Drawings Graphics Language

Sample of engineering Design Drawings

1.General:A technical person can use the graphic language as powerful means of communication with others for conveying ideas on technical matters. However, for effective exchange of ideas with others, the engineer must have proficiency in

(i) language, both written and oral,

(ii) symbols associated with basic sciences and

(iii) the graphic language. Engineering drawing is a suitable graphic language from which any trained person can visualise the required object.

As an engineering drawing displays the exact picture of an object, it obviously conveys the same ideas to every trained eye. Irrespective of language barriers, the drawings can be effectively used in other countries, in addition to the country where they are prepared. Thus, the engineering drawing is the universal language of all engineers. Engineering drawing has its origin sometime in 500 BC in the regime of King Pharos of Egypt when symbols were used to convey the ideas among people.

2.Importance Of Graphics Language: The graphic language had its existence when it became necessary to build new structures and create new machines or the like, in addition to representing the existing ones. In the absence of graphic language, the ideas on technical matters have to be conveyed by speech or writing, both are unreliable and difficult to understand by the shop floor people for manufacturing. This method involves not only lot of time and labour, but also manufacturing errors. Without engineering drawing, it would have been impossible to produce objects such as aircrafts, automobiles, locomotives, etc., each requiring thousands of different components.

3.Need For Correct Drawings: The drawings prepared by any technical person must be clear, unmistakable in meaning and there should not be any scope for more than one interpretation, or else litigation may arise. In a number of dealings with contracts, the drawing is an official document and the success or failure of a structure depends on the clarity of details provided on the drawing. Thus, the drawings should not give any scope for mis-interpretation even by accident. It would not have been possible to produce the machines/automobiles on a mass scale where a number of assemblies and sub-assemblies are involved, without clear, correct and accurate drawings. To achieve this, the technical person must gain a thorough knowledge of both the principles and conventional practice of draughting. If these are not achieved and or practiced, the drawings prepared by one may convey different meaning to others, causing unnecessary delays and expenses in production shops. Hence, an engineer should posses good knowledge, not only in preparing a correct drawing but also to read the drawing correctly. The course content of this book is expected to meet these requirements. The study of machine drawing mainly involves learning to sketch machine parts and to make working and assembly drawings. This involves a study of those conventions in drawings that are widely adopted in engineering practice.

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Part Mode, Assembly Mode And Drawing Mode In Solidworks 2016

Part Mode
The Part mode of SOLIDWORKS is a feature-based parametric environment in which you can create solid models. In this mode, you are provided with three default planes named as Front Plane, Top Plane, and Right Plane. First, you need to select a sketching plane to create a sketch for the base feature. On selecting a sketching plane, you enter the sketching environment. The sketches for the model are drawn in the sketching environment using easy-to-use tools. After drawing the sketches, you can dimension them and apply the required relations in the same sketching environment. The design intent is captured easily by adding relations and equations and using the design table in the design. You are provided with the standard hole library known as the Hole Wizard in the Part mode. You can create simple holes, tapped holes, counterbore holes, countersink holes, and so on by using this wizard. The holes can be of any standard such as ISO, ANSI, JIS, and so on. You can also create complicated surfaces by using the surface modeling tools available in the Part mode. Annotations such as weld symbols, geometric tolerance, datum references, and surface finish symbols can be added to the model within the Part mode. The standard features that are used frequently can be saved as library features and retrieved when needed. The palette feature library of SOLIDWORKS contains a number of standard mechanical parts and features. You can also create the sheet metal components in this mode of SOLIDWORKS by using the related tools. Besides this, you can also analyze the part model for various stresses applied to it in the real physical conditions by using an easy and userfriendly tool called SimulationXpress. It helps you reduce the cost and time in physically testing your design in real testing conditions (destructive tests). You can also analyze the component during modeling in the SOLIDWORKS windows. In addition, you can work with the weld modeling within the Part mode of SOLIDWORKS by creating steel structures and adding weld beads. All standard weld types and welding conditions are available for your reference. You can extract the core and the cavity in the Part mode by using the mold design tools.
Assembly Mode

