built in thrust bearing

简明释义

内装式推力轴承

英英释义

例句

1.With the built in thrust bearing, the pump operates more smoothly and efficiently.

由于有了内置推力轴承，泵的运行更加平稳高效。

2.The engineers decided to include a built in thrust bearing for better load handling in the gearbox.

工程师们决定在变速箱中加入内置推力轴承以更好地处理负载。

3.The new design of the motor features a built in thrust bearing, which significantly reduces maintenance costs.

新设计的电机具有内置推力轴承，这大大降低了维护成本。

4.Thanks to the built in thrust bearing, the fan can operate at higher speeds without overheating.

多亏了内置推力轴承，风扇可以在更高的速度下运行而不会过热。

5.The built in thrust bearing in the assembly allows for greater precision in movement.

组件中的内置推力轴承允许更精确的运动。

作文

In the world of engineering and machinery, precision and efficiency are paramount. One vital component that plays a significant role in achieving these attributes is the built in thrust bearing. A built in thrust bearing is an integral part of various mechanical systems, designed to support axial loads while allowing for rotational movement. This component is crucial in applications ranging from automotive engines to industrial machinery. Understanding the function and importance of the built in thrust bearing can greatly enhance one's comprehension of mechanical design and operation.The primary purpose of a built in thrust bearing is to handle the forces that act along the axis of a rotating shaft. When a shaft rotates, it experiences not only radial forces but also axial forces due to the load it carries. Without a proper bearing to accommodate these axial loads, the shaft could suffer from excessive wear or even catastrophic failure. The built in thrust bearing effectively distributes these forces, ensuring smooth operation and longevity of the machinery.In many modern machines, the design of a built in thrust bearing is often integrated into the overall system, which can lead to more compact and efficient designs. For instance, in electric motors, the built in thrust bearing allows for a reduction in the number of separate components, simplifying assembly and maintenance. This integration can also lead to cost savings, as fewer parts mean lower manufacturing and assembly costs.Moreover, the materials used in the construction of built in thrust bearings are selected based on their ability to withstand high loads and resist wear. Common materials include various metals and composites that provide strength and durability. The choice of material can significantly affect the performance and lifespan of the bearing, making it essential for engineers to consider this aspect during the design process.Another critical factor to consider is lubrication. A well-lubricated built in thrust bearing operates more efficiently and has a longer service life. Proper lubrication reduces friction between moving parts, which minimizes wear and tear. Engineers must ensure that the lubrication system is effective and that the lubricant used is suitable for the operating conditions of the machinery.In conclusion, the built in thrust bearing is a fundamental component in various mechanical systems, providing essential support for axial loads and ensuring smooth operation. Its design, material selection, and lubrication are all critical factors that contribute to the overall performance and reliability of machinery. As technology continues to evolve, the role of the built in thrust bearing will remain significant in the pursuit of more efficient and durable mechanical systems. Understanding its function and importance is crucial for anyone involved in engineering and design, as it lays the groundwork for creating machines that are not only effective but also reliable and long-lasting.

在工程和机械的世界中，精确和效率至关重要。一个在实现这些属性方面发挥重要作用的关键组件是内置推力轴承。内置推力轴承是各种机械系统的组成部分，旨在支持轴向负荷，同时允许旋转运动。这个组件在从汽车发动机到工业机械的应用中都是至关重要的。理解内置推力轴承的功能和重要性可以极大地提高人们对机械设计和操作的理解。内置推力轴承的主要目的是处理作用于旋转轴线上的力。当一个轴旋转时，它不仅会受到径向力的作用，还会由于所承载的负荷而受到轴向力的影响。如果没有适当的轴承来容纳这些轴向负荷，轴可能会遭受过度磨损甚至灾难性的故障。内置推力轴承有效地分配这些力，确保机械的平稳运行和使用寿命。在许多现代机器中，内置推力轴承的设计通常与整体系统集成在一起，这可以导致更紧凑和高效的设计。例如，在电动机中，内置推力轴承允许减少单独组件的数量，从而简化组装和维护。这种集成还可以带来成本节约，因为部件越少，制造和组装成本就越低。此外，用于制造内置推力轴承的材料是根据其承受高负荷和抗磨损的能力来选择的。常见材料包括各种金属和复合材料，这些材料提供强度和耐用性。材料的选择会显著影响轴承的性能和使用寿命，因此工程师在设计过程中必须考虑这一方面。另一个关键因素是润滑。良好润滑的内置推力轴承运作更高效，服务寿命更长。适当的润滑可以减少运动部件之间的摩擦，从而最小化磨损。工程师必须确保润滑系统有效，并且所用润滑剂适合机械的工作条件。总之，内置推力轴承是各种机械系统中的基本组件，为轴向负荷提供必要的支持，并确保平稳运行。它的设计、材料选择和润滑都是影响机械整体性能和可靠性的关键因素。随着技术的不断发展，内置推力轴承的作用将在追求更高效和耐用的机械系统中保持重要。理解其功能和重要性对于任何参与工程和设计的人来说都是至关重要的，因为这为创造不仅有效而且可靠和持久的机器奠定了基础。