divided train gear

简明释义

功率分轴式二级减速齿轮

英英释义

例句

1.In our new design, we implemented a divided train gear 分离列车齿轮 mechanism to reduce wear and tear.

在我们的新设计中，我们实施了一个分离列车齿轮机制以减少磨损。

2.The maintenance team conducted tests on the divided train gear 分离列车齿轮 to ensure safety standards were met.

维护团队对分离列车齿轮进行了测试，以确保符合安全标准。

3.The engineer explained how the divided train gear 分离列车齿轮 system improves efficiency during operations.

工程师解释了如何通过分离列车齿轮系统提高操作效率。

4.The technician had to replace the divided train gear 分离列车齿轮 after it showed signs of malfunction.

技术员不得不更换分离列车齿轮，因为它显示出故障的迹象。

5.Using divided train gear 分离列车齿轮 allows for smoother transitions between different speeds.

使用分离列车齿轮可以实现不同速度之间的平滑过渡。

作文

In the world of engineering, particularly in the field of mechanical systems, the term divided train gear plays a crucial role in understanding how power is transmitted and how motion is controlled. The concept of divided train gear refers to a system where gears are arranged in such a way that they can be separated into distinct sections, each serving a specific function within a larger mechanism. This division allows for greater flexibility and efficiency in how machinery operates, making it an essential element in various applications, from automobiles to industrial machines.To better comprehend the significance of divided train gear, we can look at its application in modern vehicles. In cars, the transmission system is often designed with multiple gears that work together to optimize performance. When we refer to divided train gear, we are essentially describing a transmission setup that can switch between different gear ratios, allowing the engine to operate efficiently at various speeds. This is crucial for fuel efficiency and overall vehicle performance.Moreover, the divided train gear design can facilitate smoother transitions between gears, reducing wear and tear on the components and enhancing the longevity of the vehicle. By dividing the gear system into segments, engineers can create more precise control over how power is distributed to the wheels, which is vital for maintaining traction and stability on the road.Another interesting aspect of divided train gear is its application in machinery used for heavy lifting and construction. Cranes and other lifting devices often utilize a divided train gear system to manage the distribution of weight and ensure that loads are lifted safely and efficiently. Each section of the gear can handle different loads, allowing the machine to operate at optimal levels without risking failure or damage.Furthermore, the adaptability of divided train gear systems extends to robotics as well. In robotic arms, for instance, the use of divided gears allows for intricate movements and precision in tasks ranging from assembly to surgery. By segmenting the gears, engineers can create joints that move independently while still being part of a cohesive unit, showcasing the versatility of this design.In conclusion, the concept of divided train gear is integral to various fields of engineering and technology. Its ability to separate functions within a gear system not only enhances efficiency and performance but also contributes to the safety and reliability of machines. As we continue to innovate and develop new technologies, understanding and implementing divided train gear systems will undoubtedly play a significant role in shaping the future of mechanical design and engineering. The importance of these systems cannot be overstated, as they represent a fundamental principle of how we harness and control mechanical energy in our everyday lives.

在工程领域，特别是机械系统领域，术语分离齿轮组在理解动力传输和运动控制方面起着至关重要的作用。分离齿轮组的概念是指一种齿轮系统，其中齿轮以特定的方式排列，可以分成不同的部分，每个部分在更大机制中发挥特定功能。这种分离使得机器的操作更加灵活高效，使其成为各种应用中的关键要素，从汽车到工业机器。为了更好地理解分离齿轮组的重要性，我们可以看看它在现代车辆中的应用。在汽车中，传动系统通常设计有多个齿轮，这些齿轮共同工作以优化性能。当我们提到分离齿轮组时，我们实际上是在描述一种能够在不同齿轮比之间切换的传动设置，使发动机能够在各种速度下高效运行。这对于燃油效率和整体车辆性能至关重要。此外，分离齿轮组的设计可以促进齿轮之间更平稳的过渡，减少部件的磨损，提高车辆的使用寿命。通过将齿轮系统分为多个部分，工程师可以更精确地控制动力如何分配到车轮上，这对保持行驶稳定性和牵引力至关重要。分离齿轮组的另一个有趣方面是其在重物提升和建筑机械中的应用。起重机和其他提升设备常常利用分离齿轮组系统来管理重量分配，确保安全高效地提升负载。齿轮的每个部分都可以处理不同的负载，使机器能够在最佳水平上运行，而不必担心故障或损坏。此外，分离齿轮组系统的适应性还扩展到机器人技术。在机器人手臂中，例如，使用分离齿轮可以实现复杂的运动和精确的任务执行，从组装到外科手术。通过对齿轮进行分段，工程师可以创建独立移动的关节，同时仍然是一个整体单元的一部分，展示了这种设计的多功能性。总之，分离齿轮组的概念是各个工程和技术领域不可或缺的一部分。它在齿轮系统中分离功能的能力不仅提高了效率和性能，还增强了机器的安全性和可靠性。随着我们不断创新和开发新技术，理解和实施分离齿轮组系统无疑将在塑造机械设计和工程的未来中发挥重要作用。这些系统的重要性不容小觑，因为它们代表了我们如何在日常生活中利用和控制机械能的基本原则。