DDP-Honors AND DDP-Tech - Lancaster High School · dimension, centerline Inventor ... • Redefine...
Transcript of DDP-Honors AND DDP-Tech - Lancaster High School · dimension, centerline Inventor ... • Redefine...
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DDP-Honors AND DDP-Tech
Class Notebook 2011-2012General notesTuesday, November 16, 2010
3:35 PM
Class Notebook_DDP Page 1
1st QuarterDesign CAD Computer-Aided Design or Computer-
Aided Drafting: 1. For design, the use of a computer to assist in the process of designing a part, circuit, building, etc. 2. For drafting, the use of a computer to assist in the process of creating, storing, retrieving, modifying, plotting, and communicating a technical drawing.
Drawing & Sketching
Oblique A type of sketch involving a combination of a flat, orthographic front with depth lines receding at a selected angle, usually 45 degrees.
Drawing & Sketching
Isometric A form of pictorial sketch in which all three drawing axes form equal angles of 120 degrees with the plane of projection.
Drawing & Sketching
Orthographic (projection)
A method of representing three-dimensional objects on a plane having only length and breadth. Also referred to as Right Angle Projection.
Drawing & Sketching
Sketches –thumbnail and annotated
Thumbnail-A rough or unfinished drawing or painting. Annotated - sketch w/ notations & dimensions
Drawing & Sketching
Annotate To add explanatory notes to.
Drawing & Sketching
Drawing Sheet A document used to display technical drawings
Inventor Degrees of Freedom The variables by which an object can move. In assemblies, an object floating free in space with no constraints to another object can be moved along three axes of translation and around three axes of rotation. Such a body is said to have six degrees of freedom.
VOCABULARYThursday, October 20, 2011
8:38 AM
Class Notebook_DDP Page 2
assemblies, an object floating free in space with no constraints to another object can be moved along three axes of translation and around three axes of rotation. Such a body is said to have six degrees of freedom.
Design Design Process
Inventor Absolute & Relative Coordinates
(Abs.-from 0,0 or Rel.from another coordinate)
Inventor Constraint(s) (Geometric [2D]& Assembly [3D])
Geometric - constraints used in 2D sketch mode, such as collinear, coincident, parallel, concentric Assembly - constraints used in 3D mode, while assembling parts, such as Mate, Flush, Insert, etc
Design Constraint(s) (Design)
1. A limit to a design process. Constraints may be such things as appearance, funding, space, materials, and human capabilities. 2. A limitation or restriction.
Design Engineers Notebook*
Inventor Axis 1. An imaginary line through a body, about which it rotates. 2. An imaginary line about which a regular figure is symmetrically arranged. 3. A fixed reference line for the measurement of coordinates.
Inventor Plane (work plane) A flat surface on which a straight line joining any two points would wholly lie.
Drawing & Sketching
Scale (1:1, 2:1, ¾, etc) A proportion between two sets of dimensions used in developing accurate, larger or smaller prototypes, or models of design ideas.
Drawing & Sketching
Title block A table located in the bottom right-hand corner of an engineering drawing that identifies, in an organized way, all of the necessary information that is not given on
Class Notebook_DDP Page 3
necessary information that is not given on the drawing itself. Also referred to as a title strip.
Design Engineer A person who is trained in and uses technological and scientific knowledge to solve practical problems.
Drawing & Sketching
Dimension
Other:
Inventor Fillet, chamfer, etc
Drawing & Sketching
Front, top, & right side
Drawing & Sketching
Dimensions –Width, Height, Depth
Drawing & Sketching
Lines – Hidden, Object, Construction,
extension, dimension, centerline
Inventor Extrude, Revolve
Inventor Taper
2nd QuarterDesign Ergonomics
Design Aesthetics (esthetics)
Drawing & Sketching
Section View
Drawing & Sketching
Detail View
Drawing & Sketching
Auxiliary View
Design Principles & Elements of Design
Drawing & Sketching
Assembled View (Assembly)
Drawing & Sketching
Exploded View
Rapid Prototyping –3D printing
Area, volume, density, weight, mass
Other:
Inventor Sweep, Loft, Circular Pattern,
Rectangular Pattern
Class Notebook_DDP Page 4
Drawing & Sketching
Center mark, centerline bisector
3rd QuarterReverse Engineering
Caliper
Reverse Engineering
Precision
Reverse Engineering
Reverse engineering –VSF product analysis
Reverse Engineering
Histogram
Reverse Engineering
Statistics – Mean,
Median, Mode
Drawing & Sketching
Working drawing
Drawing & Sketching
Radius
Drawing & Sketching
Diameter
Reverse Engineering
Tolerance (unilateral, bilateral, stacked)
4th QuarterInventor Countersink
Inventor Counterbore
Decision Matrix
Design Brief
Design Invent vs. Innovate
Hole callouts
Design Product Lifecycle*?
