sectional view

简明释义

剖视图

英英释义

例句

1.To better understand the plumbing system, we examined the sectional view 剖面图 provided by the contractor.

为了更好地理解管道系统，我们查看了承包商提供的sectional view 剖面图。

2.In the engineering report, a sectional view 剖面图 of the machine was included to illustrate its internal components.

在工程报告中，包含了一张机器的sectional view 剖面图，以说明其内部组件。

3.The sectional view 剖面图 of the landscape design helped clients visualize the terrain changes.

景观设计的sectional view 剖面图帮助客户想象地形变化。

4.The textbook included a sectional view 剖面图 of the human heart to explain its anatomy.

教科书中包含了一张人类心脏的sectional view 剖面图，以解释其解剖结构。

5.The architect provided a detailed sectional view 剖面图 of the building to show how different floors are connected.

建筑师提供了详细的sectional view 剖面图，以展示不同楼层之间的连接方式。

作文

In the field of architecture and engineering, a clear understanding of various concepts is essential for effective communication and design. One such concept is the sectional view, which plays a crucial role in conveying complex information about structures. A sectional view refers to a drawing or representation that illustrates the internal features of an object by cutting through it along a specified plane. This technique allows architects and engineers to present details that are not visible in standard elevation or plan views.For instance, when designing a multi-story building, architects often use sectional views to showcase the arrangement of rooms, staircases, and other critical elements within the structure. By providing a cross-section of the building, stakeholders can visualize how spaces interact with one another and assess the overall functionality of the design. Without sectional views, it would be challenging to understand the spatial relationships and proportions of different components.Moreover, sectional views are not limited to architectural drawings; they are also widely used in mechanical engineering. In this context, a sectional view helps illustrate the internal mechanisms of machines and devices. For example, when creating a technical manual for a complex piece of machinery, engineers often include sectional views to demonstrate how parts fit together and operate. This clarity is vital for maintenance personnel who need to troubleshoot and repair equipment effectively.Another significant advantage of using sectional views is their ability to simplify complex structures. By breaking down an object into manageable sections, designers can highlight specific features and provide detailed annotations. This approach not only aids in comprehension but also enhances collaboration among team members who may have varying levels of expertise. For instance, a team of architects and engineers can discuss a sectional view to address design challenges more efficiently than if they were examining a full-scale model or a two-dimensional plan.Furthermore, sectional views are instrumental in educational settings. Students studying architecture, engineering, or design often learn to create and interpret sectional views as part of their curriculum. This skill is essential for their future careers, as it equips them with the ability to analyze and communicate complex ideas effectively. By mastering the technique of producing sectional views, students gain a deeper understanding of spatial relationships and the intricacies of design.In conclusion, the importance of sectional views in architecture and engineering cannot be overstated. They serve as a powerful tool for visualizing internal structures, simplifying complex designs, and facilitating effective communication among professionals. Whether in architectural blueprints or mechanical diagrams, sectional views provide invaluable insights that enhance our understanding of the built environment and the machines we rely on. As technology continues to evolve, the use of sectional views will remain a fundamental aspect of design and engineering education, ensuring that future generations are equipped with the knowledge and skills necessary to tackle the challenges of their fields.

在建筑和工程领域，清晰理解各种概念对于有效沟通和设计至关重要。其中一个关键概念是剖面图，它在传达结构的复杂信息方面发挥着重要作用。剖面图指的是通过沿特定平面切割物体而展示其内部特征的绘图或表示。这种技术使建筑师和工程师能够呈现标准立面或平面图中不可见的细节。例如，在设计一栋多层建筑时，建筑师通常使用剖面图来展示房间、楼梯和其他关键元素在结构中的排列。通过提供建筑的横截面，利益相关者可以直观地了解空间如何相互作用，并评估设计的整体功能。如果没有剖面图，理解不同组件的空间关系和比例将会很困难。此外，剖面图不仅限于建筑图纸；它们在机械工程中也被广泛使用。在这种情况下，剖面图有助于说明机器和设备的内部机制。例如，在为复杂机械编写技术手册时，工程师通常会包括剖面图来演示零件如何组合和运作。这种清晰度对于需要有效排除故障和维修设备的维护人员至关重要。使用剖面图的另一个显著优势是它们能够简化复杂结构。通过将物体分解成可管理的部分，设计师可以突出特定特征并提供详细注释。这种方法不仅有助于理解，还增强了团队成员之间的合作，因为他们可能具有不同的专业水平。例如，一组建筑师和工程师可以讨论剖面图，更有效地解决设计挑战，而不是检查全尺寸模型或二维平面。此外，剖面图在教育环境中也起着重要作用。学习建筑、工程或设计的学生通常在课程中学习创建和解读剖面图的技能。这项技能对于他们未来的职业生涯至关重要，因为它使他们能够有效分析和传达复杂的想法。通过掌握制作剖面图的技术，学生能够更深入地理解空间关系和设计的复杂性。总之，剖面图在建筑和工程中的重要性不容小觑。它们作为可视化内部结构、简化复杂设计和促进专业人士之间有效沟通的强大工具。无论是在建筑蓝图还是机械图纸中，剖面图都提供了宝贵的见解，增强了我们对建筑环境和我们依赖的机器的理解。随着技术的不断发展，剖面图的使用将继续成为设计和工程教育的基本方面，确保未来几代人具备应对其领域挑战所需的知识和技能。