transmitting motion

简明释义

传动

英英释义

例句

1.The gears in a bicycle are effective at transmitting motion 传递运动 from the pedals to the wheels.

自行车中的齿轮有效地传递运动从踏板到车轮。

2.A conveyor belt is an excellent example of transmitting motion 传递运动 in manufacturing.

输送带是制造业中传递运动的一个优秀例子。

3.The pulleys in the system are designed for transmitting motion 传递运动 efficiently.

系统中的滑轮设计用于高效地传递运动。

4.In a car engine, the crankshaft plays a crucial role in transmitting motion 传递运动 to the wheels.

在汽车发动机中，曲轴在将动力传递运动到车轮方面起着至关重要的作用。

5.Robotic arms use motors for transmitting motion 传递运动 to perform precise tasks.

机器人手臂使用电机来传递运动以执行精确的任务。

作文

In the realm of mechanical engineering, the concept of transmitting motion is fundamental to the design and functionality of various machines and systems. Essentially, transmitting motion refers to the process of transferring movement from one part of a machine to another. This principle is crucial in ensuring that machines operate efficiently and effectively, as it allows for the conversion of energy into useful work. For instance, in a car, the engine produces rotational motion, which must be transmitted through the drivetrain to the wheels, enabling the vehicle to move. Without an effective mechanism for transmitting motion, the car would be unable to function as intended.Various methods exist for transmitting motion, each with its own advantages and disadvantages. One common method is through the use of gears. Gears can change the direction of motion and increase or decrease speed, making them essential in many mechanical systems. For example, in a bicycle, the gear system allows the rider to adjust the difficulty of pedaling based on the terrain. The smooth operation of these gears relies on the precise transmitting motion between them.Another method of transmitting motion is through belts and pulleys. This system is often seen in industrial machinery, where large machines require power from a central source. The belt connects the motor to various pulleys, allowing the motion to be transmitted across different parts of the machine. This setup not only helps in distributing power but also provides flexibility in the arrangement of components within the machine.Hydraulic systems also play a significant role in transmitting motion. These systems use fluid pressure to create movement, allowing for the operation of heavy machinery with relatively little effort. For instance, in construction equipment like excavators, hydraulic cylinders convert fluid pressure into linear motion, enabling the operator to lift and move heavy loads effortlessly. The efficiency of these systems hinges on their ability to effectively transmit motion through pressurized fluids.Additionally, the concept of transmitting motion extends beyond mechanical systems into various fields, including robotics and automation. In robotics, servos and motors are used to achieve precise movements, where the accurate transmitting motion is critical for performing tasks such as assembly or surgery. These advanced systems rely on complex algorithms and control mechanisms to ensure that the transmitted motion is both accurate and reliable.Understanding the principles behind transmitting motion is vital for engineers and designers. It allows them to create more efficient systems, optimize performance, and innovate new solutions to existing problems. As technology advances, the methods of transmitting motion continue to evolve, leading to the development of smarter, more adaptable machines. In conclusion, transmitting motion is a key concept in the engineering field that underpins the functionality of countless devices and systems. Its importance cannot be overstated, as it is integral to the way we harness energy and perform work in our daily lives.

在机械工程领域，传递运动的概念是各种机器和系统设计与功能的基础。实际上，传递运动指的是将运动从机器的一个部分转移到另一个部分的过程。这个原则对于确保机器高效、有效地运行至关重要，因为它允许能量转化为有用的工作。例如，在汽车中，发动机产生旋转运动，这必须通过动力传动系统传递到车轮，使车辆能够移动。如果没有有效的传递运动机制，汽车将无法按预期功能运作。存在多种方法来实现传递运动，每种方法都有其优缺点。一种常见的方法是使用齿轮。齿轮可以改变运动方向，并增加或减少速度，使其在许多机械系统中不可或缺。例如，在自行车中，齿轮系统允许骑行者根据地形调整踏板的难度。这些齿轮的平稳操作依赖于它们之间精确的传递运动。另一种传递运动的方法是通过皮带和滑轮。这种系统通常出现在工业机械中，其中大型机器需要来自中央源的动力。皮带将电动机连接到各个滑轮，允许运动在机器的不同部分之间传递。这种设置不仅有助于分配动力，还提供了组件排列的灵活性。液压系统在传递运动中也发挥着重要作用。这些系统利用流体压力来产生运动，使重型机械的操作相对轻松。例如，在挖掘机等建筑设备中，液压缸将液体压力转化为线性运动，使操作员能够轻松地提升和移动重物。这些系统的效率取决于它们通过加压流体有效传递运动的能力。此外，传递运动的概念超越了机械系统，延伸到包括机器人技术和自动化在内的多个领域。在机器人技术中，伺服电机和马达用于实现精确的运动，其中准确的传递运动对于执行装配或手术等任务至关重要。这些先进系统依靠复杂的算法和控制机制来确保传递的运动既准确又可靠。理解传递运动背后的原理对于工程师和设计师至关重要。这使他们能够创造出更高效的系统，优化性能，并为现有问题创新解决方案。随着技术的进步，传递运动的方法不断演变，导致开发出更智能、更具适应性的机器。总之，传递运动是工程领域的一个关键概念，它支撑着无数设备和系统的功能。其重要性不容小觑，因为它是我们在日常生活中利用能量和进行工作的基础。