Design Mockup
Design Prototype
Technical Report
Parametric Modeling*
Portfolio
Virtual teaming
Pasted from <file:///H:\Teaching%20Files\2011-2012\DDP%20Honors\DDP%20terms_by%20quarter.xls>
Class Notebook_DDP Page 5
DESIGN PROCESS
Identify a problem that exists.•Determine the root cause.•Gather information.•
1. Define a Problem
Present ideas in group.•Generate and record ideas.•Seek quantity not quality. •Keep the mind alert through rapidly paced sessions.•
2. Brainstorm
Analyze the reasons for the need, want, or problem.•Investigate who or what it is that is affected, and consider the need, want, or problem from their perspective.•Research any existing solutions, and identify why they are not adequate or appropriate.•Listen to clients to solve problems that they have discovered.•Perform market research to determine if a want or need exists and warrants the development of a design solution.•
3. Research and Generate Ideas
Identify the end user if the client is not. •Redefine the problem to the agreement of both client and engineer.•Identify what the solution must do, and the degree to which it will be pursued.•Identify the limitations within which the engineer must perform his/her duties.•Compile the information into a design brief.•
4. Identify Criteria and Specify Constraints
Initiate further development of brainstorming ideas with constraints and tradeoffs considered.•Explore alternative ideas based on further knowledge and technologies.•
5. Explore Possibilities
Create a decision-matrix to compare the attributes of the various ideas and analyze the trade-offs associated with each one.•Verify alignment between the idea selected and the criteria and constraints.•
6. Select an Approach
Develop detailed and annotated sketches.•Determine the type(s) of material from which the solution will be constructed.•Make computer models.•Create technical drawings from the computer model(s).•
7. Develop a Design Proposal
Make study models (scaled models or mock-ups).•Fabricate a functional prototype. •
8. Make a Model or Prototype
Test the prototype under controlled conditions.•Test the prototype under actual conditions.•Record the results.•Evaluate results to determine if problems exist and further work is needed.•
9. Test and Evaluate the Design using Specifications
Reassess the validity of the design criteria and make adjustments to the design brief, if necessary.•Work through the design process until the solution satisfies the design criteria. •Update the documentation of the final solution.•
10. Refine the Design
Determine Custom/Mass Production.•Consider packaging.•
11. Create or Make Solution
Present oral presentations with visual aids (computer generated slide show, models, prototype).•Develop written reports with appropriate graphic documentation (charts, graphs, technical drawings, renderings, etc.).•Market the Product.•Distribute.•
12. Communicate Processes and Results
Pasted from <file:///H:\Teaching%20Files\2010-2011\DDP%20Honors\DESIGN_PROCESS.doc>
Design ProcessFriday, September 30, 20119:49 AM
Class Notebook_DDP Page 6
1. Overall dimensions for W,H,D2. Do not OVER-dimension3. Dimensions go in ASCENDING order4. Dimension BETWEEN the views.5. Keep dimensions OFF of the object.
5 dimension rules I’m looking for are: (from Dimension Guidelines PPT - #)
DimensioningThursday, October 20, 2011
8:30 AM
Class Notebook_DDP Page 7
Extrude1.Revolve2.Fillets and Rounds3.Chamfers4.Work Features5.Circular Patterns6.Editing Features7.Hole Features8.Shell9.Rectangular Patterns10.Mirror Patterns11.
