schematic drawing

简明释义

略图

英英释义

例句

1.The engineer presented a schematic drawing to illustrate the wiring layout for the new building.

工程师展示了一幅示意图，以说明新建筑的布线布局。

2.The schematic drawing of the plumbing system helped the technicians identify potential issues.

这幅示意图帮助技术人员识别管道系统中的潜在问题。

3.In the physics class, we used a schematic drawing to explain the circuit connections.

在物理课上，我们使用了一幅示意图来解释电路连接。

4.Before starting construction, the architect provided a detailed schematic drawing of the project.

在开始施工之前，建筑师提供了项目的详细示意图。

5.We need to create a schematic drawing for the user interface of the new software application.

我们需要为新软件应用程序的用户界面创建一幅示意图。

作文

In the field of engineering and design, communication is key to conveying ideas and concepts effectively. One of the most important tools that professionals use to achieve this is the schematic drawing. A schematic drawing is a simplified representation of a system or a process that illustrates its components and their relationships. Unlike detailed technical drawings, schematic drawings focus on the overall structure and functionality rather than precise measurements or intricate details. This makes them invaluable in various fields such as electronics, architecture, and mechanical engineering.The primary purpose of a schematic drawing is to provide a clear and concise overview of complex systems. For instance, in electrical engineering, a schematic drawing can depict how different components of a circuit are connected. It uses symbols to represent various elements like resistors, capacitors, and power sources, allowing engineers to understand how the circuit operates without getting bogged down by unnecessary details. This abstraction helps in troubleshooting and designing new circuits, as it allows engineers to see the big picture.Similarly, in architecture, schematic drawings play a crucial role during the initial phases of design. Architects create schematic drawings to outline the layout and flow of a building, depicting how spaces interact with one another. These drawings help clients visualize the project and provide feedback before moving on to more detailed plans. By presenting a simplified version of the design, architects can communicate their vision effectively, ensuring that all stakeholders are on the same page.Moreover, schematic drawings are not limited to engineering and architecture. They are also widely used in software development, where they help illustrate the architecture of a system or application. Developers create schematic drawings to show how different modules interact with each other, making it easier to identify potential issues and optimize performance. This visual representation simplifies complex algorithms and processes, enabling teams to collaborate more efficiently.The use of schematic drawings extends beyond professional settings; they are also beneficial in educational contexts. Teachers often use schematic drawings to explain complicated subjects, such as biology or physics. For example, a schematic drawing of the human circulatory system can help students understand how blood flows through the body, highlighting key components like the heart and major arteries. This visual aid reinforces learning by providing a clear reference point for students to grasp challenging concepts.In conclusion, schematic drawings are an essential tool in various disciplines, serving as a bridge between complex ideas and clear communication. Their ability to simplify intricate systems into understandable visuals makes them indispensable in engineering, architecture, software development, and education. As technology continues to advance, the importance of effective communication will only grow, making schematic drawings even more vital in our increasingly complex world. Understanding and mastering the use of schematic drawings can greatly enhance one’s ability to convey ideas and collaborate with others, ultimately leading to more successful outcomes in any field.

在工程和设计领域，沟通是有效传达想法和概念的关键。专业人士使用的最重要工具之一就是示意图。示意图是系统或过程的简化表示，展示其组件及其关系。与详细的技术图纸不同，示意图关注整体结构和功能，而不是精确的尺寸或复杂的细节。这使得它们在电子、电气、建筑和机械工程等多个领域中极为宝贵。示意图的主要目的是提供对复杂系统的清晰而简明的概述。例如，在电气工程中，示意图可以描绘电路中不同组件的连接方式。它使用符号表示各种元素，如电阻器、电容器和电源，使工程师能够理解电路的工作原理，而不必陷入不必要的细节。这种抽象有助于故障排除和新电路的设计，因为它使工程师能够看到全局。同样，在建筑学中，示意图在设计的初始阶段也发挥着至关重要的作用。建筑师创建示意图来概述建筑的布局和流动，描绘空间之间如何相互作用。这些图纸帮助客户可视化项目，并在进入更详细的计划之前提供反馈。通过呈现设计的简化版本，建筑师能够有效地传达他们的愿景，确保所有利益相关者在同一页面上。此外，示意图并不仅限于工程和建筑。它们在软件开发中也被广泛使用，帮助说明系统或应用程序的架构。开发人员创建示意图以展示不同模块之间的交互，使识别潜在问题和优化性能变得更加容易。这种视觉表现简化了复杂的算法和过程，使团队能够更高效地协作。示意图的使用超越了专业环境；它们在教育背景下也很有益。教师经常使用示意图来解释复杂的学科，例如生物或物理。例如，示意图可以帮助学生理解血液如何在体内流动，突出心脏和主要动脉等关键组成部分。这种视觉辅助通过提供清晰的参考点来强化学习，帮助学生掌握具有挑战性的概念。总之，示意图是各个学科中不可或缺的工具，作为复杂思想与清晰沟通之间的桥梁。它们将复杂系统简化为可理解的视觉效果，使其在工程、建筑、软件开发和教育中不可或缺。随着技术的不断进步，有效沟通的重要性只会增加，使得示意图在我们日益复杂的世界中变得更加重要。理解和掌握示意图的使用可以大大增强一个人传达思想和与他人合作的能力，从而最终在任何领域取得更成功的结果。