swinging radius
简明释义
工作半径
英英释义
例句
1.Operators should always check the swinging radius (摆动半径) before moving heavy machinery.
操作员在移动重型机械之前应始终检查swinging radius (摆动半径)。
2.The swinging radius (摆动半径) of the excavator can extend into pedestrian areas, so barriers were set up.
挖掘机的swinging radius (摆动半径)可能会延伸到行人区域,因此设置了障碍物。
3.Before starting the operation, the team marked the swinging radius (摆动半径) on the ground for safety.
在开始操作之前,团队在地面上标记了swinging radius (摆动半径)以确保安全。
4.The crane operator must be aware of the swinging radius (摆动半径) to avoid hitting nearby structures.
起重机操作员必须注意
5.Understanding the swinging radius (摆动半径) is crucial for preventing accidents on the job site.
理解swinging radius (摆动半径)对于防止工地上的事故至关重要。
作文
In the world of engineering and machinery, understanding the concept of the swinging radius is crucial for ensuring safety and efficiency. The term swinging radius refers to the distance from a pivot point to the outer edge of an object that is capable of rotating or swinging around that point. This concept is particularly important in the design and operation of cranes, excavators, and other heavy equipment, where the movement of the machine can pose risks to nearby workers and structures.When operating machinery with a significant swinging radius, it is essential to consider the space required for safe operation. For instance, cranes have a large swinging radius due to their boom's ability to rotate. Operators must be aware of this radius to prevent accidents and ensure that no obstacles are within the swing path of the crane. Proper site planning includes marking the swinging radius on the ground to alert workers about the potential danger zone.Additionally, the swinging radius has implications for the stability of the equipment being used. A larger swinging radius can increase the risk of tipping over, especially if the load being lifted is not balanced. Therefore, engineers must calculate the swinging radius when designing equipment to ensure that it can operate safely without compromising stability.In construction projects, understanding the swinging radius also aids in coordinating multiple machines working in close proximity. For example, if two cranes are operating near each other, their respective swinging radii must be considered to avoid collisions. Effective communication among operators and clear signage about the swinging radius can help mitigate risks associated with overlapping work areas.Moreover, the swinging radius is not limited to just cranes and excavators; it also applies to various other tools and machines. For instance, a chainsaw has a swinging radius related to the length of its blade and the arc it can cut. Understanding this radius helps users maintain a safe distance from others while operating the tool, preventing accidental injuries.In conclusion, the swinging radius is a vital concept in many fields, particularly in construction and machinery operation. Its significance lies in promoting safety, enhancing efficiency, and ensuring proper coordination among different equipment. By understanding and respecting the swinging radius, operators and engineers can significantly reduce the likelihood of accidents and create a safer working environment. As technology continues to evolve, the importance of accurately calculating and communicating the swinging radius will remain a cornerstone of safe and effective machinery operation.
在工程和机械的世界中,理解“摆动半径”的概念对于确保安全和效率至关重要。术语摆动半径指的是从一个支点到能够围绕该点旋转或摆动的物体外边缘的距离。这个概念在起重机、挖掘机和其他重型设备的设计和操作中尤为重要,因为机器的运动可能对附近的工人和建筑物构成风险。在操作具有显著摆动半径的机械时,考虑安全操作所需的空间至关重要。例如,由于起重机的臂杆可以旋转,它们具有较大的摆动半径。操作员必须意识到这一半径,以防止事故发生,并确保没有障碍物在起重机的摆动路径内。适当的现场规划包括在地面上标记摆动半径,以提醒工人潜在的危险区域。此外,摆动半径对所使用设备的稳定性也有影响。较大的摆动半径可能会增加倾覆的风险,尤其是当被提升的负载不平衡时。因此,工程师在设计设备时必须计算摆动半径,以确保其在不影响稳定性的情况下安全操作。在建筑项目中,理解摆动半径还有助于协调在近距离工作中的多台机器。例如,如果两台起重机在彼此附近操作,则必须考虑它们各自的摆动半径以避免碰撞。操作员之间有效的沟通以及关于摆动半径的清晰标识可以帮助减轻与重叠工作区域相关的风险。此外,摆动半径不仅限于起重机和挖掘机;它还适用于各种其他工具和机器。例如,链锯的摆动半径与其刀片的长度及其可以切割的弧度相关。理解这一半径有助于用户在操作工具时与他人保持安全距离,防止意外伤害。总之,摆动半径是许多领域的重要概念,特别是在建筑和机械操作中。它的重要性在于促进安全、提高效率,并确保不同设备之间的适当协调。通过理解和尊重摆动半径,操作员和工程师可以显著降低事故的可能性,并创造一个更安全的工作环境。随着技术的不断发展,准确计算和传达摆动半径的重要性将继续成为安全和有效机械操作的基石。
相关单词