Order in which we will complete tutorials:
Access the Inventor tutorials through the Computer icon on the Desktop. Then go to the D:/ drive (Thaw space) and double-click the .chm file called Inventor11.chm
Computer
Inventor Tutorials
Types of Constraints in Inventor- Geometric Constraints (2D constraints)
- Assembly Constraints (3D constraints)
Constraint definition
Create a folder in your TUTORIALS folder for EACH of the tutorials listed under Basic 3D
Inside ------> R:TechArtVol/Project Lead the Way/Students/DDP/Tutorials
Tutorials (Inventor)Friday, September 30, 2011
9:46 AM
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ExtrudeWednesday, October 19, 2011
8:46 AM
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REMEMBER: Revolves need 2 things:
Profile & Axis
After completing up through the Additional Exercises, try creating a lamp base….and even maybe a lamp shade!
RevolveWednesday, October 19, 20118:55 AM
Class Notebook_DDP Page 10
Fillets and Rounds demonstration (add. ex.)
Fillets: inside edges smoothing/strengthening
Rounds: outside edge round-overs
Fillets & RoundsWednesday, October 19, 2011
12:40 PM
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ChamfersWednesday, October 26, 2011
2:32 PM
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Work Features includes 3 main items:Work Plane - Places a work plane within a model (work plane bisector, offset work plane, angled work planes1.Work Axis - Places an axis within a model2.Work Point - Places a work point, reference point on a model3.
Work Features (Planes and Axes) ---NOTES
Work Features explained
Placing Work points, Work Axis, and Work Planes
-----> 3 steps (tool, origin, orientation)Work Planes: Cylinder bisector, offset, tangent - Let's practice together
Slice Graphics (F7)
Work Plane /axis visibility (on/off)
Bird Feeder activity
Work FeaturesThursday, October 20, 2011
8:49 AM
Class Notebook_DDP Page 13
With the Additional Exercise, use a TANGENT WORK PLANE to establish the 3 items (peg, hole, and rectangular block). Sketch each item on an individual sketch, apply a 3D feature, and then proceed to a new sketch for the next item.
Circular PatternsMonday, November 07, 2011
8:24 AM
Class Notebook_DDP Page 14
Edit SKETCH- Will change something that happened in the 2D world (ex. Geometry like lines, arcs, circles)
Edit FEATURE - Will change something 3D about the object (ex. An extrusion depth, a fillet radius, a hole diameter or depth, etc)
Editing FeaturesMonday, November 07, 2011
8:24 AM
Class Notebook_DDP Page 15
Types of holesDrilled - smooth and simpleTapped - has threads if it's tappedCounter bore - a small hole inside a larger hole (like for a bolt to go in)Countersink - a hole to make the head of a screw flush with the surface it's screwed into (funnel shaped)
Hole FeaturesMonday, November 07, 2011
8:25 AM
Class Notebook_DDP Page 16
ShellMonday, November 07, 2011
8:25 AM
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Rectangular PatternMonday, November 07, 2011
8:25 AM
Class Notebook_DDP Page 18
Rectangular PatternWednesday, November 09, 2011
12:42 PM
Class Notebook_DDP Page 19
5-7 in. tall
2-3 in. diameter at base
Must have a handle (must use Sweep)
Must have grips (Ex. bands, grooves, bumps, dimples, etc)
Travel Mug requirements:
Front view (hidden lines) & overall height
Right side (Section view)
Top (diameter dimension)
Detail View (of handle connecting to mug body)
Isometric (shaded)
Print to HP5000
Drawing Sheet:
Travel MugTuesday, November 01, 2011
1:32 PM
Class Notebook_DDP Page 20
The ELEMENTS of DesignThe PRINCIPLES of Design
DESIGN is NO mistake! Products are created with an intent and purpose. Every product we own was designed with the core principles and elements of design
in mind.
Look over the below PowerPoint.
Principles & Elements of Design PPT - Gives an explanation and example of each of the Principles AND ELEMENTS
Pasted from <http://www.lancasterschools.org/86935117125733/blank/browse.asp?A=383&BMDRN=2000&BCOB=0&C=54584>
Principles & Elements of DesignWednesday, November 02, 2011
2:35 PM
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Research & Investigation1.Sketching2.Inventor modeling3.Save as an .STL Name, period, and prefered color (ex. white_p3_Jsmith.stl)4.Submit into Dropbox folder on the R:/ drive 5.
