Solidworks Design Project
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Transcript of Solidworks Design Project
Solidworks Design Project
Solidworks Design ProjectBrendan OLeary Darren Gabos Fender Stratocaster
Advanced CAD in Mechanical EngineeringSummer 2015, Session H6Professor Xing Liu
History of the StratOur proposed model for our Final Project will be Solidworks assembly of some of the main parts of an electric guitar- namely, a Fender Stratocaster. This guitar is one of the most iconic instruments of all time, since it is also one of the longest-produced guitars, first entering production in 1954. This guitar was designed originally on another Fender Guitar, the Telecaster. The 'Tele' was designed by electrical engineer Leo Fender, and was a very geometrically pleasing as it had predictable curves, and straight corners and edges. This however was unpleasant to guitarists, and these edges were uncomfortable rubbing against one's body for extended periods of time. As all engineers attempt to make their deigns both technically sound, Leo also desired to make his guitars ergonomically compliant- so, after talking to local musicians about what improvements they'd like to see on an upcoming model, their ideas eventually gave birth to the Stratocaster.
PreparationTeam of Two members
Work on parts every night after work, class
Team Leader Delegates PartsConstant communication kept between members of group to keep both up-to-date on the current status of drawings and reportsBoth team members shared equal amounts of parts, while jobs such as rendering, animation, simulation, and writing were chosen by members based on subject strength
Choosing the StratocasterThe Strat was chosen because it would be a wide-encompassing test of our Solidworks modeling skillsMixes Mechanical and Electrical components with artistic and ergonomic designFun, yet challenging design
This particular Guitar model chosen for its legendary history, being used by some of the greatest guitars of all time
Team Leaders Guitar of choice
Drawing Control & Naming ConventionTo keep part & assembly files easy to access, good drawing control was adoptedDropBox used to mitigate sharing drawings Logical naming conventions allow a designer to find components fast and easily: saves timeSame goes for folder structure: File types group together, and then model types
Part CompatibilityThe Strat has gone through many design iterations in its 50+ years of production, leading to a plethora of factory and 3rd party partsWe chose engineering drawings that had the best and most clearly marked dimensionsTherefore, some parts had inconsistent dimensions that were reference in other parts (ex. Fastener holes)As design process progressed, back-checking older parts was required to ensure a assembly that would have compatible parts mating to one another
Difficult Parts: Body
Difficult Parts: BodyThe body was a difficult part to model due to its numerous curves and contours that were either undefined by engineering drawings, or dependent on which model Strat we were modeling.
We used the help of a sketch picture to sketch over an image of the body, and extrude from there. The routing was done in a similar fashion, but all these cuts and extrudes would have to later be edited to fit parts.
Body contours were made using reference geometry, sketches, and cuts/extrudes, and fillets gave the final product its ergonomic, smooth finish.
Material: Maple (actually alder in production)
Difficult Parts: Pickguard
Difficult Parts: PickguardThe pickguard was difficult to model for the same reasons as the body. Many different curves defined the shape of the pickguard, and all had unique dimensions. The routing for the pickup holes was much easier, however.
