transmission diagram

简明释义

传动图

英英释义

例句

1.When designing the circuit, the technician created a detailed transmission diagram for reference.

在设计电路时，技术员制作了详细的传输图以供参考。

2.In our class, we learned how to read a transmission diagram for better understanding of signal flow.

在我们的课堂上，我们学习了如何阅读传输图以更好地理解信号流动。

3.The maintenance team used the transmission diagram to identify potential points of failure.

维修团队使用传输图来识别潜在的故障点。

4.The transmission diagram showed the relationship between different components in the system.

该传输图显示了系统中不同组件之间的关系。

5.The engineer referred to the transmission diagram to troubleshoot the issue in the network.

工程师参考了传输图来排除网络中的问题。

作文

In the field of engineering and mechanics, understanding how various systems function is crucial for effective design and operation. One essential tool that engineers use to illustrate the workings of mechanical systems is the transmission diagram. A transmission diagram (传动图) visually represents the components involved in the transmission of power from one part of a machine to another. This diagram is fundamental in understanding how force and motion are transferred through gears, belts, and other mechanical linkages.The primary purpose of a transmission diagram is to simplify complex mechanical processes into a format that can be easily understood. It highlights the relationships between different components, such as motors, gearboxes, and driveshafts. By using symbols and lines, engineers can depict how these elements interact with each other. For instance, a simple transmission diagram might show how an electric motor drives a series of gears that ultimately power a conveyor belt. This clarity is vital for both design and troubleshooting purposes.Moreover, transmission diagrams are not only beneficial for engineers but also for technicians and operators who need to maintain and repair machinery. When faced with a malfunction, referring to a transmission diagram allows them to quickly identify which components are involved in the transmission system. This can significantly reduce downtime and improve the efficiency of maintenance operations.In addition to practical applications, transmission diagrams also play a vital role in education. Engineering students learn to create and interpret these diagrams as part of their curriculum. Understanding how to read a transmission diagram is a foundational skill that will serve them throughout their careers. It provides insight into the dynamics of mechanical systems and prepares them for real-world challenges.Creating a transmission diagram involves several steps. First, the engineer must identify all the components that will be included in the diagram. This may include various types of motors, gears, pulleys, and other transmission elements. Next, they must determine how these components are connected and how they interact with each other. Finally, the engineer will draw the diagram, ensuring that it is clear and easy to understand.One common challenge when working with transmission diagrams is ensuring accuracy. Any errors in the diagram can lead to misunderstandings and potentially costly mistakes during the manufacturing or maintenance process. Therefore, it is essential for engineers to double-check their work and possibly have it reviewed by colleagues.In conclusion, the transmission diagram (传动图) is an invaluable tool in the fields of engineering and mechanics. It simplifies complex systems, aids in maintenance and repair, and serves as a critical educational resource for students. As technology continues to advance, the importance of precise and clear transmission diagrams will only grow, ensuring that engineers can effectively communicate their ideas and solutions in an increasingly complex world.

在工程和机械领域，理解各种系统如何运作对于有效设计和操作至关重要。工程师使用的一个基本工具是传动图，它用于说明机械系统的工作原理。传动图（transmission diagram）以视觉方式表示传递动力的组件，从机器的一部分到另一部分。这种图示对于理解力和运动如何通过齿轮、皮带和其他机械联动传递是至关重要的。传动图的主要目的是将复杂的机械过程简化为易于理解的格式。它突出了不同组件之间的关系，例如电动机、齿轮箱和驱动轴。通过使用符号和线条，工程师可以描绘这些元素如何相互作用。例如，一个简单的传动图可能显示电动机如何驱动一系列齿轮，最终为输送带提供动力。这种清晰性对于设计和故障排除都至关重要。此外，传动图不仅对工程师有益，对需要维护和修理机械的技术人员和操作员同样重要。当面临故障时，参考传动图可以让他们快速识别涉及传动系统的组件。这可以显著减少停机时间，提高维护操作的效率。除了实际应用，传动图在教育中也发挥着重要作用。工程专业的学生在课程中学习如何创建和解释这些图表。理解如何阅读传动图是他们职业生涯中的基础技能。这为他们提供了对机械系统动态的洞察，并为现实世界的挑战做好准备。创建传动图涉及几个步骤。首先，工程师必须识别将包含在图表中的所有组件。这可能包括各种类型的电动机、齿轮、滑轮和其他传动元件。接下来，他们必须确定这些组件之间的连接方式以及如何相互作用。最后，工程师将绘制图表，确保其清晰易懂。在处理传动图时，一个常见的挑战是确保准确性。图表中的任何错误都可能导致误解，并可能在制造或维护过程中造成昂贵的错误。因此，工程师必须仔细检查他们的工作，并可能请同事审核。总之，传动图（transmission diagram）是工程和机械领域中一项无价的工具。它简化了复杂的系统，有助于维护和修理，并作为学生的重要教育资源。随着技术的不断进步，精确和清晰的传动图的重要性只会增加，确保工程师能够在日益复杂的世界中有效地传达他们的想法和解决方案。