angular gear

简明释义

斜齿轮

英英释义

例句

1.The robot's movement is controlled by an angular gear 角齿轮 system that allows for precise turns.

机器人的运动由一个角齿轮 angular gear 系统控制，使得转弯非常精准。

2.The bicycle's transmission uses an angular gear 角齿轮 to efficiently transfer power from the pedals to the wheels.

自行车的传动系统使用角齿轮 angular gear 将动力有效地从踏板传递到车轮。

3.In automotive engineering, an angular gear 角齿轮 is essential for changing directions of motion in the drivetrain.

在汽车工程中，角齿轮 angular gear 对于改变动力传动系统中的运动方向至关重要。

4.The design of the angular gear 角齿轮 allows for compact machinery with high torque output.

这种角齿轮 angular gear 的设计使得机械设备更加紧凑，并能输出高扭矩。

5.In this clock mechanism, the angular gear 角齿轮 helps regulate the timekeeping.

在这个钟表机制中，角齿轮 angular gear 有助于调节计时。

作文

In the world of mechanical engineering, the importance of various components cannot be overstated. One such crucial component is the angular gear, which plays a significant role in the transmission of motion and power between different parts of a machine. The angular gear is designed to change the direction of motion while also transmitting torque. This capability makes it an essential element in many applications, from simple devices to complex machinery.The design of the angular gear allows for efficient power transfer at specific angles, typically 90 degrees. This means that when one gear rotates, it can effectively drive another gear that is positioned at a right angle to it. This feature is particularly useful in applications where space is limited, and a straight-line drive is not feasible. For instance, in automotive applications, angular gears are often used in steering systems to enable smooth and responsive handling.One of the most common types of angular gears is the bevel gear. Bevel gears are conical in shape and can mesh with other bevel gears or with straight gears. They are widely used in various machines, including lathes, milling machines, and even in some household appliances. The ability of angular gears to operate efficiently under high loads makes them ideal for heavy machinery, where reliability is paramount.Another example of angular gears is the worm gear, which consists of a screw-like component that meshes with a gear wheel. This configuration allows for a significant reduction in speed while increasing torque, making it suitable for applications that require high force but low speed, such as conveyor systems and elevators.Understanding the operation of angular gears involves grasping the concepts of gear ratios and mechanical advantage. The gear ratio is determined by the number of teeth on each gear. A higher gear ratio means that the driving gear will turn more times than the driven gear, resulting in increased speed but reduced torque. Conversely, a lower gear ratio provides more torque at the expense of speed. This balance is vital in designing systems that require precise control over motion and force.Furthermore, the materials used in manufacturing angular gears greatly influence their performance and durability. Common materials include steel, aluminum, and various composites. Each material has its own set of properties, such as strength, weight, and resistance to wear, which must be considered when selecting the appropriate gear for a given application.In conclusion, the angular gear is a fundamental component in mechanical systems, enabling the efficient transfer of power and motion at various angles. Its versatility and effectiveness make it indispensable in a wide range of industries, from automotive to manufacturing. As technology continues to advance, the design and application of angular gears will likely evolve, leading to even more innovative solutions in mechanical engineering. Understanding this component is crucial for anyone involved in design, engineering, or maintenance of machinery, as it can significantly impact the overall efficiency and functionality of a system.

在机械工程的世界中，各种组件的重要性不容小觑。其中一个至关重要的组件是角齿轮，它在机器不同部分之间的运动和动力传输中发挥着重要作用。角齿轮旨在改变运动的方向，同时传递扭矩。这种能力使得它在许多应用中成为一个必不可少的元素，从简单的设备到复杂的机械。角齿轮的设计允许在特定角度（通常为90度）高效地传递动力。这意味着当一个齿轮旋转时，它可以有效地驱动与之成直角的另一个齿轮。这一特性在空间有限且直线驱动不可行的应用中特别有用。例如，在汽车应用中，角齿轮常用于转向系统，以实现平稳而灵敏的操控。最常见的角齿轮类型之一是锥齿轮。锥齿轮呈锥形，可以与其他锥齿轮或直齿轮啮合。它们广泛应用于各种机器中，包括车床、铣床，甚至一些家用电器。角齿轮在高负荷下高效运作的能力，使其成为重型机械的理想选择，在这些机械中，可靠性至关重要。另一个角齿轮的例子是蜗轮蜗杆，它由一个螺旋状组件与一个齿轮轮相啮合。这种配置允许显著降低速度，同时增加扭矩，非常适合需要高力但低速的应用，如输送系统和电梯。理解角齿轮的操作涉及掌握齿轮比和机械优势的概念。齿轮比由每个齿轮上的齿数决定。较高的齿轮比意味着驱动齿轮的转动次数会比被驱动齿轮多，从而导致速度增加但扭矩减少。相反，较低的齿轮比提供更多的扭矩，但速度较慢。这种平衡对于设计需要精确控制运动和力的系统至关重要。此外，制造角齿轮所使用的材料极大地影响其性能和耐用性。常见材料包括钢、铝和各种复合材料。每种材料都有自己的一系列特性，如强度、重量和耐磨性，在选择适合特定应用的齿轮时必须考虑这些因素。总之，角齿轮是机械系统中的基本组件，使得在各种角度下高效传递动力和运动成为可能。其多功能性和有效性使其在从汽车到制造业的广泛行业中不可或缺。随着技术的不断进步，角齿轮的设计和应用可能会发展，导致机械工程中更具创新性的解决方案。理解这一组件对于任何参与机械设计、工程或维护的人来说都是至关重要的，因为它可能会显著影响系统的整体效率和功能。