In the Assembly mode, you can assemble components of the assembly with the help of the required tools. There are two methods of assembling the components:
1. Bottom-up assembly
2. Top-down assembly

In the bottom-up assembly method, the assembly is created by assembling the components created earlier and maintaining their design intent. In the top-down method, the components are created in the assembly mode. You may begin with some ready-made parts and then create other components in the
context of the assembly. You can refer to the features of some components of the assembly to drive the dimensions of other components. You can assemble all components of an assembly by using a single tool, the Mate tool. While assembling the components of an assembly, you can also animate
the assembly by dragging. Besides this, you can also check the working of your assembly. Collision
detection is one of the important features in this mode. Using this feature, you can rotate and move
components as well as detect the interference and collision between the assembled components. You
can see the realistic motion of the assembly by using physical dynamics. Physical simulation is used
to simulate the assembly with the effects of motors, springs, and gravity on the assemblies.
Drawing Mode
The Drawing mode is used for the documentation of the parts or the assemblies created earlier in the
form of drawing views. The procedure for creating drawing views is called drafting. There are two
types of drafting done in SOLIDWORKS:
1. Generative drafting
2. Interactive drafting
Generative drafting is a process of generating drawing views of a part or an assembly created earlier.
The parametric dimensions and the annotations added to the component in the Part mode can be
generated in the drawing views. Generative drafting is bidirectionally associative in nature. Automatic

BOMs and balloons can be added to an assembly while generating the drawing views of it.
In interactive drafting, you have to create the drawing views by sketching them using normal
sketching tools and then add dimensions to them.

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INTRODUCTION TO SOLIDWORKS 2016

Welcome to the world of Computer Aided Design (CAD) with SOLIDWORKS. If you are a new user
of this software package, you will be joining hands with thousands of users of this parametric, feature-based, and one of the most user-friendly software packages. If you are familiar with the previous releases of this software, you will be able to upgrade your designing skills with this improved release of SOLIDWORKS.
SOLIDWORKS, developed by the SOLIDWORKS Corporation, USA, is a feature-based, parametric
solid-modeling mechanical design and automation software. SOLIDWORKS is the first CAD package
to use the Microsoft Windows graphic user interface. The use of the drag and drop (DD) functionality
of Windows makes this CAD package extremely easy to learn. The Windows graphic user interface makes it possible for the mechanical design engineers to innovate their ideas and implement them in
the form of virtual prototypes or solid models, large assemblies, subassemblies, and detailing and
drafting.

SOLIDWORKS is one of the products of SOLIDWORKS Corporation, which is a part of Dassault
Systemes. SOLIDWORKS also works as platform software for a number of software. This implies
that you can also use other compatible software within the SOLIDWORKS window. There are a
number of software provided by the SOLIDWORKS Corporation, which can be used as add-ins with
SOLIDWORKS. Some of the software that can be used on SOLIDWORKS’s work platform are listed

below

SOLIDWORKS Motion SOLIDWORKS Routing ScanTo3D eDrawings
SOLIDWORKS Simulation SOLIDWORKS Toolbox PhotoView 360 CircuitWorks
SOLIDWORKS Plastics SOLIDWORKS Inspection TolAnalyst
As mentioned earlier, SOLIDWORKS is a parametric, feature-based, and easy-to-use mechanical
design automation software. It enables you to convert the basic 2D sketch into a solid model by using
simple but highly effective modeling tools. It also enables you to create the virtual prototype of a
sheet metal component and the flat pattern of the component. This helps you in the complete process
planning for designing and creating a press tool. SOLIDWORKS helps you to extract the core and the
cavity of a model that has to be molded or cast. With SOLIDWORKS, you can also create complex
parametric shapes in the form of surfaces. Some of the important modes of SOLIDWORKS are
discussed next.

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