engineering drawing

简明释义

工程绘图

英英释义

例句

1.The team used the engineering drawing 工程图 as a reference during the assembly process.

团队在组装过程中使用了这份工程图 engineering drawing作为参考。

2.The architect provided an engineering drawing 工程图 to show the layout of the new building.

建筑师提供了一份工程图 engineering drawing以展示新建筑的布局。

3.Before starting construction, we need to review the engineering drawing 工程图 for any errors.

在开始施工之前，我们需要检查一下工程图 engineering drawing是否有错误。

4.The engineering drawing 工程图 includes detailed specifications for the mechanical components.

这份工程图 engineering drawing包含了机械部件的详细规格。

5.Each engineering drawing 工程图 must adhere to industry standards to ensure clarity.

每一份工程图 engineering drawing都必须遵循行业标准，以确保清晰度。

作文

In the field of engineering, communication is vital. One of the most important forms of communication is through visual means, and this is where engineering drawing comes into play. 工程图纸 is a type of technical drawing that provides detailed information about how to construct, assemble, or manufacture a product. It serves as a universal language among engineers, architects, and manufacturers, allowing them to convey complex ideas and specifications clearly and precisely.The significance of engineering drawing cannot be overstated. It acts as a blueprint for projects, ensuring that everyone involved understands the requirements and expectations. Without such drawings, the risk of miscommunication increases, potentially leading to costly mistakes and delays in production. For instance, if a component is manufactured without an accurate engineering drawing, it may not fit with other parts, rendering the entire project ineffective. Therefore, mastering the art of creating and interpreting engineering drawing is crucial for anyone entering the engineering profession.There are various types of engineering drawing used across different fields. Mechanical engineers often use orthographic projections, which show multiple views of an object from different angles. Civil engineers might create site plans that detail the layout of buildings, roads, and utilities. Electrical engineers utilize schematic diagrams to represent electrical circuits. Each type of engineering drawing has its own conventions and standards, which professionals must learn to ensure clarity and accuracy.Learning to read and create engineering drawing requires a solid understanding of geometric principles and technical standards. Most engineering programs include courses focused on drafting and design, where students practice creating detailed drawings using both traditional methods and computer-aided design (CAD) software. CAD has revolutionized the way engineering drawing is produced, allowing for greater precision and the ability to easily modify designs. This technology has made it possible to visualize complex structures and components in three dimensions, enhancing understanding and collaboration among team members.Moreover, engineering drawing is not just limited to the creation of blueprints. It also involves annotations, dimensions, and notes that explain the specifics of the design. These additional details are crucial for ensuring that the final product meets the intended specifications. For example, tolerances must be indicated on engineering drawing to specify how much variation is acceptable in the manufacturing process. This attention to detail ensures that parts will fit together correctly and perform as needed.In conclusion, engineering drawing is an essential skill in the engineering industry. It serves as a fundamental means of communication, conveying complex information in a clear and understandable manner. As technology continues to advance, the methods of creating and interpreting engineering drawing will evolve, but the core principles will remain the same. Aspiring engineers must invest time and effort in mastering this skill, as it will be a critical component of their professional toolkit. Understanding engineering drawing will not only enhance their career prospects but also contribute to the successful completion of projects that can have a significant impact on society.

在工程领域，沟通至关重要。最重要的沟通形式之一是通过视觉手段，而这正是工程图纸发挥作用的地方。工程图纸是一种技术图纸，提供有关如何构造、组装或制造产品的详细信息。它作为工程师、建筑师和制造商之间的通用语言，使他们能够清晰而准确地传达复杂的想法和规格。工程图纸的重要性无法被低估。它作为项目的蓝图，确保所有参与者理解要求和期望。如果没有这样的图纸，误沟通的风险增加，可能导致昂贵的错误和生产延误。例如，如果一个组件在没有准确的工程图纸的情况下制造，它可能无法与其他部件配合，从而使整个项目无效。因此，掌握创建和解读工程图纸的艺术对于任何进入工程行业的人来说都是至关重要的。在不同领域使用各种类型的工程图纸。机械工程师通常使用正投影，显示物体从不同角度的多个视图。土木工程师可能会创建场地平面图，详细说明建筑物、道路和公用设施的布局。电气工程师利用原理图表示电路。每种类型的工程图纸都有其自己的规范和标准，专业人员必须学习以确保清晰和准确。学习阅读和创建工程图纸需要对几何原理和技术标准有扎实的理解。大多数工程课程包括专注于制图和设计的课程，学生在这些课程中练习使用传统方法和计算机辅助设计（CAD）软件创建详细图纸。CAD彻底改变了工程图纸的制作方式，使得更高的精度和轻松修改设计成为可能。这项技术使得可视化复杂结构和组件在三维空间中成为可能，从而增强了团队成员之间的理解与合作。此外，工程图纸不仅限于蓝图的创建。它还涉及注释、尺寸和说明，这些说明解释了设计的具体细节。这些附加细节对于确保最终产品符合预期规格至关重要。例如，必须在工程图纸上指明公差，以指定制造过程中可接受的变动范围。这种对细节的关注确保了部件能够正确配合并按需工作。总之，工程图纸是工程行业中一项基本技能。它作为一种基本的沟通手段，以清晰易懂的方式传达复杂信息。随着技术的不断进步，创建和解读工程图纸的方法将不断演变，但核心原则将保持不变。渴望成为工程师的人必须投入时间和精力来掌握这一技能，因为它将是他们职业工具箱中的关键组成部分。理解工程图纸不仅会增强他们的职业前景，还将有助于成功完成对社会产生重大影响的项目。