bushings

简明释义

英[ˈbʌʃɪŋz]美[ˈbʌʃɪŋz]

n. [电]套管；轴衬；支架避震组（bushing 的复数形式）

英英释义

单词用法

同义词

反义词

例句

1.Guide rods are supported by specially designed guide bushings providing optimum support of dynamic loads.

导杆的支持，特别设计的指导，提供最佳的动态负载支持轴套。

2.By turning a pair of composite eccentric bushings in the chassis and top deck, you can move the complete assembly forward or backward.

把一对复合偏心轴套在底盘和顶部甲板上，您可以提出完整的大会，向前或向后。

3.While pulling the BHA through the rotary table, the Driller must stop when stabilisers reach the table and have the Floormen remove the bushings.

当起钻到BHA，扶正器到达钻盘面时，司钻必须刹住刹把，让钻工移开方补心。

4.The linear bushings and linear sets of the eLINE series are supplied in a clearance-free configuration.

线性衬套和埃利纳系列线性集提供了无间隙的配置。

5.Recommended for use on aluminum conduit, bolts, bushings, fittings, flanges, nuts, pipes, plugs and screws.

推荐使用在铝管、螺栓、套管、配件、法兰盘、螺母、管线、塞子和螺丝。

6.They include a wider track front and rear, suspension knuckles that lower the roll center, larger anti-roll bars, and revised bushings and shocks.

这些措施包括更广泛的轨道前方和后方，暂停关节，降低轧辊中心，大型防倾杆，并修订衬套和冲击。

7.Bushings (4) : Furnishes shaft support at three locations for positive shaft alignment and actuator support.

衬套(4)：在三个位置上配置轴支撑，有利于轴校直和执行机构的支撑。

8.The mechanic replaced the worn-out bushings in the suspension system to improve the ride quality.

机械师更换了悬挂系统中磨损的衬套以改善乘坐质量。

9.In manufacturing, bushings are essential for reducing friction between moving parts.

在制造业中，衬套对于减少运动部件之间的摩擦至关重要。

10.The engineer specified high-temperature bushings for the furnace application.

工程师为炉子应用指定了高温衬套。

11.Replacing the bushings in the conveyor system can lead to increased efficiency.

更换输送系统中的衬套可以提高效率。

12.The bicycle's frame was creaking due to worn bushings that needed lubrication.

由于需要润滑的磨损衬套，自行车的车架发出了吱吱声。

作文

In the world of machinery and engineering, precision and efficiency are paramount. One often overlooked component that plays a crucial role in achieving these goals is the bushings. These small yet significant parts are designed to reduce friction between moving parts, providing a smoother operation and extending the lifespan of machinery. A bushing is essentially a cylindrical lining that fits into a hole or around a shaft, serving as a protective barrier and facilitating movement. Without bushings, metal components would wear down much faster due to direct contact, leading to increased maintenance costs and downtime. There are various types of bushings, including plain, flanged, and spherical designs, each serving different applications depending on the mechanical requirements. For instance, plain bushings are commonly used in applications where there is a need for simple rotational motion. They are typically made from materials such as bronze, plastic, or rubber, which help to absorb shock and reduce noise. On the other hand, flanged bushings have a lip or flange that helps to keep them in place, making them ideal for applications where axial loads are present. The importance of bushings can be seen in various industries, from automotive to aerospace. In vehicles, bushings are used in suspension systems to provide flexibility and comfort while driving. They allow for smooth movement of the suspension components, ensuring that the vehicle can handle bumps and uneven surfaces without compromising stability. Similarly, in aerospace applications, bushings are critical in ensuring that moving parts of an aircraft operate smoothly, which is vital for safety and performance. Moreover, the selection of the right type of bushing is essential for optimal performance. Engineers must consider factors such as load capacity, operating temperature, and environmental conditions when choosing bushings for a specific application. For example, in high-temperature environments, materials like ceramic or specialized polymers may be preferred due to their ability to withstand extreme conditions without degrading. In conclusion, while bushings may seem like minor components in the grand scheme of machinery and engineering, their role is undeniably significant. They enhance performance, reduce wear and tear, and ultimately contribute to the longevity and reliability of various mechanical systems. Understanding the function and types of bushings can lead to better design choices and improved operational efficiency, making them an essential topic for anyone involved in engineering or manufacturing. As we continue to innovate and develop new technologies, the importance of bushings will undoubtedly remain a key consideration in the pursuit of excellence in mechanical design.

在机械和工程的世界中，精确和效率至关重要。一个常被忽视但又发挥着关键作用的组成部分就是bushings。这些小而重要的部件旨在减少运动部件之间的摩擦，提供更平滑的操作并延长机械的使用寿命。bushing基本上是一个圆柱形衬里，适合于孔或轴周围，作为保护屏障并促进运动。如果没有bushings，金属部件将因直接接触而更快磨损，从而导致维护成本和停机时间增加。 有多种类型的bushings，包括普通型、法兰型和球形设计，每种设计根据机械要求服务于不同的应用。例如，普通bushings通常用于需要简单旋转运动的应用。它们通常由青铜、塑料或橡胶等材料制成，帮助吸收冲击并减少噪音。另一方面，法兰bushings具有一个边缘或法兰，有助于将其固定在适当位置，非常适合存在轴向载荷的应用。 bushings的重要性可以在各个行业中看到，从汽车到航空航天。在车辆中，bushings用于悬挂系统，以提供驾驶时的灵活性和舒适性。它们允许悬挂部件的平稳运动，确保车辆能够处理颠簸和不平坦的表面，而不影响稳定性。同样，在航空航天应用中，bushings在确保飞机的运动部件平稳运行方面至关重要，这对安全和性能至关重要。 此外，选择正确类型的bushing对于最佳性能至关重要。工程师在为特定应用选择bushings时，必须考虑负载能力、工作温度和环境条件等因素。例如，在高温环境中，可能优先选择陶瓷或专用聚合物材料，因为它们能够承受极端条件而不降解。 总之，虽然bushings在机械和工程的宏观视角中似乎是微不足道的组成部分，但它们的作用无疑是显著的。它们增强了性能，减少了磨损，并最终有助于各种机械系统的耐用性和可靠性。理解bushings的功能和类型可以导致更好的设计选择和提高的操作效率，使其成为任何参与工程或制造的人必须关注的重要主题。随着我们继续创新和开发新技术，bushings的重要性无疑将继续成为机械设计追求卓越时的关键考虑因素。