Material: Plastic with appearances
Difficult Parts: Headstock
Difficult Parts: HeadstockThe headstock also hosted many difficult curves and radii. However, the engineering drawing was much easier to follow, and led to a accurate sketch which rendered a very realistic model
Material: Maple
Summary of All Parts Functions + Photo
Tuning MachinesSingle- Coil Pickups 5 way selector SwitchVolume knobs TremoloWhammy BarNutStringsScrews
Summary of Parts: Tuning Machine
Summary of Parts: Tuning MachineTuning machine is a geared mechanism that turns shaft when perpendicular knob is turned by hand to tune the strings
Features used to model:Simple 2D SketchingExtrudingCut-ExtrudingReference Geometry Material finish: Polished Gold
Summary of Parts: Single-Coil Pickups
Summary of Parts: Single-Coil Pickups Single Coil- Pickup: a wound copper solenoid that generates an induced magnetic field from a supplied current, and the changing magnetic field of moving ferromagnetic strings causes a response in the current which is projected as sound by way of an amplifier
Methods used to model:Simple 2D SketchingExtrudingCut-ExtrudingReference Geometry Material Finish: Low Gloss Plastic and Cast Iron
Summary of Parts: 5 Way Selector Switch
Summary of Parts: 5 Way Selector Switch5 Way selector switches between a combination of the three single coil pickups
Methods used to model:Simple 2D SketchingExtrudingRevolveReference Geometry LoftMaterial Finish: Low Gloss Plastic and Silver
Summary of Parts: Volume Knobs
Summary of Parts: Volume KnobsVolume and Tone knobs simply adjust the guitars controls
Methods used to model:Simple 2D SketchingExtrudingCut-ExtrudingReference Geometry Circular Sketch PatternMaterial Finish: Low Gloss Plastic
Summary of Parts: Tremolo Block
Summary of Parts: Tremolo Block
Tremolo block is a mass used to counter the spring forces of the two sides of the guitar to change pitch (whammy bar component)
Features used to model:Simple 2D SketchingExtrudingCut-ExtrudingReference Geometry Material Finish: Cast Iron and Polished Gold
Summary of Parts: Tremolo Bar
Summary of Parts: Tremolo Bar
Tremolo Bar, also known as the whammy bar, is a moment lever used to move the tremolo block out of equilibrium and either raise or lower the pitch of the played notes
Features used to model:Simple 2D SketchingExtrudingLoftRevolveReference Geometry Material Finish: Polished Gold and Low gloss plastic
Summary of Parts: Nut
Summary of Parts: Nut
The Nut is a small grooved piece of plastic or bone used to separate the strings of the guitar at the point where the headstock meets the neck
Features used to model:Simple 2D SketchingExtrudingReference Geometry Cut Extrude
Material Finish: Low gloss plastic
Summary of Parts: Strings
Summary of Parts: StringsThe guitar strings are 6 individual wires with different diameters that hold different tunings on the guitarFeatures used to model:Simple 2D SketchingExtrudingReference Geometry Sweep Cut (Twist along path)
Material: Steel
Adding Decal
Solidworks appearances functions used to import decal onto surface of headstock, and aligned.
White background not removed
Design Production Feasibility3D PrintingSome parts did not have dimensions on certain features, leaving us to guess
Choosing proper dimensions for strong but efficient part
Testing to see if design is able to be produced- Volume knob printed with 3D printer
Shows need for good design QC
Solidworks AnimationAssembly of Strat modeled with both exploded and collapsed views
Useful for demonstration of assembly techniques and logistics
Exploded view included with draw diagram
Animation: Explode Video
Animation: Collapse Video
Finite Element Analysis: Guitar Neck WarpingGuitar Necks are constantly being subjected to forces/moments from both a statically applied tension, and a random increased application of instantaneous and/or periodic tensions (due to playing and bending strings, increasing tension) that will deform the neck over time
Values for tension forces found using online data
Custom Solidworks Material made for Guitar neck Maple wood typeProperties found in Mechanical Properties texts
The Strat is designed to counter this deformation
Examples of Neck Deformation
ResultsError using actual neck: interference of curves; not solved
Dumb neck was created with a similar shape and used same material to continue simulation
Results
Results
With additional time.More complex features could be modeled (Neck, Body Contours)Body Routing more realisticRoute electronics/wiringWork to fix interference problem with neck simulationMake sure every part is defined fully so no interference problemsAdd strings to assembly
SummaryThis was a very fun project to work on. The parts were all unique and interesting to model, however frustrating some of them turned out to be. Working as a team was beneficial, as many ideas and skillsets could utilized for a better final product. The push for trying out more complicated Solidworks features not covered in class also added value to the course.