mechanical system
简明释义
力学系统
英英释义
例句
1.In robotics, a mechanical system is essential for creating movement and functionality.
在机器人技术中,机械系统对于创造运动和功能至关重要。
2.A mechanical system can include gears, levers, and pulleys to transmit force.
一个机械系统可以包括齿轮、杠杆和滑轮来传递力量。
3.The car's engine is a complex mechanical system that converts fuel into motion.
汽车的引擎是一个复杂的机械系统,将燃料转化为运动。
4.The watch operates on a precise mechanical system that keeps time accurately.
这只手表依靠精确的机械系统来准确计时。
5.Understanding the mechanical system of a bicycle helps in troubleshooting issues.
了解自行车的机械系统有助于排除故障。
作文
In our daily lives, we encounter various types of machines and devices that make our tasks easier and more efficient. These machines are often part of a larger framework known as a mechanical system (机械系统). A mechanical system is defined as a collection of interconnected components that work together to perform a specific function or task. Understanding how these systems operate can enhance our appreciation for technology and improve our ability to innovate. One of the most common examples of a mechanical system is the automobile. An automobile consists of numerous parts, including the engine, transmission, brakes, and wheels, all of which must work in harmony to ensure smooth operation. The engine converts fuel into mechanical energy, which powers the vehicle. The transmission then transfers this energy to the wheels, allowing the car to move. Each component of the mechanical system plays a crucial role, and failure in one part can lead to the malfunction of the entire system.Another example of a mechanical system can be found in household appliances, such as washing machines. In a washing machine, the mechanical system includes the motor, drum, and water pump. The motor drives the drum, which rotates the clothes and agitates them in soapy water. The water pump then drains the dirty water and refills the machine with clean water. This intricate mechanical system allows for efficient cleaning of clothes, saving time and effort for users.Understanding the principles behind mechanical systems is essential for engineers and designers. They must consider factors such as force, motion, and energy transfer when creating new machines. For instance, when designing a bridge, engineers must analyze the mechanical system that will bear the weight of vehicles and pedestrians. They need to calculate the forces acting on the structure and ensure that it can withstand various loads without collapsing.In addition to engineering applications, mechanical systems also play a significant role in robotics. Robots are essentially advanced mechanical systems designed to perform tasks autonomously or semi-autonomously. They consist of sensors, actuators, and control systems that work together to execute commands. For example, a robotic arm used in manufacturing can pick up objects, assemble parts, and perform quality checks. The precision and efficiency of such mechanical systems have revolutionized industries, leading to increased productivity and reduced labor costs.Moreover, the study of mechanical systems extends beyond traditional engineering. It intersects with fields such as biomechanics, where researchers explore the mechanics of human movement. By understanding the mechanical system of the human body, scientists can develop better rehabilitation techniques and prosthetic devices that mimic natural motion. This interdisciplinary approach highlights the importance of mechanical systems in various aspects of life.In conclusion, a mechanical system (机械系统) is an integral part of modern technology, encompassing everything from automobiles to household appliances and robotics. By studying these systems, we gain valuable insights into how machines function and how they can be improved. As technology continues to advance, the understanding of mechanical systems will remain crucial for innovation and development in numerous fields. Embracing this knowledge not only enhances our technical skills but also fosters a deeper appreciation for the complexities of the world around us.
在我们的日常生活中,我们会遇到各种机器和设备,它们使我们的任务变得更加简单和高效。这些机器通常是一个更大框架的一部分,称为机械系统(mechanical system)。机械系统被定义为一组相互连接的组件,它们共同工作以执行特定功能或任务。理解这些系统如何运作可以增强我们对技术的欣赏,并提高我们的创新能力。最常见的机械系统之一是汽车。汽车由多个部分组成,包括发动机、变速器、刹车和车轮,所有这些部分必须协调工作以确保平稳运行。发动机将燃料转化为机械能,从而驱动车辆。然后,变速器将这种能量传递给车轮,使汽车能够移动。机械系统的每个组件都发挥着至关重要的作用,一个部分的故障可能导致整个系统的故障。另一个机械系统的例子可以在家用电器中找到,例如洗衣机。在洗衣机中,机械系统包括电动机、滚筒和水泵。电动机驱动滚筒,旋转衣物并在肥皂水中搅拌。水泵随后排出脏水,并用清水重新填充机器。这个复杂的机械系统使衣物的高效清洗成为可能,为用户节省了时间和精力。理解机械系统背后的原理对于工程师和设计师至关重要。他们在创建新机器时必须考虑力、运动和能量转移等因素。例如,在设计桥梁时,工程师必须分析将承载车辆和行人的机械系统。他们需要计算作用在结构上的力,并确保其能够承受各种负载而不倒塌。除了工程应用,机械系统在机器人技术中也发挥着重要作用。机器人本质上是先进的机械系统,旨在自主或半自主地执行任务。它们由传感器、执行器和控制系统组成,这些组件共同工作以执行命令。例如,用于制造的机器人手臂可以拾取物体、组装部件并进行质量检查。这种机械系统的精确性和效率已经彻底改变了各个行业,提高了生产力并降低了劳动成本。此外,机械系统的研究不仅限于传统工程。它与生物力学等领域交叉,研究人员探索人体运动的力学。通过理解人体的机械系统,科学家可以开发出更好的康复技术和模仿自然运动的假肢设备。这种跨学科的方法突显了机械系统在生活各个方面的重要性。总之,机械系统(mechanical system)是现代技术的一个不可或缺的部分,涵盖了从汽车到家用电器再到机器人等各个领域。通过研究这些系统,我们获得了关于机器如何运作以及如何改进它们的宝贵见解。随着技术的不断进步,对机械系统的理解将继续对各个领域的创新和发展至关重要。接受这一知识不仅增强了我们的技术技能,还培养了我们对周围世界复杂性的更深层次的欣赏。