Steps: DDP Holiday Ornament Design .
Goal:Design a holiday ornament that can be hung using fishing line and a traditional ornament hook or bent paperclip.
Parameters/Design Constraints:The ornament must:* have dimensions between: 2”-3” (height) 2”-3” (width) 1/8” - 3/8” (depth)* be school appropriate* be approved by the teacher prior to building in Inventor* be completed in time to be 3D-printed with the class* use any 4 of the following complex tools: circular pattern, rectangular pattern, mirror feature, coil, sweep, hole, chamfer, or fillet* have a sketch or picture of prospective idea - submitted for credit
Result:A 3D printed ornament that can be taken home to decorate the house for the Holidays.
Pasted from <http://www.lancasterschools.org/86935117125733/lib/86935117125733/DDP_Holiday_Ornament_Design.doc >
Side Notes:Hole for hanging (diameter 1/16"-3/16")•You have 3 colors to choose from for the 3D print (red, white, or green)•Don't worry about changing colors of surfaces in the .IPT - it's irrelevant•Focus on the structure of the ornament•Details must be raised up or cut in to show up.•Don't make parts too thin - they will snap! (Too narrow, too shallow)•
Survey - Rate your color choiceshttp://www.surveymonkey.com/s/ZXDKDPV
Holiday OrnamentFriday, November 18, 2011
11:06 AM
Class Notebook_DDP Page 22
Monday, November 29, 2010
9:13 AM
Do a SAVE COPY AS1.
Direct it to the correct directory (ex. STUDENT folder on your R:/ drive (TechArtVol)2.
Switch file type to .stl3.
Choose OPTIONS4.
Change Centimeter to Inch5.
Name the file ( Put your name, preferred color, and period # in the file name (ex. Green_p3_SmithJ.stl)
6.
Within your Inventor part file (.ipt), you must:
--------------------------------------------------------------------------------------------------------------------------------
Right click on the STL in your R:/ drive STUDENT folder [in your Holiday Ornament folder] (Ex. Green_p3_SmithJ.stl)
1.
Select Copy from the context menu2.
Putting the .STL in the appropriate DROPBOX folder:
Create a CAD model +1.Save as an STL2.Bring STL into Catalyst printer software 3.Process STL (divides it into the layers [.01"])4.Add to pack (you can place many parts on a pack)5.Send to printer (The software will give a readout of material and time)6.Hours later, retrieve part from the printer.7.
The 3D printing process explained (rapid prototyping) [video]+
Saving as an .STL fileWednesday, November 30, 20119:53 AM
Class Notebook_DDP Page 23
Go to the appropriate DROPBOX Ornament STL folder (ex. Holiday Ornament STLs ----> Period 2)3.
Paste your STL file in your period's folder4.
Class Notebook_DDP Page 24
Mist Fragrances is looking to add a new scent (cologne or perfume) to their new line of fragrances for
the holiday season. As a member of the Mist team, it is your duty to develop, design, model, and
document a new bottle design for the company.
The bottle must hold between 2-7 fluid ounces (use the fluid ounce conversion formula below)
The bottle cannot be more than 5" tall
The bottle must be made using revolve, loft, coil, sweep, or some other complex feature.
The bottle must have a hole for dispensing and a cap (pressure fit or thread on cap)
The bottle should have the Mist logo on it (as a decal). (Find i t here: R:\ProjectLeadTheWay\Share\Streit\DDP Honors\Fragrance Bottle )
You must show evidence of 2 Principles of Design and explain it in the documentation.
Parameters and Design Constraints
Research & Investigation - Word document of pictures of existing designs1.15 thumbnail sketches2.1 quality annotated sketch of bottle AND cap3.The Design Process outline sheet (Find i t here: R:\ProjectLeadTheWay\Share\Streit\DDP Honors\Fragrance Bottle)
4.
