skew gear

简明释义

斜齿轮

英英释义

例句

1.The engineer designed a new transmission system that included a skew gear to improve torque distribution.

工程师设计了一种新型传动系统，其中包含一个斜齿轮以改善扭矩分配。

2.The skew gear in the clock mechanism allows for precise movement of the hands.

时钟机制中的斜齿轮允许指针精确移动。

3.In our robotics project, we utilized a skew gear to achieve better alignment between the motor and the wheels.

在我们的机器人项目中，我们使用了一个斜齿轮以实现电机与轮子之间的更好对齐。

4.To reduce noise, we replaced the old gears with a set of skew gears in the machinery.

为了减少噪音，我们在机器中用一组斜齿轮替换了旧齿轮。

5.The design of the skew gear was crucial for the success of the mechanical arm's movement.

该斜齿轮的设计对机械臂运动的成功至关重要。

作文

In the world of mechanical engineering, various components work together to ensure the efficient functioning of machines. One such component is the skew gear, which plays a crucial role in the transmission of power between shafts that are not parallel to each other. The skew gear is designed to operate at an angle, allowing for a unique solution to specific mechanical challenges. Unlike traditional gears that align directly, the skew gear can connect two shafts that are offset, making it particularly useful in compact spaces where conventional gears would be impractical.The design of a skew gear involves intricate calculations and precision engineering. When two gears interact, they transfer torque and rotational motion. However, with a skew gear, the angle at which the gears mesh must be carefully considered to avoid excessive wear and tear. This is because the contact area between the gears changes based on their orientation. Engineers must ensure that the materials used can withstand the forces applied during operation, which often requires advanced materials science expertise.Applications of skew gears can be found in various industries, including automotive, aerospace, and robotics. For instance, in robotic arms, skew gears facilitate movement in tight spaces, allowing for greater flexibility and range of motion. In the automotive sector, they can be utilized in steering mechanisms where space constraints prevent the use of traditional gears. The ability of skew gears to transmit power efficiently at different angles makes them invaluable in these applications.Moreover, the manufacturing of skew gears has evolved with technological advancements. With the advent of computer-aided design (CAD) and computer numerical control (CNC) machining, creating precise skew gears has become more feasible. This technology allows engineers to simulate the gear's performance under various conditions before actual production, leading to better reliability and performance in the final product.However, there are challenges associated with skew gears. One of the main issues is the complexity of their design and the need for precise alignment during installation. If not installed correctly, the efficiency of power transmission can be significantly reduced, leading to potential failures. Therefore, proper training and understanding of skew gears are essential for engineers and technicians working with these components.In conclusion, the skew gear represents a remarkable innovation in mechanical design, enabling the connection of non-parallel shafts in a variety of applications. Its unique ability to function at an angle opens up new possibilities for engineers, allowing for more compact and efficient machine designs. As technology continues to advance, the role of skew gears is likely to expand further, contributing to the development of more sophisticated and efficient mechanical systems. Understanding the principles behind skew gears is essential for anyone involved in mechanical engineering, as they are a testament to the ingenuity and creativity present in this field of study.

在机械工程的世界中，各种组件协同工作，以确保机器的高效运行。其中一个重要组件是斜齿轮，它在传递不平行轴之间的动力方面发挥着关键作用。斜齿轮被设计成在一个角度上操作，从而为特定的机械挑战提供独特的解决方案。与直接对齐的传统齿轮不同，斜齿轮可以连接偏移的两个轴，这使得它在传统齿轮不切实际的紧凑空间中尤为有用。斜齿轮的设计涉及复杂的计算和精密的工程。当两个齿轮相互作用时，它们会传递扭矩和旋转运动。然而，使用斜齿轮时，齿轮啮合的角度必须仔细考虑，以避免过度磨损。这是因为齿轮之间的接触面积会根据它们的方向发生变化。工程师必须确保所用材料能够承受操作期间施加的力，这往往需要先进的材料科学专业知识。斜齿轮的应用可以在多个行业中找到，包括汽车、航空航天和机器人。例如，在机器人手臂中，斜齿轮促进了在狭小空间内的运动，从而允许更大的灵活性和运动范围。在汽车领域，它们可以用于转向机构，其中空间限制阻止了传统齿轮的使用。斜齿轮以不同角度高效传递动力的能力使其在这些应用中不可或缺。此外，随着技术的进步，斜齿轮的制造也得到了发展。随着计算机辅助设计（CAD）和计算机数控（CNC）加工的出现，制造精确的斜齿轮变得更加可行。这项技术使工程师能够在实际生产之前模拟齿轮在各种条件下的性能，从而提高最终产品的可靠性和性能。然而，与斜齿轮相关的挑战也存在。主要问题之一是其设计的复杂性以及安装过程中对精确对准的需求。如果安装不当，动力传递的效率可能会显著降低，导致潜在的故障。因此，任何与这些组件打交道的工程师和技术人员都必须对斜齿轮有正确的培训和理解。总之，斜齿轮代表了机械设计中的一项卓越创新，使得在各种应用中连接非平行轴成为可能。它在一个角度上工作的独特能力为工程师开辟了新的可能性，从而允许更紧凑和高效的机器设计。随着技术的不断进步，斜齿轮的角色可能会进一步扩展，为开发更复杂和高效的机械系统做出贡献。理解斜齿轮背后的原理对于任何参与机械工程的人来说都是至关重要的，因为它们证明了这一研究领域中的独创性和创造力。