Solid Modeled Assembly -(Group 10)

From GICLWiki
(Difference between revisions)
Jump to: navigation, search
(Introduction)
Line 3: Line 3:
  
 
== '''Introduction''' ==
 
== '''Introduction''' ==
Our 3D CAD Modeling was modeled and Assembled  in Autodesk Inventor. We picked these parts because of there important role in the Engine sub-system that they play. These components also allowed us to create two sub-assembolies which are a part of a greater assemboly, and also let us view the more complex parts which we talked about in the Product analysis, letting us see how changes in a part can change other aassemboly dimentions and constrains.  
+
Our 3D CAD Modeling was modeled and Assembled  in Autodesk Inventor. We choose to CAD these parts because of there important role in the Engine sub-system that they play and also because of the direct way in which all of these parts interact. These components also allowed us to create two sub-assemblies which are a part of a greater assembly, and also allowed us view the more complex parts which we talked about in the Product analysis, letting us see how changes in a part can change other assembly dimensions and constrains. Autodesk Inventor was chosen as a platform because of the free student seats which are given out to active students, this made is so we could CAD anywhere including the dissection lab where these components are kept. All of the CAD for this project was done using a subtractive process which made us as a group think about the more realistic ways these product where made or could have been made, excluding expensive additive processes.
 
+
  
 
== '''Piston''' ==  
 
== '''Piston''' ==  

Revision as of 11:17, 19 November 2012

Gate 3 - Product Analysis (Group 10)


Contents

Introduction

Our 3D CAD Modeling was modeled and Assembled in Autodesk Inventor. We choose to CAD these parts because of there important role in the Engine sub-system that they play and also because of the direct way in which all of these parts interact. These components also allowed us to create two sub-assemblies which are a part of a greater assembly, and also allowed us view the more complex parts which we talked about in the Product analysis, letting us see how changes in a part can change other assembly dimensions and constrains. Autodesk Inventor was chosen as a platform because of the free student seats which are given out to active students, this made is so we could CAD anywhere including the dissection lab where these components are kept. All of the CAD for this project was done using a subtractive process which made us as a group think about the more realistic ways these product where made or could have been made, excluding expensive additive processes.

Piston

Part #68

Part 68 group 10.png

3D CAD Modeling

Piston pic.png

Drive Shaft and Gear Assemboly

Part #50

Part 50 group 10.png

Drive shaft Parts

Shaft CAD.png

Drive Shaft Assemboly

Assemboly shaft.png


Piston Arm Assemboly

Part #66

Part 66 group 10.png

Piston Arm Linkage

Linkage

Linkage.png

Linkage Shackel

Linkage bottom.png

Linkage Assemboly

Linkage assembloy.png


Engine Block

Engine block.JPG

Engine Block.pngEngine block1.png Engine Block2.png


System Assemboly

Assemboly 1 group 10 12.pngAssemboly 2 group 10 12.pngClear assemboly.png


Piston Cycle

Step 1 combus.pngCombus part 3.pngClear assemboly.pngCombus part 4.png

Retrieved from "http://gicl.cs.drexel.edu/wiki-data/index.php?title=Solid_Modeled_Assembly_-(Group_10)&oldid=189424"
Personal tools