Two Principles of Design evident5.A working drawing of the bottle and cap - with overall dimensions (A-size sheet) and section view(see example shown)
6.
Documentation / Deliverables
V = (Π r2 H)/1.804 oz./in3
All volume formulas must include the cubic inch to fluid ounce conversion
factor of 1.804 as illustrated below for the volume of a cylinder.
Print everything to the 4015 (Black and White in room 154)
Fragrance Bottle - DDP HonorsThursday, December 08, 2011
10:00 AM
Class Notebook_DDP Page 25
Problem Statement:
Mist Fragrances is looking to add a new scent (cologne or perfume) to their new line of fragrances for
the holiday season. As a member of the Mist team, it is your duty to develop, design, model, and
document a new bottle design for the company.
The bottle cannot be more than 5" tall or less than 2"
The bottle must be made using revolve, loft, coil, sweep, or some other complex feature.
The bottle must have a hole for dispensing and a cap (pressure fit or thread on cap)
Parameters and Design Constraints
Research & Investigation - Word document of pictures of existing designs1.15 thumbnail sketches2.1 quality annotated sketch of bottle AND cap3.The Design Process outline sheet (Find i t here: R:\ProjectLeadTheWay\Share\Streit\DDP Honors\Fragrance Bottle)
4.
A working drawing of the bottle and cap - with overall dimensions (A-size sheet) and section view(see example shown)
5.
Print everything to the 4015 (Black and White in room 154)
Documentation / Deliverables
THIS PAGE IS FOR DDP TECH STUDENTS!!!!
Fragrance Bottle- DDP TECHThursday, December 08, 2011
10:01 AM
Class Notebook_DDP Page 26
Create a folder in your Student folder (inside DDP) called TRAIN.•Refer to my PDF Drawing Sheet in the Shared folder as an example finished sheet or the image to the right (Train C-sheet screenshot).
•
Copy/Paste the files (Train parts), I provide, from the Shared folder to your Student folder….in your TRAIN folder. Straight Track is 1 part you DO NOT have to build. Go get it from the Train Shared folder.
•
Your Train Working Drawing (C-size drawing sheet), when complete, needs to be saved as a PDF (*.pdf) to your Train folder. [Name your PDF file like this: SmithJ_p3_TrainCsheet.pdf]It must then be Copy/Pasted over to the Dropbox in the appropriate Period folder. Refer to the Class Notebook subpage to the left… Saving as a PDF
•
Important notes:Your drawing sheet should look like a photocopy of my drawing sheet when you are done. That's how identical yours should be to mine!
•
Color of parts (train body, peg, stack, etc.)
Letters associated with Section and Detail Views (A-A, B-B, etc.)
Numbers in the Balloons associated to parts (ex. My Stack may be a 5, while yours is a 2….that's OK) BUT, you must still have 6 parts total, numbered 1-6!
Ways in which YOUR sheet can vary from MY example:•
Clicked the wrong spot on a drawing when placing a dimensionOR
1.
Truly made the part file wrong. Go back and edit sketch or feature and fix the problem.
2.
On your Drawing Sheet, if your dimensions come up as different numbers than mine , then you did 1 of 2 things wrong:
•
TrainTuesday, January 03, 20127:41 AM
Class Notebook_DDP Page 27
"PRINT" your C-size drawing sheet as a PDF(This is not actually physically printing anything. You are really just Saving it.)
1.
File (Click the Orange I) > Print > Print
Select CutePDF Writeras your "printer"2.
Then select PROPERTIES3.
>ADVANCED
Saving as a PDF (and placing it in the Dropbox)Tuesday, January 17, 2012
9:06 AM
Class Notebook_DDP Page 28
>ADVANCED
>PAPER SIZE > ARCH C > If you don't do this, you will only capture a portion of your C-size sheet!!Hit Ok Ok Ok
Name the file like this (SmithJ_p3_TrainCsheet)Lastname Firstinitial_period_TrainCsheet
4.
And direct it into your Train folder on the R:/ drive
Through Windows (My Computer), do a COPY/PASTE of your Train sheet working drawing PDF from your Student folder (a.) into the appropriate DROPBOX folder (b.).a.
