cardan drive
简明释义
万向节传动
英英释义
例句
1.In our workshop, we often repair vehicles that use a cardan drive 万向驱动 to connect the transmission to the wheels.
在我们的车间,我们经常修理使用cardan drive 万向驱动将变速器与车轮连接的车辆。
2.The cardan drive 万向驱动 is crucial for ensuring smooth operation in high-performance sports cars.
在高性能跑车中,cardan drive 万向驱动对于确保平稳运行至关重要。
3.When designing off-road vehicles, engineers often rely on a reliable cardan drive 万向驱动 for rugged terrain performance.
在设计越野车时,工程师们通常依赖于可靠的cardan drive 万向驱动以应对崎岖地形的表现。
4.The cardan drive 万向驱动 allows for greater flexibility in the vehicle's drivetrain.
这款cardan drive 万向驱动提供了更大的灵活性,改善了车辆的动力传动系统。
5.The new model of the tractor features an advanced cardan drive 万向驱动 system for improved power transmission.
新款拖拉机采用了先进的cardan drive 万向驱动系统,以提高动力传输效率。
作文
The term cardan drive refers to a mechanical system that is used to transmit power from one component to another, particularly in vehicles and machinery. This system is named after the Italian engineer Gerolamo Cardano, who invented the universal joint in the 16th century. The cardan drive is essential in applications where the angle between the driving and driven components can change, allowing for flexibility and smooth operation. In modern engineering, the cardan drive is commonly found in automobiles, where it connects the transmission to the wheels. This connection is crucial because it allows the vehicle to navigate uneven terrain while maintaining power delivery to the wheels.The mechanics of a cardan drive involve a series of joints that permit rotation and movement at various angles. This design helps to accommodate the different positions that the drivetrain may find itself in during operation. For instance, when a vehicle goes over bumps or turns sharply, the cardan drive ensures that power continues to flow smoothly without interruption. The ability to handle such dynamic changes is what makes this system invaluable in automotive engineering.In addition to vehicles, cardan drives are also utilized in various industrial applications. They can be found in heavy machinery, such as excavators and cranes, where they help transfer power from the engine to different functional parts of the machine. The robustness and efficiency of the cardan drive make it a preferred choice in environments that require durability and reliability.One of the significant advantages of the cardan drive is its simplicity in design. It consists of fewer moving parts compared to other power transmission systems, which reduces the likelihood of mechanical failure. Moreover, the cardan drive is relatively easy to maintain, making it an economical option for many industries.However, like any mechanical system, the cardan drive is not without its challenges. Over time, wear and tear can lead to issues such as vibrations and noise, which may indicate that the joints need lubrication or replacement. Regular maintenance is essential to ensure that the cardan drive operates efficiently and extends its lifespan.In conclusion, the cardan drive is a vital component in many mechanical systems, particularly in automotive and industrial applications. Its ability to transmit power effectively while accommodating movement makes it indispensable in today’s engineering landscape. Understanding how the cardan drive works and its importance can help engineers and technicians make informed decisions regarding maintenance and upgrades. As technology continues to evolve, the cardan drive will likely remain a key player in the field of mechanical design, showcasing the enduring legacy of Gerolamo Cardano's invention.
术语卡丹驱动指的是一种机械系统,用于将动力从一个组件传输到另一个组件,特别是在车辆和机器中。该系统以意大利工程师杰罗拉莫·卡尔达诺的名字命名,他在16世纪发明了万向节。卡丹驱动在驾驶和被驱动组件之间的角度可能变化的应用中至关重要,允许灵活性和平稳操作。在现代工程中,卡丹驱动通常出现在汽车中,它连接变速器和车轮。这种连接至关重要,因为它使车辆能够在不平坦的地形上行驶,同时保持动力传递到车轮。卡丹驱动的机械原理涉及一系列关节,允许以不同的角度进行旋转和运动。这种设计有助于适应在操作过程中传动系统可能处于的不同位置。例如,当车辆越过颠簸或急转弯时,卡丹驱动确保动力持续平稳流动而不受干扰。处理这种动态变化的能力使该系统在汽车工程中不可或缺。除了车辆,卡丹驱动还广泛应用于各种工业应用中。它们可以在重型机械中找到,例如挖掘机和起重机,在这些机械中,它们帮助将动力从发动机传递到机器的不同功能部件。卡丹驱动的坚固性和高效性使其成为需要耐用性和可靠性的环境中的首选。卡丹驱动的一个显著优点是其设计简单。与其他动力传输系统相比,它由较少的运动部件组成,这减少了机械故障的可能性。此外,卡丹驱动相对容易维护,使其成为许多行业的经济选择。然而,像任何机械系统一样,卡丹驱动也面临挑战。随着时间的推移,磨损可能导致振动和噪音等问题,这可能表明关节需要润滑或更换。定期维护对于确保卡丹驱动有效运行并延长其使用寿命至关重要。总之,卡丹驱动是许多机械系统中的重要组成部分,特别是在汽车和工业应用中。它有效传递动力并适应运动的能力使其在当今的工程领域中不可或缺。了解卡丹驱动的工作原理及其重要性可以帮助工程师和技术人员就维护和升级做出明智的决定。随着技术的不断发展,卡丹驱动很可能会继续在机械设计领域发挥关键作用,展示杰罗拉莫·卡尔达诺发明的持久遗产。
