driving toothed gear

简明释义

主动齿轮

英英释义

例句

1.The design of the driving toothed gear (驱动齿轮) must ensure minimal backlash for optimal performance.

设计driving toothed gear (驱动齿轮) 时必须确保最小的反向间隙，以实现最佳性能。

2.The engineer explained how the driving toothed gear (驱动齿轮) transfers motion from the motor to the conveyor belt.

工程师解释了如何通过driving toothed gear (驱动齿轮) 将运动从电机传递到输送带。

3.The technician replaced the broken driving toothed gear (驱动齿轮) to restore the machine's functionality.

技术员更换了损坏的driving toothed gear (驱动齿轮)，以恢复机器的功能。

4.When the driving toothed gear (驱动齿轮) wears out, it can lead to a significant decrease in efficiency.

当driving toothed gear (驱动齿轮) 磨损时，会导致效率显著下降。

5.In the assembly line, the driving toothed gear (驱动齿轮) is crucial for synchronizing the movement of various machines.

在装配线上，driving toothed gear (驱动齿轮) 对于同步各种机器的运动至关重要。

作文

In the realm of mechanical engineering, gears play a crucial role in the transmission of power and motion. Among various types of gears, the driving toothed gear (驱动齿轮) stands out due to its significance in converting rotational motion into useful work. Understanding the function and importance of the driving toothed gear (驱动齿轮) is essential for anyone interested in machinery and engineering design.The driving toothed gear (驱动齿轮) is typically connected to a power source, such as an electric motor or an engine. When this power source rotates the driving toothed gear (驱动齿轮), it initiates a chain reaction that transfers motion to other gears in the system. This process is fundamental in various applications, from simple clock mechanisms to complex automotive transmissions.One of the primary functions of the driving toothed gear (驱动齿轮) is to increase torque. Torque is the rotational force that causes an object to rotate around an axis. By using a larger driving toothed gear (驱动齿轮) in conjunction with smaller driven gears, engineers can amplify the torque output, making it easier to move heavy loads or accelerate vehicles. This principle is evident in bicycles, where pedaling turns the driving toothed gear (驱动齿轮), which then drives the rear wheel through a series of smaller gears.Another critical aspect of the driving toothed gear (驱动齿轮) is its ability to change the direction of motion. In many mechanical systems, it is necessary to redirect the force applied by the power source. The arrangement of gears allows for this redirection, enabling machines to perform tasks that require movement in different directions. For instance, in robotic arms, the driving toothed gear (驱动齿轮) helps in controlling the arm's movements, allowing it to reach various positions with precision.Moreover, the driving toothed gear (驱动齿轮) contributes to the overall efficiency of a machine. The proper alignment and meshing of gears minimize energy loss through friction. Engineers must consider factors such as material selection and gear design to optimize the performance of the driving toothed gear (驱动齿轮). High-quality materials and precise manufacturing techniques ensure that the gears operate smoothly and have a longer lifespan.In conclusion, the driving toothed gear (驱动齿轮) is an indispensable component in mechanical systems, serving multiple functions such as increasing torque, changing motion direction, and enhancing efficiency. A thorough understanding of how the driving toothed gear (驱动齿轮) operates can significantly benefit those pursuing careers in engineering and technology. As we continue to innovate and develop new machines, the principles behind the driving toothed gear (驱动齿轮) will remain relevant, driving advancements in various fields of engineering.

在机械工程领域，齿轮在动力和运动的传递中发挥着至关重要的作用。在各种类型的齿轮中，driving toothed gear（驱动齿轮）因其在将旋转运动转化为有用工作中的重要性而脱颖而出。理解driving toothed gear（驱动齿轮）的功能和重要性对任何对机械和工程设计感兴趣的人来说都是必不可少的。driving toothed gear（驱动齿轮）通常连接到电源，例如电动机或发动机。当这个电源旋转driving toothed gear（驱动齿轮）时，它会引发一系列反应，将运动传递给系统中的其他齿轮。这个过程在各种应用中都是基础，从简单的钟表机制到复杂的汽车传动系统。driving toothed gear（驱动齿轮）的主要功能之一是增加扭矩。扭矩是使物体围绕轴旋转的旋转力。通过将较大的driving toothed gear（驱动齿轮）与较小的从动齿轮结合使用，工程师可以放大扭矩输出，使移动重物或加速车辆变得更加容易。这一原理在自行车中很明显，踩踏板转动driving toothed gear（驱动齿轮），然后通过一系列较小的齿轮驱动后轮。driving toothed gear（驱动齿轮）的另一个关键方面是它改变运动方向的能力。在许多机械系统中，有必要重定向电源施加的力。齿轮的排列允许这种重定向，使机器能够执行需要不同方向运动的任务。例如，在机器人手臂中，driving toothed gear（驱动齿轮）有助于控制手臂的运动，使其能够精确地达到各种位置。此外，driving toothed gear（驱动齿轮）还提高了机器的整体效率。适当的对齐和齿轮啮合可最小化通过摩擦造成的能量损失。工程师必须考虑材料选择和齿轮设计等因素，以优化driving toothed gear（驱动齿轮）的性能。高质量的材料和精确的制造技术确保齿轮平稳运行并具有更长的使用寿命。总之，driving toothed gear（驱动齿轮）是机械系统中不可或缺的组成部分，具有增加扭矩、改变运动方向和提高效率等多种功能。深入了解driving toothed gear（驱动齿轮）的工作原理对于追求工程和技术职业的人们具有重要的益处。随着我们不断创新和开发新机器，driving toothed gear（驱动齿轮）背后的原理将始终保持相关性，推动各个工程领域的进步。