shaftless

简明释义

英[ˈʃɑːftləs]美[ˈʃæftləs]

adj. 无轴的

英英释义

单词用法

同义词

反义词

例句

1.The shaftless drive technology has been widely applied on gravure printing.

阐述了无轴传动技术的定义、特点及在印刷机上的应用。

2.This paper introduces the characteristics of shaftless, and explains the foreground of shaftless application in Rotary flexo press.

介绍无轴传动的特点，说明了无轴传动技术在柔印机中的应用前景。

3.Users can enjoy the benefits of shaftless drive control, including increased flexibility, improved power transmission and reduced downtime.

用户可以享受无轴驱动控制所带来的好处，包括增加的灵活性，改良了动力传输，减少了停工时间。

4.The definition and characteristics drive technology of shaftless drive applied in printing press are introduced.

阐述了无轴传动技术的定义、特点及在印刷机上的应用。

5.Screw conveyor in the form of delivery is divided into two kinds of shaft screw conveyor and shaftless screw conveyor, in appearance is divided into U type screw conveyor and pipe screw conveyor.

螺旋输送机在输送形式上分为有轴螺旋输送机和无轴螺旋输送机两种，在外型上分为u型螺旋输送机和管式螺旋输送机。

6.The numerical Simulation which applying CFD software FLUENT to the hot blast shaftless stove with Multi-burner-port Annular Flameless Ceramic burner is introduced in this paper.

采用CFD软件FLUENT对多火孔无焰陶瓷燃烧器的顶燃式热风炉燃烧室的燃烧情况进行了数值模拟。

7.Special designed multi-shaft running automatic rewinding device; Pneumatic shaftless unwinder.

特殊多轴旋转式自动收料机构；气压无轴式原料座。

8.Screw conveyor in the form of delivery is divided into two kinds of shaft screw conveyor and shaftless screw conveyor, in appearance is divided into U type screw conveyor and pipe screw conveyor.

螺旋输送机在输送形式上分为有轴螺旋输送机和无轴螺旋输送机两种，在外型上分为u型螺旋输送机和管式螺旋输送机。

9.The new design of the pump is completely shaftless 无轴的, allowing for easier maintenance.

新设计的泵是完全无轴的shaftless，便于维护。

10.In the latest model, the motor operates in a shaftless 无轴的 configuration, which reduces vibration.

在最新型号中，电机以无轴的shaftless配置运行，这减少了振动。

11.The shaftless 无轴的 conveyor system has improved efficiency in our factory.

该无轴的shaftless输送系统提高了我们工厂的效率。

12.Using shaftless 无轴的 technology in turbines can lead to significant cost savings.

在涡轮机中使用无轴的shaftless技术可以带来显著的成本节约。

13.The shaftless 无轴的 fan design allows for quieter operation and less energy consumption.

该无轴的shaftless风扇设计允许更安静的操作和更少的能耗。

作文

In recent years, technological advancements have led to the development of various innovative machines and tools that enhance efficiency and productivity in various industries. One such innovation is the concept of the shaftless design, which has gained significant attention for its ability to simplify mechanical systems while maintaining high performance levels. The term shaftless refers to equipment or machinery that operates without a traditional shaft, which is typically used to transmit power or motion from one component to another. This design has several advantages that make it an appealing choice for modern engineering applications. Firstly, the elimination of shafts in certain machinery can significantly reduce the overall weight and size of the equipment. Traditional machines often rely on bulky shafts, which can add unnecessary weight and complexity. By adopting a shaftless design, manufacturers can create lighter and more compact machines that are easier to transport and install. This is particularly advantageous in industries such as aerospace and automotive, where weight reduction is crucial for improving fuel efficiency and performance. Secondly, shaftless designs can lead to lower maintenance costs. Traditional shafts require regular lubrication and inspection to ensure they operate smoothly. In contrast, shaftless systems often incorporate direct drive mechanisms that eliminate the need for these maintenance tasks. This not only saves time and money but also reduces the risk of mechanical failure due to worn-out components. Moreover, the shaftless approach can enhance operational efficiency. By removing the shaft, energy loss due to friction and vibration can be minimized. This means that more of the input energy is converted into useful work, leading to improved overall performance. For example, in conveyor systems, shaftless designs can provide smoother and more consistent material handling, which is essential for optimizing production processes. However, it is essential to note that while shaftless designs offer many benefits, they may not be suitable for all applications. The specific requirements of a project must be carefully considered before opting for this type of design. Engineers must evaluate factors such as load capacity, speed, and environmental conditions to determine whether a shaftless solution is appropriate. In conclusion, the emergence of shaftless technology represents a significant leap forward in engineering design. By removing traditional shafts, manufacturers can create lighter, more efficient, and easier-to-maintain machines. As industries continue to evolve and demand more advanced solutions, the adoption of shaftless designs is likely to become increasingly common. Understanding the principles behind shaftless technology can help engineers and designers make informed decisions about the best approaches to take in their projects, ultimately driving innovation and progress in their respective fields.

近年来，技术进步导致了各种创新机器和工具的发展，这些机器和工具提高了各个行业的效率和生产力。其中一个创新就是无轴设计的概念，它因能够简化机械系统而保持高性能水平而受到广泛关注。术语无轴指的是没有传统轴的设备或机器，传统轴通常用于将动力或运动从一个组件传递到另一个组件。这种设计有几个优点，使其成为现代工程应用中一个吸引人的选择。 首先，在某些机械中消除轴可以显著减轻设备的整体重量和体积。传统机器通常依赖笨重的轴，这可能增加不必要的重量和复杂性。通过采用无轴设计，制造商可以创建更轻便、更紧凑的机器，这些机器更易于运输和安装。这在航空航天和汽车等行业尤为重要，因为减轻重量对于提高燃油效率和性能至关重要。 其次，无轴设计可以降低维护成本。传统轴需要定期润滑和检查，以确保其平稳运行。相比之下，无轴系统通常采用直接驱动机制，消除了这些维护任务的需要。这不仅节省了时间和金钱，还减少了由于部件磨损而导致的机械故障风险。 此外，无轴方法可以提高操作效率。通过去除轴，可以最小化因摩擦和振动造成的能量损失。这意味着更多的输入能量被转化为有用的工作，从而提高整体性能。例如，在输送系统中，无轴设计可以提供更平滑和更一致的物料处理，这对于优化生产过程至关重要。 然而，需要注意的是，虽然无轴设计提供了许多好处，但它可能并不适合所有应用。项目的具体要求必须在选择这种设计之前仔细考虑。工程师必须评估负载能力、速度和环境条件等因素，以确定无轴解决方案是否适合。 总之，无轴技术的出现代表了工程设计的重大飞跃。通过去除传统轴，制造商可以创造出更轻、更高效且更易于维护的机器。随着各行业的不断发展，对更先进解决方案的需求日益增加，采用无轴设计的情况可能会变得越来越普遍。理解无轴技术背后的原理可以帮助工程师和设计师在项目中做出明智的决策，最终推动各自领域的创新和进步。