indirect drive

简明释义

间接传动

英英释义

例句

1.The indirect drive design of the treadmill reduces wear on the motor.

跑步机的间接驱动设计减少了对电机的磨损。

2.The robot uses an indirect drive mechanism to achieve precise movements without direct contact.

这款机器人使用间接驱动机制，实现精确移动而无需直接接触。

3.An indirect drive system is often preferred in industrial applications for its durability.

在工业应用中，间接驱动系统因其耐用性而受到青睐。

4.The new electric bike features an indirect drive system that enhances efficiency during long rides.

这款新电动自行车采用了间接驱动系统，提高了长途骑行的效率。

5.In the automotive industry, an indirect drive can help reduce noise and vibration in the cabin.

在汽车行业，间接驱动可以减少车内的噪音和振动。

作文

The concept of indirect drive is often encountered in various fields, particularly in engineering and mechanics. To better understand this term, it is essential to explore its applications and implications in real-world scenarios. In simple terms, indirect drive refers to a mechanism where power is transmitted from one component to another through an intermediary stage or system, rather than directly. This can be seen in numerous machines and vehicles, where the engine's output is not directly connected to the wheels but instead goes through several components before reaching the final output. For instance, consider a typical automobile. The engine generates power, which is then transmitted through a series of gears, belts, and shafts before it ultimately drives the wheels. This method of power transmission allows for greater flexibility in design and can enhance the efficiency of the vehicle. By using an indirect drive system, engineers can optimize the torque and speed delivered to the wheels, resulting in improved performance and fuel efficiency. Moreover, indirect drive systems are not limited to automobiles; they are also commonly found in various machinery used in manufacturing and construction. For example, cranes often employ indirect drive mechanisms to lift heavy loads. The motor's power is transmitted through pulleys and cables, allowing for a more controlled and stable lifting process. This is particularly important in construction sites where safety is paramount, and any direct connection could lead to potential hazards. In addition to safety and efficiency, indirect drive systems can also reduce wear and tear on components. When power is transmitted directly, it can create significant stress on the parts involved. However, by incorporating an intermediary system, the load can be distributed more evenly, prolonging the lifespan of the machinery. This is particularly beneficial in industrial settings where machines operate continuously. Another advantage of indirect drive systems is their ability to facilitate complex movements. In robotics, for example, indirect drive mechanisms allow for precise control of robotic arms. The motors may not be directly connected to the joints; instead, they operate through a series of gears and linkages that translate the motor's motion into smooth, coordinated movements. This level of control is crucial in applications such as surgery or delicate assembly tasks, where precision is essential. In conclusion, the term indirect drive encompasses a wide range of applications across different industries. It plays a vital role in enhancing efficiency, safety, and longevity of machinery. As technology continues to advance, the importance of understanding and implementing indirect drive systems will only grow. For anyone interested in engineering, mechanics, or robotics, grasping the principles behind indirect drive is essential for innovation and progress in these fields.

‘间接驱动’的概念常常出现在各个领域，特别是在工程和机械学中。为了更好地理解这个术语，有必要探讨它在现实场景中的应用及其含义。简单来说，间接驱动是指一种机制，其中动力通过中介阶段或系统从一个组件传递到另一个组件，而不是直接传递。这可以在许多机器和车辆中看到，其中发动机的输出并没有直接连接到车轮，而是经过几个组件之后最终到达最终输出。例如，考虑一辆典型的汽车。发动机产生动力，然后通过一系列齿轮、皮带和轴传递给车轮。这种动力传输的方法允许在设计上有更大的灵活性，并可以提高车辆的效率。通过使用间接驱动系统，工程师可以优化传递到车轮的扭矩和速度，从而提高性能和燃油效率。此外，间接驱动系统不仅限于汽车；它们还常见于制造和建筑中使用的各种机械。例如，起重机通常采用间接驱动机制来提升重物。电动机的动力通过滑轮和电缆传递，允许更受控和稳定的提升过程。这在建筑工地上尤其重要，因为安全至关重要，任何直接连接都可能导致潜在的危险。除了安全性和效率，间接驱动系统还可以减少组件的磨损。当动力直接传输时，可能会对涉及的部件造成显著压力。然而，通过引入中介系统，负载可以更均匀地分配，从而延长机器的使用寿命。这在工业环境中尤其有益，因为机器连续运行。间接驱动系统的另一个优点是能够促进复杂运动。在机器人技术中，例如，间接驱动机制允许对机器人手臂进行精确控制。电动机可能并没有直接连接到关节；相反，它们通过一系列齿轮和连杆操作，将电动机的运动转化为平滑、协调的运动。这种控制水平在手术或精密组装任务等应用中至关重要，因为精度是必不可少的。总之，术语间接驱动涵盖了不同产业中的广泛应用。它在提高机械效率、安全性和耐用性方面发挥着至关重要的作用。随着技术的不断进步，理解和实施间接驱动系统的重要性只会增加。对于任何对工程、机械或机器人感兴趣的人来说，掌握间接驱动背后的原理对于这些领域的创新和进步至关重要。