hoisting capacity

简明释义

卷杨能力

英英释义

例句

1.Always ensure that the load does not exceed the hoisting capacity specified by the manufacturer.

始终确保负载不超过制造商规定的起重能力。

2.The crane has a hoisting capacity of 10 tons, making it suitable for heavy construction work.

这台起重机的起重能力为10吨，非常适合重型建筑工作。

3.Before starting the job, we need to verify the hoisting capacity of the lift.

在开始工作之前，我们需要确认电梯的起重能力。

4.The new model of the forklift has an increased hoisting capacity compared to the previous version.

这款新型号的叉车与之前版本相比，具有更高的起重能力。

5.During the inspection, we found that the hoisting capacity label was damaged.

在检查中，我们发现起重能力标签被损坏了。

作文

In the world of construction and heavy machinery, understanding the concept of hoisting capacity is crucial for ensuring safety and efficiency on job sites. The term hoisting capacity refers to the maximum weight that a crane or lifting device can safely lift. This measurement is vital because exceeding this limit can lead to catastrophic failures, resulting in damage to equipment, injury to workers, or even loss of life. Therefore, operators must be well-versed in the specifications of their equipment and the hoisting capacity it offers.When selecting a crane for a particular job, one must consider various factors that influence the hoisting capacity. These include the type of materials being lifted, the height they need to be lifted to, and the distance they will be moved. For instance, a crane with a high hoisting capacity may be required for lifting heavy steel beams, while a smaller crane might suffice for lighter materials. Additionally, environmental conditions such as wind speed and ground stability can also affect a crane's hoisting capacity, necessitating careful planning and assessment before commencing any lifting operations.Moreover, different types of cranes have varying hoisting capacities. For example, tower cranes, commonly used in tall building construction, typically have a high hoisting capacity due to their design and structural support. On the other hand, mobile cranes offer versatility but may have lower hoisting capacities depending on their configuration and the load radius. Understanding these differences helps project managers choose the right crane for their specific needs, thus optimizing both safety and productivity.Training and certification for crane operators are essential components of maintaining safety standards related to hoisting capacity. Operators must be trained to understand not only how to operate the crane but also how to calculate the hoisting capacity based on the load they are lifting. This includes knowing how to read load charts, which provide critical information about the maximum loads that can be lifted at various distances and angles. By adhering to these guidelines, operators can minimize the risk of accidents and ensure that lifting operations are conducted smoothly.In conclusion, the importance of hoisting capacity in construction cannot be overstated. It plays a pivotal role in the planning and execution of lifting operations, directly impacting the safety of workers and the integrity of the project. As construction projects become increasingly complex, understanding and adhering to hoisting capacity guidelines will be paramount for engineers, project managers, and crane operators alike. Proper training, careful selection of equipment, and diligent planning are all necessary to navigate the challenges associated with lifting heavy loads. Ultimately, a thorough grasp of hoisting capacity can lead to successful project outcomes and a safer working environment for everyone involved.

在建筑和重型机械的世界中，理解起重能力的概念对于确保工地的安全和效率至关重要。术语起重能力指的是起重机或提升设备可以安全提升的最大重量。这一测量非常重要，因为超过这一限制可能导致灾难性的故障，造成设备损坏、工人受伤甚至生命丧失。因此，操作员必须熟悉其设备的规格以及它提供的起重能力。在选择适合特定工作的起重机时，必须考虑影响起重能力的各种因素。这些因素包括被提升材料的类型、需要提升的高度以及移动的距离。例如，提升重型钢梁可能需要具有高起重能力的起重机，而较轻的材料可能只需小型起重机。此外，风速和地面稳定性等环境条件也会影响起重机的起重能力，因此在开始任何提升操作之前，必须进行仔细的规划和评估。此外，不同类型的起重机具有不同的起重能力。例如，塔式起重机通常用于高层建筑施工，由于其设计和结构支撑，通常具有较高的起重能力。另一方面，移动起重机提供了多功能性，但根据其配置和负载半径，可能具有较低的起重能力。理解这些差异有助于项目经理为其特定需求选择合适的起重机，从而优化安全性和生产力。起重机操作员的培训和认证是维护与起重能力相关的安全标准的重要组成部分。操作员必须接受培训，不仅要了解如何操作起重机，还要了解如何根据所提升的负载计算起重能力。这包括知道如何阅读负载图，这些图表提供了关于在各种距离和角度下可以提升的最大负载的关键信息。通过遵循这些指南，操作员可以最大限度地减少事故风险，确保提升操作顺利进行。总之，起重能力在建筑中的重要性不容小觑。它在提升操作的规划和执行中发挥着关键作用，直接影响工人的安全和项目的完整性。随着建筑项目变得越来越复杂，理解和遵循起重能力指南对于工程师、项目经理和起重机操作员来说将是至关重要的。适当的培训、设备的仔细选择和勤勉的规划都是应对与提升重型负载相关的挑战所必需的。最终，对起重能力的透彻理解可以导致成功的项目结果，并为所有参与者创造一个更安全的工作环境。