slewing

简明释义

[ˈsluːɪŋ][ˈsluːɪŋ]

n. (电子)回转,转换;快速定向

英英释义

The act of turning or rotating something, often used in the context of machinery or equipment.

转动或旋转某物的行为,通常用于机械或设备的上下文中。

In navigation, the process of changing the direction of a vessel or vehicle.

在导航中,改变船舶或车辆方向的过程。

单词用法

slewing bearing

回转支承轴承

slewing ring

回转环;旋转圈

同义词

turning

转动

The machine is turning to adjust its position.

机器正在转动以调整位置。

pivoting

旋转

The camera is pivoting to capture the entire scene.

相机正在旋转以捕捉整个场景。

swiveling

旋转

The chair is swiveling for easier access.

椅子正在旋转以便于获取。

rotating

旋转

The wheel is rotating smoothly on the axle.

轮子在轴上平稳地旋转。

反义词

steady

稳定的

The camera remained steady while taking the picture.

拍照时相机保持稳定。

fixed

固定的

He fixed the painting to the wall securely.

他将画 securely 固定在墙上。

stationary

静止的

The vehicle was stationary at the traffic light.

车辆在红绿灯前静止不动。

例句

1.The measures to control construction quality are analyzed, which are used to drill deep holes with normal circulation slewing drilling machine.

分析了正循环回转钻深孔施工的施工方法和要点,提出了施工监理的监理质量控制点及注意事项。

2.Due to their design, these slewing rings can transmit radial and axial loads as well as tilting moments.

由于其设计,这些回转环可以传输径向和轴向负载以及倾斜的时刻。

3.The model is analyzed optimatically and the material used for the slewing platform is saved.

长期以来对回转平台的设计、研究仍基于类比或手工计算 ,得出的结果有一定的局?。

4.Steel structures are jib and A-frame, slewing platform and gantry frame.

钢结构构造简单,主要有臂架、人字架、回转平台以及门架组成。

5.There are hoisting mechanism of crane, slewing mechanism, the luffing mechanism and metal structure selection in this article.

设计主要包括起重机的起升机构、回转机构,变幅机构及金属结构的选择。

6.Komatsu rotary reducer, slewing ring, rotary motor, engine four supporting etc pure accessories.

小松回转减速箱、回转支承、回转马达、发动机四配套等纯正配件。

7.It is used for the crane slewing bearing.

这是用于起重机的回转支承。

8.The crane is slewing to position the load over the truck.

起重机正在旋转以将负载定位在卡车上。

9.During the storm, the ship started slewing uncontrollably in the rough seas.

在暴风雨中,船只开始在恶劣的海况下偏转失控。

10.The camera is slewing to follow the action on the field.

摄像机正在旋转以跟踪场上的动作。

11.The robot arm is slewing to pick up the next part in the assembly line.

机器人手臂正在旋转以拾取装配线上的下一个部件。

12.The operator is slewing the telescope to get a better view of the stars.

操作员正在调整望远镜以更好地观察星星。

作文

In the world of engineering and construction, the term slewing (旋转) is often used to describe the action of rotating something around a fixed point. This concept is crucial in various applications, from cranes lifting heavy loads to the movement of telescopes tracking celestial bodies. Understanding slewing is essential for professionals in these fields, as it directly impacts efficiency and safety during operations.One of the most common examples of slewing can be observed in crane operations. Cranes are designed to lift and move heavy objects, and their ability to slewing (旋转) is what allows them to reach different angles and positions without needing to relocate the entire machine. For instance, when a crane operator needs to place a beam on a building, they will use the slewing mechanism to rotate the boom and position the load accurately. This capability not only saves time but also ensures that the load is placed precisely where it is needed.Another area where slewing plays a vital role is in the field of astronomy. Telescopes often need to track moving celestial objects, such as planets and stars, as the Earth rotates. This is achieved through a process called slewing (旋转), where the telescope adjusts its position to follow the object of interest across the night sky. Without the ability to slewing, astronomers would struggle to keep their targets in view, making it difficult to gather data and make observations.The importance of slewing extends beyond just the mechanics of machinery; it also has implications for safety. For example, if a crane operator does not understand how to properly utilize the slewing function, they might inadvertently swing a load into an obstacle or, worse, a person. Therefore, training and understanding the principles of slewing (旋转) are critical components of operating heavy machinery safely.Moreover, in robotics, the concept of slewing is equally significant. Robots often need to rotate their arms or tools to perform tasks effectively. For instance, a robotic arm in a manufacturing plant may need to slewing (旋转) to pick up components from different angles, ensuring that the assembly line runs smoothly. Engineers must design these robotic systems with precise slewing capabilities to maximize productivity and minimize errors.In conclusion, the term slewing (旋转) encompasses a wide range of applications across various fields, including construction, astronomy, and robotics. Its significance cannot be overstated, as it directly influences the efficiency, accuracy, and safety of operations. Whether it’s a crane lifting a heavy load, a telescope tracking a distant star, or a robot assembling products, the ability to slewing is a fundamental aspect that professionals must master. As technology continues to evolve, understanding and improving slewing mechanisms will remain a critical focus for engineers and operators alike.

在工程和建筑的世界中,术语slewing(旋转)通常用于描述围绕固定点旋转某物的动作。这个概念在各种应用中至关重要,从起重机提升重物到望远镜追踪天体。理解slewing对这些领域的专业人士来说至关重要,因为它直接影响操作的效率和安全。slewing(旋转)的一个最常见的例子可以在起重机操作中观察到。起重机被设计用来提升和移动重物,而它们的slewing能力使它们能够在不需要移动整个机器的情况下达到不同的角度和位置。例如,当起重机操作员需要将一根梁放置在建筑物上时,他们会使用slewing机制来旋转吊臂并准确定位负载。这种能力不仅节省了时间,而且确保负载被精确放置在所需的位置。slewing在天文学领域同样发挥着重要作用。望远镜常常需要追踪移动的天体,如行星和恒星,因为地球在自转。这是通过一种称为slewing(旋转)的过程实现的,望远镜调整其位置以跟随感兴趣的对象穿过夜空。如果没有slewing的能力,天文学家将很难保持目标在视野中,这使得收集数据和进行观察变得困难。slewing的重要性超越了机械的原理;它也对安全产生了影响。例如,如果起重机操作员不理解如何正确利用slewing功能,他们可能会不小心将负载摆动到障碍物或更糟糕的是,撞到人。因此,培训和理解slewing(旋转)的原理是安全操作重型机械的关键组成部分。此外,在机器人技术中,slewing的概念同样重要。机器人常常需要旋转其臂或工具以有效执行任务。例如,制造工厂中的机器人手臂可能需要slewing(旋转)以从不同角度拾取组件,确保装配线顺利运行。工程师必须设计这些机器人系统,以具有精确的slewing能力,以最大化生产力并最小化错误。总之,术语slewing(旋转)涵盖了各个领域的广泛应用,包括建筑、天文学和机器人技术。它的重要性不可低估,因为它直接影响操作的效率、准确性和安全性。无论是起重机提升重物、望远镜追踪遥远的星星,还是机器人组装产品,slewing的能力都是专业人士必须掌握的基本方面。随着技术的不断发展,理解和改进slewing机制将继续成为工程师和操作员关注的关键焦点。