Giving Bertha!
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Transcript of Giving Bertha!
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Giving Bertha!Giving Bertha!LTA CDRLTA CDR
David Dryjanski – Design/Construction, SolidWorks Expert Rachel Ellman - Design/Construction
Carl Engel - Team manager, Propulsion and Control, PilotViviana Serra - Design/Construction
Joshwa Wang - Design/Construction, Conceptual Artist
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ObjectiveObjective
Explain design Explain design changes since PDRchanges since PDR
Present and analyze Present and analyze our updated design our updated design ideas and innovationsideas and innovations
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Design EvolutionDesign Evolution
Threw out idea about each motor driving two Threw out idea about each motor driving two propellerspropellers
Decided to keep horizontal stabilizer Decided to keep horizontal stabilizer stationarystationary
Added 2Added 2ndnd rudder for better turning rudder for better turning Changed the front motor from stationary to Changed the front motor from stationary to
2-axis thrust vectoring2-axis thrust vectoring
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Introduction to Final DesignIntroduction to Final Design Bertha is a good combination of stability and simplicityBertha is a good combination of stability and simplicity Good payload capacityGood payload capacity FastFast Truss is aesthetically pleasingTruss is aesthetically pleasing Intricate structure; very light and strongIntricate structure; very light and strong
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Scaled DrawingsScaled Drawings
SolidWorks drawings by David Dryjanski
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Side ViewSide View
SolidWorks drawings by David Dryjanski
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Isometric ViewIsometric View
SolidWorks drawings by David Dryjanski
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Control SystemsControl Systems
Dual rudder system to deflect prop-wash of Dual rudder system to deflect prop-wash of rear motor for yaw controlrear motor for yaw control
2-axis thrust vectoring (yaw and pitch) for 2-axis thrust vectoring (yaw and pitch) for front motorfront motor
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Aerodynamic AnalysisAerodynamic Analysis 10% over-inflation of balloons He volume: 1.39 m3
Lift capacity: 1.47 Kg Vehicle mass estimates-
2 small motors with 2 large propellers: 80g (x2) = 160greceiver, wiring, and 3 servos: 40g + 10g + 110g = 160g
battery (2 packs): 300g balsa structure and stabilizers: 100g Total: 720g Payload capacity: 0.75 Kg
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Aerodynamic Analysis (cont.)Aerodynamic Analysis (cont.)
Thrust: (measured) = 2.84 N per motor = 5.68 NThrust: (measured) = 2.84 N per motor = 5.68 N Coefficient of Drag: 0.5Coefficient of Drag: 0.5 Force of drag at VForce of drag at Vmaxmax= Thrust = 5.68 N= Thrust = 5.68 N Maximum Velocity: 3.1 m/sMaximum Velocity: 3.1 m/s Estimated time for course completion (assuming Estimated time for course completion (assuming
perfect turns): 28 secondsperfect turns): 28 seconds Realistic Time: appx. 1 minuteRealistic Time: appx. 1 minute Endurance: 3.6 minutes of battery powerEndurance: 3.6 minutes of battery power
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ConclusionConclusion
Based on our Preliminary Design Review, Based on our Preliminary Design Review, we narrowed down our options to create an we narrowed down our options to create an optimal LTA vehicle. Through extensive optimal LTA vehicle. Through extensive meetings and discussions of pros and cons meetings and discussions of pros and cons of different design implementations, we of different design implementations, we have concluded that our current have concluded that our current arrangement will provide maximum arrangement will provide maximum performance. performance.