5.
Class Notebook_DDP Page 29
b.
Check with Mr.Streit to confirm it is in the Dropbox. He will NOThunt you down for it. He will ONLY look for the PDF in the appropriate Dropbox folder!! If it's not there, you'll receive no grade.
6.
Class Notebook_DDP Page 30
In teams of 2, you will research, organize, and present on an engineering discipline.
Check the Shared folder for samples (good and bad), the grade rubric, and other materials.
Engineering Presentations
Your team is required to select and research a discipline in the Engineering field. After researching, your team will present the information to your classmates using Power Point.
Read Wikipedia article on engineering
(In the search box, type Engineering and then do it again for Outline of Engineering)
Aerospace
Chemical
Petroleum
Pharmaceutical
Agricultural
Civil
Structural
Electrical
Computer
Mechanical
Automotive
Ergonomic
Industrial
Bioengineering
Biomedical
Engineering Disciplineso Engineering presentations must cover:
Career description
Duties & Responsibilities
Working Conditions (positive & negative)
Employment outlook
Three nearest schools who offer the program
Earnings (Beginner vs. Experienced)
Why would you (or would you not) choose this career?
Sources of Information (Bibliography)
For each field chosen (major and minor):
Know what’s in your presentation!
* Introduction* Text Size* Short Bullets* Visuals (aids) – pictures/charts/graphs
Slideshow setup
Engineering PresentationsMonday, January 30, 2012
8:43 AM
Class Notebook_DDP Page 31
Metal BlocksSketch, measure, dimension, and re-build 2 metal blocks.
Title: METAL BLOCK 1Scale: FULL or 1:1
2nd metal block - Repeat the process again.
Title: METAL BLOCK 2Scale: FULL or 1:1
Print to the HP4015 printer, for both sheets.
Sketch, measure, dimension, and re-build a LEGO block
LEGO Block #2
1. Each team member sketches, measures, and records dimensions, onto white paper, of their piece. (pass the caliper and piece)2. Sub-teams (A & B) (within colored teams) collaborate to find any discrepancies in measurements. (critical dimensions should be consistent –cylinder diameter, placement of cylinders, wall thickness, space between cylinders and rings)3. Sub-teams decide on final critical dimension values and begin creating your piece in Inventor.
DIRECTIONS: (2 pieces per team)
- Working Drawing of LEGO- Histogram of data- Product Analysis Chart (typed) (Visual, Functional, Structural)
- Dimensional Analysis Chart (typed) (Values across the team)
4 sheets per sub-team
LEGO parametric modeling
Parametric Modeling: A CAD modeling method that uses parameters to define the size and geometry of features and to create relationships between features. Changing a parameter value updates all related features of the model at once.
Parameter "Comments"DepthWidthHeightHt. Taper AngleWall thicknessPeg DiameterPeg LocationPeg LocationPeg HeightPeg height taper angle
The PEN
Pen body (big tube)1.Metal tip2.Cap3.Tail piece4.Ink tube (& ballpoint)5.
The five (5) pen parts (so we are all using the same terms)
Items due for this project:1. V, S, F chart (Product Analysis chart)2. Pen Assembled/Exploded Working Drawing
Reverse EngineeringTuesday, February 07, 2012
7:56 AM
Class Notebook_DDP Page 32
Power Boat Project - DDP HONORS
Objective:
You are to research, design, build, and test a toy boat.
Directions:
Research existing boat styles and hull designs. Gather pictures in a Word document.1.Develop sketches of possible hull designs for your boat.2.In Inventor, design a part file of your hull.3.Slice that into several (about 5) ribs that can be used as profiles.4.Place those 5 profiles onto a drawing sheet and print them out.5.Transfer each profile rib to foam board.6.Build a mock-up of your boat hull using foam board and duct tape..7.Test it in the "Basin of Test" for stability, floatation, etc.---------------------------------------------------------------------------------------------------------
8.
Develop sketches of Deck & cabin designs.9.In Inventor, develop each of the parts that will make up the construction of your boat.10.Build a part file to represent your foam board.11.In an Assembly, build the boat as it would look in reality.12.In an Assembly, lay out each part onto the foam board model.13.Construct the cabin and paddle out of foam board. Attach all parts (including 3D printed hull) together using hot glue.
