adjustable clearance

简明释义

可调间隙;

英英释义

例句

1.The printer has an adjustable clearance feature that allows for thicker paper to be used.

这款打印机具有可调间隙功能，可以使用更厚的纸张。

2.The furniture design includes adjustable clearance to fit various room sizes and layouts.

家具设计包括可调间隙以适应不同的房间大小和布局。

3.For optimal performance, ensure that the machine's adjustable clearance is set according to the specifications.

为了获得最佳性能，请确保机器的可调间隙根据规格设置。

4.The new design of the vehicle includes an adjustable clearance to improve off-road performance.

新设计的车辆包括一个可调间隙以提高越野性能。

5.In construction, using materials with adjustable clearance can help accommodate different structural needs.

在建筑中，使用具有可调间隙的材料可以帮助适应不同的结构需求。

作文

In the world of engineering and design, precision is paramount. One concept that plays a crucial role in ensuring optimal performance and functionality is adjustable clearance. This term refers to the ability to modify the space between two components, allowing for variations that can accommodate different operational conditions. Understanding adjustable clearance is essential for anyone involved in mechanical design, manufacturing, or maintenance.To illustrate the importance of adjustable clearance, consider the example of a car engine. Engine parts must fit together with a specific amount of space to function correctly. If the clearance is too tight, the parts may cause friction and wear out quickly. Conversely, if the clearance is too loose, it could lead to inefficiency and loss of power. Therefore, engineers often design components with adjustable clearance to ensure that they can fine-tune the fit according to the specific requirements of the engine's operation.Moreover, adjustable clearance is not limited to automotive engineering. It is also prevalent in various fields such as aerospace, robotics, and manufacturing. For instance, in aerospace engineering, aircraft wings are designed with adjustable clearance to adapt to changing aerodynamic conditions during flight. This adaptability ensures that the aircraft maintains optimal performance, safety, and fuel efficiency.In manufacturing processes, adjustable clearance can significantly enhance productivity and product quality. Machines equipped with adjustable features allow operators to modify the spacing between tools and materials, which can lead to better precision in production. For example, in CNC machining, the adjustable clearance between the cutting tool and the workpiece can be altered to achieve different cutting depths and shapes, resulting in a higher quality finish and reduced waste.Furthermore, adjustable clearance contributes to the longevity of machinery. By allowing for adjustments, wear and tear can be minimized, extending the lifespan of components and reducing maintenance costs. Regularly checking and adjusting clearances can prevent unexpected breakdowns and ensure continuous operation, which is vital in industries where downtime can result in significant financial losses.The concept of adjustable clearance also extends to everyday objects. For example, in furniture design, adjustable legs on tables and chairs allow users to modify the height and stability of the furniture according to their needs. This flexibility enhances user experience and satisfaction, demonstrating that adjustable clearance is not just a technical term but a principle that can improve functionality in various contexts.In conclusion, adjustable clearance is a fundamental concept that underpins many aspects of engineering and design. Its ability to provide flexibility and adaptability makes it invaluable across multiple industries. Whether in the intricate workings of an engine, the precise movements of a robot, or the simple adjustments of furniture, understanding and implementing adjustable clearance can lead to enhanced performance, improved quality, and greater user satisfaction. As technology continues to evolve, the importance of adjustable clearance will undoubtedly remain a key consideration for engineers and designers alike.

在工程和设计的世界中，精确性至关重要。一个在确保最佳性能和功能方面发挥关键作用的概念是可调间隙。这个术语指的是修改两个组件之间空间的能力，允许根据不同的操作条件进行调整。理解可调间隙对任何参与机械设计、制造或维护的人来说都是必不可少的。为了说明可调间隙的重要性，可以考虑汽车发动机的例子。发动机部件必须以特定的间隙相互配合才能正常工作。如果间隙过紧，部件可能会造成摩擦并迅速磨损。相反，如果间隙过松，则可能导致效率低下和动力损失。因此，工程师通常设计具有可调间隙的组件，以确保他们可以根据发动机操作的具体要求微调配合。此外，可调间隙不仅限于汽车工程。在航空航天、机器人和制造等多个领域也很常见。例如，在航空航天工程中，飞机的机翼设计为具有可调间隙，以适应飞行过程中不断变化的气动条件。这种适应性确保飞机保持最佳性能、安全性和燃油效率。在制造过程中，可调间隙可以显著提高生产力和产品质量。配备可调功能的机器允许操作员修改工具和材料之间的间距，从而提高生产的精确度。例如，在CNC加工中，切削工具与工件之间的可调间隙可以被改变，以实现不同的切削深度和形状，从而获得更高质量的表面处理和减少浪费。此外，可调间隙有助于延长机械的使用寿命。通过允许进行调整，可以最小化磨损，延长部件的使用寿命并降低维护成本。定期检查和调整间隙可以防止意外故障，确保持续运行，这在停机可能导致重大财务损失的行业中尤为重要。可调间隙的概念还扩展到日常物品中。例如，在家具设计中，桌子和椅子的可调腿允许用户根据需要修改家具的高度和稳定性。这种灵活性增强了用户体验和满意度，表明可调间隙不仅仅是一个技术术语，而是一个可以改善各种上下文中功能性的原则。总之，可调间隙是支撑许多工程和设计方面的基本概念。它提供的灵活性和适应性使其在多个行业中变得不可或缺。无论是在发动机的复杂运作中、机器人的精确运动中，还是在家具简单的调整中，理解和实施可调间隙都可以带来更好的性能、提高质量和更大的用户满意度。随着技术的不断发展，可调间隙的重要性无疑将继续成为工程师和设计师必须考虑的关键因素。