Monday, 18 March 2013

Tool Design - AutoCAD Application in the area of MOLD DESIGN / PRODUCT DESIGN - PART:-1


BASICS OF CAD (FOR MOLD DESIGN)

Computer-Aided Design (CAD) is a computer-aided technique for improving the efficiency of design engineering and manufacturing activities.  The term CAD was originally used to mean computer-aided design and is still sometimes used in this sense in that it is the use of computer in conceptual design/engineering design part of the process and includes analysis and simulation rather than drafting.  The term CAD has also nevertheless been used to mean computer-aided drafting.  Some CAD applications in the Design Engineering are as listed

(1)        Preparation of quotations
(2)        Conceptual design
(3)        Styling
(4)        Finite-element analysis
(5)        Simulation
(6)        Engineering designs
(7)        Detailed design
(8)        Part listing
(9)        Quality assurance

COMPUTER-AIDED DESIGN

With the help of computer technology, the designer has the capability of managing the enormous number of design, material, and process applications available when designing with plastics.  IN the past, the designer more often than not had to limit the material, process, and design choices to those that were familiar.  However, the computer now provides a means of developing a number of design concepts, quickly evaluating them against established functional and performance criteria in a wide range of materials and processes, and making the necessary design modifications.

The approach provides finished drawings and specifications that can be furnished with increased accuracy and confidence, usually in less time than before.  In addition, the computer provides many other advantages.  IF one dimension is changed that effects many others, all the dimensions will be changed automatically by the computer a the same time the initial change is made.

It is of course possible that entering the initial three-dimensional geometry for various design concepts into a computer can be more time consuming than developing concept sketches with conventional long-hand methods.  However, subsequent revisions and analyses of that geometry can be performed many times faster on computer than manually.

BENEFITS OF CAD:
(1)        Direct cost saving
(2)        Direct time saving
(3)        Improvement in product quality
(4)        Increase in volume of business
Benefits of using can be explained taking case in which, by manual techniques, design and drafting of a part takes two people 15 days each or total of 30 man-days.

As a direct cost saving, for example, terminate the employment of one of the people, thus making a saving in salary costs (this is a fairly unusual solution, since it implies stagnation of the company’s business, and most companies look to CAD/CAM to promote growth);



As a direct time saving, for example by only spending 15 days on design and drafting of this part, the overall design engineering cycle time will be reduced.  Hopefully,  the part can be therefore be produced and sold earlier than would have been possible without CAD/CAM.  Since both people are retained by the company, the 15 days  “saved” can be used to design another part, which can also be produced and sold earlier than would otherwise have been possible.

As an improvement in product quality: continue to spend 30 days on design and drafting of the part, but investigate more than design alternatives and carry out more through checks of the design;

As an increase of volume of business: spending the required 15 days on the part, but spending the 15 days “saved” on preparation a proposal and quotation to compete for a tender that would otherwise have been ignored.

INTRODUCTION TO AUTOCAD:
The AUTOCAD design package is a general purpose Computer Aided Design/drafting application software for the computers.  CAD applications are tremendously powerful tools.  The speed and ease with which a drawing can be prepared and modified using a computer offers a phenomenal advantage over “hand” preparation.

There is virtually no limit to kinds of the drawings you can prepare using AUTOCAD.  IF a drawing can be created by hand, it can be generated by AUTOCAD.

The application for which AUTOCAD is being used today.

*          Work flow charts and organizational diagrams.
*          Proposals and presentations.
*          Graphs of all kinds.
*          Drawings for electronic, chemical, civil, mechanical, automotive, and aerospace engineering applications.
*          Plots and other representations of mathematical and scientific functions.
*          technical illustrations and assembly diagrams.
*          Company logos.

AUTOCAD remembers the locations, sizes, and colors of the objects you draw,
maintaining them in a database for subsequent retrieval, analysis and manipulations.

No technical knowledge is required to use AUTOCAD effectively; practice and a
thorough understanding of its features are key to proficiency.

THE AUTOCAD DRAWING :
An AUTOCAD drawing is a file that describes a graphic image.  AUTOCAD uses this
description to produce the image on the screen or the plotter paper.


CREATING THE DRAWINGS:

The following concepts and terms introduce the main elements of an AUTOCAD
drawing.

(1)        WORLD CO-ORDINATE SYSTEM:
AUTOCAD uses a fixed cartesian co-ordinte system, to locate point in your drawings.  A point is expressed as an (x,y,z) co-ordinate pair.  the origin is where the values of x and y,z are zero.  We’ll call this system the world co-ordinate system.

(2)        USER CO-ORDINATE SYSTEM:
The world co-ordinate system is fixed and cannot be altered in AUTOCAD.  However, you can define an arbitrary coordinate system, called user co-ordinate system (UCS), within this UCS.

(3)        CO-ORDINATE SYSTEM ICON:
To help your bearings among different co-ordinate systems in drawings, you can refer to the co-ordinate system icon.

(4)        RIGHT HAND RULE :
AUTOCAD uses the right hand rule, to define all coordinate system.

(5)        DRAWINGS UNITS & SCALING :
The distance between two co-ordinate is measured in drawing units.

(6)        DRAWING LIMITS AND EXTENTS :
AUTOCAD assumes that you are drawing in a rectangular area.  The drawing limits are the borders of this rectangle, expressed in X,Y drawing co-ordinates.  You can select whatever limits make sense for your drawing.

(7)        DRAWING ENTITIES :
Much of the “drawing” you do with AUTOCAD consists of positioning entities at co-ordinate locations.  An entity is predefined element that you place in a drawing by means of a single command.  Lines, arcs, and circles use entities you will use frequently.

(8)        COLOURS AND LINETYPES :
You can assign and a linetypes to each entity.  the colour is a number from 1 to 255 that selects the actual colour in which items are drawn on the graphics monitor.  A lintype is a specific sequence of alternating line segments and spaces using these properties, you can draw attention to important details in your drawing, highlight recent changes, or depict the relationships among entities.

(9)        LAYERS :
You can assign portions of your drawing to different layers, and you can define as many layers as you like.  The layering concept is similar to the transparent overlap used in many drafting applications.  Layering allows you to view and plot related aspects of a drawing separately or in any combination.

(10)      DRAWING INSERTION :
You can treat an existing AUTOCAD drawing (stored on disk) as a block and merge it into the drawing that you are currently creating.


(11)      FREE HAND SKETCHING :
AUTOCAD has a facility for sketching.  You can draw short, connected lines freehand with a pointing device allowing you to trace map, or add your signature to a drawing.

VIEWING THE DRAWING
AUTOCAD offers many ways for you to view your drawing in progress and after it is completed.

            (i)         Zooming and Panning.
            (ii)        Display Extents.
            (iii)       Plan view and 3D views.
            (iv)       Viewports.
            (v)        Resolution.
            (vi)       Editing the drawing.


  
PRODUCT DESIGN MAKING IN AUTO CAD (example)

In the next part we will see about the commands which are mainly used for making mould design and product design...

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