engine-turning gear

简明释义

盘车装置

英英释义

例句

1.The intricate design of the engine-turning gear adds beauty to the mechanical watch.

复杂的机动齿轮设计为机械表增添了美感。

2.He had to replace the broken engine-turning gear to get the engine running again.

他必须更换损坏的机动齿轮才能让发动机重新运转。

3.The watchmaker carefully adjusted the engine-turning gear to ensure precise timekeeping.

钟表匠小心调整机动齿轮以确保精确的计时。

4.The engine-turning gear is essential for the smooth operation of the vehicle's transmission system.

机动齿轮对于车辆变速系统的平稳运行至关重要。

5.In the assembly line, the engine-turning gear plays a crucial role in the machinery's operation.

在装配线上，机动齿轮在机器的运作中起着至关重要的作用。

作文

The world of engineering is filled with fascinating components that play crucial roles in the functionality of machines. One such component that deserves attention is the engine-turning gear. This intricate mechanism is often found in various types of machinery, from simple devices to complex engines. Understanding the significance and application of the engine-turning gear can provide insights into the broader field of mechanical engineering.To begin with, the term engine-turning gear refers to a specialized gear system designed for precise movements and rotations. It is primarily used in applications where accuracy is paramount. For instance, in the automotive industry, engine-turning gears are employed to ensure that the engine components work in harmony, thus enhancing overall performance. The precision of these gears contributes to the smooth operation of vehicles, making them essential for both safety and efficiency.In addition to automotive applications, engine-turning gears are also prevalent in manufacturing processes. Machinery that requires exact positioning and timing often relies on these gears to achieve desired outcomes. For example, in the production of watches, the intricate movements of the timepiece depend heavily on the precise functioning of engine-turning gears. Without these components, the delicate mechanisms that keep time accurately would fail to operate effectively.Moreover, the design of engine-turning gears is a testament to the innovation within the engineering field. Engineers must consider various factors, including material strength, wear resistance, and load capacity when designing these gears. The choice of materials can greatly impact the longevity and performance of the gear system. For instance, using high-quality steel or advanced composites can enhance durability, allowing the gears to withstand the rigors of operation over time.Furthermore, the manufacturing process of engine-turning gears involves advanced techniques such as computer numerical control (CNC) machining. This technology allows for the creation of highly detailed and precise components, ensuring that every gear meets strict specifications. The integration of technology in the production of these gears exemplifies how modern engineering continuously evolves to meet the demands of various industries.One of the most intriguing aspects of engine-turning gears is their role in automation. As industries move towards more automated systems, the need for reliable and efficient gear systems becomes even more critical. Automated machinery often relies on engine-turning gears to perform repetitive tasks with high accuracy, thereby increasing productivity while minimizing human error. This shift towards automation not only enhances efficiency but also opens up new avenues for innovation in gear design and application.In conclusion, the engine-turning gear is an essential component in the realm of engineering, impacting various industries from automotive to manufacturing. Its ability to provide precise movements and facilitate automation makes it a cornerstone of modern machinery. As we continue to advance technologically, understanding the importance of components like engine-turning gears will be vital for future innovations and improvements in engineering practices. Therefore, recognizing the value of these gears is crucial for anyone interested in the field of mechanical engineering and its applications in our daily lives.

工程学的世界充满了各种引人入胜的组件，这些组件在机器的功能中发挥着至关重要的作用。其中一个值得关注的组件是发动机转动齿轮。这种复杂的机制通常出现在各种类型的机械中，从简单的设备到复杂的引擎。理解发动机转动齿轮的重要性和应用可以为我们提供对机械工程更广泛领域的深入理解。首先，术语发动机转动齿轮指的是一种专门设计用于精确运动和旋转的齿轮系统。它主要用于对准确性要求极高的应用中。例如，在汽车工业中，发动机转动齿轮用于确保发动机组件之间的协调工作，从而提升整体性能。这些齿轮的精确性有助于车辆的平稳运行，使其在安全性和效率上都至关重要。除了汽车应用外，发动机转动齿轮在制造过程中也很常见。需要精确定位和定时的机械设备通常依赖于这些齿轮来实现预期的结果。例如，在手表生产中，时间的精细移动在很大程度上依赖于发动机转动齿轮的精确运作。如果没有这些组件，保持时间准确的精密机制将无法有效运作。此外，发动机转动齿轮的设计证明了工程领域内的创新。工程师在设计这些齿轮时必须考虑多种因素，包括材料强度、耐磨性和负载能力。材料的选择会极大影响齿轮系统的使用寿命和性能。例如，使用高质量的钢材或先进的复合材料可以增强耐用性，使齿轮能够承受长期操作的严酷条件。此外，发动机转动齿轮的制造过程涉及先进的技术，如计算机数控（CNC）加工。这项技术使得能够创建高度详细和精确的组件，确保每个齿轮都符合严格的规格。这种技术在这些齿轮生产中的应用，体现了现代工程如何不断发展以满足各行业的需求。发动机转动齿轮最引人注目的方面之一是它们在自动化中的作用。随着各行业向更自动化的系统发展，对可靠和高效的齿轮系统的需求变得更加关键。自动化机械通常依赖于发动机转动齿轮来以高精度执行重复任务，从而提高生产力，同时减少人为错误。这种自动化的转变不仅提升了效率，还为齿轮设计和应用的创新开辟了新途径。总之，发动机转动齿轮是工程领域中的一个重要组成部分，影响着从汽车到制造业的各个行业。它提供精确运动并促进自动化的能力使其成为现代机械的基石。随着我们继续在技术上取得进步，理解像发动机转动齿轮这样的组件的重要性将对未来的创新和工程实践的改进至关重要。因此，认识到这些齿轮的价值对于任何对机械工程及其在我们日常生活中的应用感兴趣的人来说都是至关重要的。