bazza design - photosynq case study
Post on 13-Apr-2017
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11-16 1
PhotosynQ
MultispeQ IoT Product Development Story
11-1-16
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Contents
Design Background – Greg/Barry
Research Phase - Barry The UserCompetitive SetRelated Areas of DesignDesign InspirationDesign Details
Concept Phase - Barry
Refinement Phase - Barry
Finalization Phase – Greg/Barry
The Rest of the Story - Greg
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Design Background
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Design Background – Handoff to Bazza Design
Design parameters to consider for the device:
Cost Sensitive Design
Symmetrical design for no-handedness
Design to minimize light leak
Grip that helps with air flow/heat dissipation
Body color choice needs to be made for light containment (Black vs other colors)
Include some form of wrist attachment (Wiimote)
Design to be hearty/rugged
To have a Cuvette Holder or way to secure one
May need to be water resistant (gasket a consideration)
LED light to show it is in use and or “on”
May incorporate a Beep or Buzz to suggest that the reading is done
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Research Phase
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The User
This is the typical scenario of what can be achieved with the collection and sharing of data with the user base.
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The User
Scientists
Educators/Students
Crop Consultants
Plant Readers
Citizens/Enthusiasts
Green Houses
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Competitive SetMost devices in this set are clunky box like designs. Only a few look like they were given any ergonomic consideration. Our goal was to surpass all of these designs in form and comfort.
SPAD 502 Plus Chlorophyll Meter
VG-Meter-200
VS-1
CIRAS-3
CL-01 Chlorophyll Content System
RapitestMini Plant Photosynthesis Meter
Photon Systems Instruments
Chlorophyll Fluorescence CCM200 Chlorophyll Content Meter
Portable Photosynthesis System Model CI 340
LAQUA Twin EC Meter
Field Scout CM 1000 Chlorophyll Meter
DUALEX SCIENTIFIC+™ Chlorophyll and Polyphenol-Meter
LCpro-SD
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Related Areas of DesignThese are good examples of form and faction being combined in a proper way. Most all represent wireless connected devices too.
Mini Protimeter Moisture Meters
Protimeter Digital Mini Moisture Meter BLD5702
flower power wireless plant sensor by Parrot
Koubachi Wi-Fi Plant Gadget
Edyn Smart Garden System
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Design InspirationThe examples shown here represent various design to aspire to be in the case of form, ruggedness and ergonomics.
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Design DetailsWe were focused early on with the fact that some details may make or break the design. So special emphasis was going to be given to assembly methods (Screw placement), rubber covers for the electrical outputs and a proper attachment for a lanyard .
Screw Integration
Rubber Grommets
Lanyards and attachment
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Concept Phase
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Concept DevelopmentResearch Findings:
Most competition is boxy, ugly, large in size or all three.
The best designs integrate color
The best looking designs are smaller and hand held
Nothing on the market found that looks and works like MSU’s design. Most designs are “clamp down” or “point and shoot” designs.
It will be easy to design and build something that is functional and better looking than most products in the market.
Concept Development Next Steps:
Pick Detail Design Directions (rugged, sophisticated, grip details, etc.)
Consider Color
Pick a Lanyard and purchase.
Pick a Rubber Grommet and purchase. Get CAD if it is available.
Start Concept Phase based on Criteria selected.
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Concept DevelopmentWhere we started from:
Shown is the 3D printed hand built prototype. It was functional but was basically two blocks screwed together with a living hinge and a electronic tether. The team at MSU knew that they need to marry the functions with an ergonomically pleasing design. That is where Bazza Design came in.
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Concept DevelopmentRefinement of the raw components:
MSU personnel refined their mechanical data to a new form factor that included a vertical jaw like reader area that could consistently clamp down on a plant leaf. This was the beginnings of Bazza Design’s from studies.
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Concept DevelopmentHand sketching many IdeasForm studies were hand sketched in quick fashion toExplore shape, size and ergonomic considerations.
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Concept DevelopmentBased on favored shapes from the hand sketches Refined first thoughts where created around theMechanical 3D provided by MSU.
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Concept DevelopmentBased on favored shapes from the hand sketches Refined first thoughts where created around theMechanical 3D provided by MSU.
Concept 4Concept 5
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Concept DevelopmentForm Study Model A actual size model was made to address overall size and comfort in the hand. It was determined from this hand build foam model that we needed to shrink the height a bit and add in the grip details to help with a comfortable grip. Button location and overall length was considered good to go. We used the study model to also determine if we could fit the battery into the back of the design. This was also confirmed with this model.
Model studies from start to current
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Refinement Phase
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Concept RefinementFinal 3D Refinement Details from the foam model and other refined mechanical s where used to finalize a proper shape and form for the device. Here are renderings of the final theme surface that was used to create the CAD release.
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Concept RefinementColor Study Options
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Finalization Phase
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Concept FinalizationLatest Results in CAD. Finalization of the main body parts are shown here. Tooling costs are being finalized from these files.
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Concept Finalization
Latest Results in 3D created from the 3D printer
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The Rest of the Story
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What’s Next?
CAD finalized and tools created for production.
Production has started 11-1-2016
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Thank You
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