aspect worth noting is the economic benefits associated with the use of lattice boom cranes. Due to their efficiency and ability to lift heavy loads without requiring extensive counterweights, these cranes can save time and reduce labor costs on construction projects. Faster project completion times translate to lower overall expenses, which is a significant consideration for contractors and developers.In conclusion, the lattice boom represents a remarkable advancement in crane technology that has transformed the construction landscape. Its unique design offers a combination of strength, stability, and versatility, making it a preferred choice for many construction projects. As the industry continues to evolve, the importance of understanding and utilizing innovations like the lattice boom will remain paramount for achieving success in increasingly complex construction environments. By embracing such advancements, we can ensure safer, more efficient, and economically viable construction practices that benefit everyone involved.

建筑行业随着时间的推移发生了显著变化，引入了各种创新，提升了工地上的效率和安全性。其中一种创新是使用格子臂，这是一种在现代建筑项目中变得至关重要的起重机结构。理解格子臂的重要性可以让我们深入了解建筑技术的进步以及它们为工人和项目成果带来的好处。格子臂的特点是其交叉的框架，这使得它能够形成轻量而坚固的结构。这种设计不仅减少了起重机的整体重量，还增强了其起重能力。与实心臂起重机相比，格子臂提供更大的稳定性和灵活性，使其成为在困难环境中提升重物的理想选择。例如，在建造高楼大厦或桥梁时，以精确的方式提升重型钢梁的能力至关重要，而格子臂在这方面表现出色。使用格子臂起重机的一个显著优势是其多功能性。这些起重机可用于各种应用，从建筑到工业维护。它们的设计使它们能够在传统起重机可能面临困难的狭小空间内操作。这种适应性在城市地区尤为重要，因为空间通常有限，建设必须在不干扰周围活动的情况下进行。此外，格子臂有助于提高建筑工地的安全性。格子结构的开放设计允许更好的视野，使操作员能够更清楚地看到周围环境。这种增强的可见性减少了由于盲区导致的事故风险，这在其他类型的起重机中很常见。此外，格子臂的轻量特性减少了起重机基座上的整体负荷，降低了在操作过程中倾斜或结构失败的可能性。另一个值得注意的方面是与使用格子臂起重机相关的经济效益。由于其高效性和在不需要大量配重的情况下提升重物的能力，这些起重机可以节省时间并减少建筑项目中的人工成本。更快的项目完成时间意味着总体支出降低，这对承包商和开发商而言是一个重要考虑因素。总之，格子臂代表了起重机技术的显著进步，改变了建筑领域。其独特的设计提供了强度、稳定性和多功能性的结合，使其成为许多建筑项目的首选。随着行业的不断发展，理解和利用像格子臂这样的创新的重要性将始终是实现日益复杂的建筑环境中成功的关键。通过拥抱这些进步，我们可以确保更安全、更高效和经济可行的建筑实践，从而使所有参与者受益。