toothed segment

简明释义

扇形齿轮

英英释义

例句

1.In this model, the toothed segment plays a crucial role in transferring motion between parts.

在这个模型中，齿段在部件之间传递运动中起着至关重要的作用。

2.The gear mechanism operates smoothly due to the precise alignment of each toothed segment.

由于每个齿段的精确对齐，齿轮机制运转顺畅。

3.To fix the issue, we need to replace the worn-out toothed segment in the machine.

要解决这个问题，我们需要更换机器中磨损的齿段。

4.The design includes a toothed segment that allows for better grip and stability.

该设计包括一个齿段，可以提供更好的抓握和稳定性。

5.The toothed segment of the conveyor belt ensures that items are moved efficiently.

输送带的齿段确保物品高效移动。

作文

In the field of engineering and mechanics, components often have specialized terms that describe their features and functions. One such term is toothed segment, which refers to a part of a mechanical system that has a series of teeth or projections along its edge. These teeth are designed to interlock with other components, allowing for precise movement and control. The toothed segment plays a crucial role in various applications, from simple machines to complex robotic systems.To better understand the significance of the toothed segment, let us consider its application in gear systems. Gears are fundamental components in machinery that transmit torque and motion. A gear typically consists of a circular body with teeth around its circumference. When two gears mesh together, the teeth of one gear engage with the teeth of another, allowing for the transfer of rotational force. In this context, the toothed segment is essential for ensuring smooth and efficient operation.Moreover, the design of the toothed segment can vary significantly depending on the intended function. For instance, in a clock mechanism, the toothed segment may be finely crafted to allow for accurate timekeeping. In contrast, in industrial machinery, the toothed segment might be designed for durability and strength to withstand heavy loads and continuous use. This adaptability highlights the importance of the toothed segment in different contexts.In addition to gears, the toothed segment can also be found in other mechanical systems, such as conveyor belts and cutting tools. For example, in a conveyor system, the toothed segment allows for the controlled movement of materials along the belt. The teeth grip the material securely, preventing slippage and ensuring that items are transported efficiently. Similarly, in cutting tools, the toothed segment provides the necessary sharpness and precision for effective cutting.Understanding the function of the toothed segment extends beyond just its mechanical properties; it also involves recognizing its impact on overall system performance. A well-designed toothed segment can enhance the efficiency and reliability of a machine, while a poorly designed one can lead to failures and inefficiencies. Therefore, engineers must carefully consider the design and materials used in the construction of the toothed segment to ensure optimal performance.In conclusion, the term toothed segment encompasses a variety of components that are integral to many mechanical systems. Its ability to interlock with other parts allows for precise control and movement, making it a critical element in gears, conveyors, and cutting tools. By understanding the role of the toothed segment, we can appreciate the intricacies of mechanical design and the importance of each component in contributing to the overall functionality of a system. As technology advances, the design and application of the toothed segment will continue to evolve, further enhancing the capabilities of modern machinery and equipment.

在工程和机械领域，组件通常有专门的术语来描述它们的特征和功能。一个这样的术语是齿段，它指的是机械系统的一部分，其边缘具有一系列的齿或突起。这些齿旨在与其他组件互锁，从而实现精确的运动和控制。齿段在各种应用中发挥着至关重要的作用，从简单的机器到复杂的机器人系统。为了更好地理解齿段的重要性，让我们考虑它在齿轮系统中的应用。齿轮是传递扭矩和运动的基本机械组件。一个齿轮通常由一个圆形主体和围绕其周边的齿组成。当两个齿轮啮合时，一个齿轮的齿与另一个齿轮的齿相互咬合，从而允许旋转力的传递。在这个背景下，齿段对于确保平稳和高效的操作至关重要。此外，齿段的设计可以根据预期功能显著变化。例如，在钟表机制中，齿段可能经过精细加工，以允许准确的计时。相比之下，在工业机械中，齿段可能被设计得更加耐用和坚固，以承受重负荷和持续使用。这种适应性突显了齿段在不同上下文中的重要性。除了齿轮，齿段还可以在其他机械系统中找到，例如输送带和切削工具。例如，在输送系统中，齿段允许材料沿着带子进行受控移动。齿牢牢抓住材料，防止滑动，确保物品高效运输。同样，在切削工具中，齿段提供了必要的锋利度和精度，以实现有效切割。理解齿段的功能不仅涉及其机械属性，还涉及认识其对整体系统性能的影响。设计良好的齿段可以提高机器的效率和可靠性，而设计不当则可能导致故障和低效。因此，工程师必须仔细考虑齿段的设计和所用材料，以确保最佳性能。总之，齿段这一术语涵盖了许多在众多机械系统中不可或缺的组件。它与其他部件的互锁能力使得精确控制和运动成为可能，这使得它在齿轮、输送机和切削工具中成为关键元素。通过理解齿段的作用，我们可以欣赏机械设计的复杂性，以及每个组件在整体功能中所作出的贡献。随着技术的进步，齿段的设计和应用将继续演变，进一步增强现代机械和设备的能力。