14.
Race your boat in “The trough of Death!”15.
Following through the 12-step design process, complete the following:
Parameters:
The Hull of your boat should fit within this range:
SIZE constraints:Bow to Stern: 5” – 7 “Beam width: 3” – 5”Total Height: 1.5” – 2.5”
Hull wall thickness: .0625min. - .125 max
DESIGN constraints:
The boat must race against other boats. 1.The boat must be stable enough to safely hold the components of the propulsion system. 2.The boat must reach the end of the challenge basin within a specified time frame.3.
Research , design, build and test a boat.
Height= bottom of the hull [the keel] to the top of the hull [deck] •Width [beam]= the widest point of the boat •Length= tip of the front [bow] to the center of the back [stern]•Draft= how far the boat’s hull will extend underneath the water•Freeboard= the distance between the deck of the boat and the level of the water•
*The cabin and deck should be designed/built to fit your final hull dimensions.*
Cover page
Table of Contents
Decision Matrix (owner print 1 for each teammate)
Design Brief
Center of Gravity documentation
Design Process outline sheet
Drawing Sheet -Cut sheet
Drawing Sheet - Assembled View
Drawing Sheet - Exploded View (w/balloons &parts list)
Technical Report (includes the following)- Each student submits one!
Final Products/Deliverables: (due may ?, 2012)
Create a BOAT folder in your DDP folder. Air propeller
Electric motor 23.5mm dia. x 27mm length
2 AAA batteries
Power switch
Battery holder optional
Motor clamp Optional
Propulsion system components
Thumbnail sketches
Annotated sketches
Center of Gravity
Design Brief
Design Process
Decision Matrix
Working Drawings - C-sheet size B-size?
Mock-up
Prototype - Rapid prototyping in the 3D printer
PowerPoint presentations on them
Boat Project - Major topics/terms
R&D hull designs1.Sketches - thumbs and annotated2.Full Inventor model (by self) [loft, extrude, )3.Save and Save Copy As an Archive4.Modify and cut slices - Save each slice/rib as a part (Rib 1, rib2, etc)5.Place parts on an A-size drawing sheet6.Transfer to foam board and then cut them out7.Connect with spine and duct tape8.Test in water for stability9.
Power Boat steps
Size constraints
Buoyancy
Stability
Center of gravity (balanced?)
Freeboard - distance from water level to deck
Draft - how much the hull sits in the water
Ability to hold the weight of the power parts
Aerodynamic? Hydrodynamic?
Speed
Shape
Analyze:
A tool for systematically ranking alternatives according to a set of criteria.
Decision Matrix – Through WORD or EXCEL
Boat Project - DDP HonorsMonday, March 26, 2012
12:28 PM
Class Notebook_DDP Page 33
Desktop Organizer
Briefing: In order to supplement next year’s line of products, Mr. Streit’s company intends to incorporate a new line of desktop organizers. Your job is to research and develop a new design for this intent. You must develop two design ideas to be included in your report at the end of the project. Construction of one of your organizers will be part of the project.
Technical Specifications: In order to be successful you must fulfill the following requirements:
Your design must hold at least 5 different desktop items in 5 different areas of the organizer.
The entire design and construction must be accomplished from one 12 inch by 12 inch by 3/16 sheet of foam core board.
Your report must encompass all of the steps in the design process.
3D models
Assembly models
Drawings w/dimensions and any necessary views
All necessary notes for construction with diagrams (use Word or PPT).
A flat pattern for production purposes.
Your development stage should include:
Title Page
One page to highlight each step of the design process
ModelsExplosionsDrawingsPrototype (Digital Picture)Problems encountered/Design changes
Pictures and Screen captures of the following:
Assembly instructions
Of course these are not the only things that can be included in your report. Include any information that you feel can help explain your design.
Report: Your final report should be in the form of a MS Word report to include the following topics:
Desktop Organizer (DTO) - DDP TechTuesday, March 27, 2012
12:27 PM
Class Notebook_DDP Page 34