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Space DebrisSpace DebrisConceptual Design ReviewConceptual Design Review
Cole BostromCole BostromCorey GodwinCorey Godwin
Jonathan KirchmaierJonathan KirchmaierEmily LoganEmily LoganSean MurphySean Murphy
Seanna RenworthSeanna Renworth9-23-089-23-08
http://www2.lib.uchicago.edu/~dean/blog/bolide-largecrop.jpg
Mission OverviewMission Overview OurOur objectiveobjective isis to conduct scientific analysis of near space conditions to conduct scientific analysis of near space conditions
by imaging stars through the means of a timed extension of the by imaging stars through the means of a timed extension of the mechanical platform with a mirror cluster attached at the end in order mechanical platform with a mirror cluster attached at the end in order to obtain pictures at many angles.to obtain pictures at many angles.
We plan to discover how to build the mechanical systems needed to We plan to discover how to build the mechanical systems needed to extend a platform with a cluster of mirrors on the end. This mission extend a platform with a cluster of mirrors on the end. This mission will hopefully give us the ability to learn about the near space will hopefully give us the ability to learn about the near space environment and many new technological skills involving the environment and many new technological skills involving the mechanical platform deployment. The mission will also help us mechanical platform deployment. The mission will also help us discover how to retrieve the mechanical platform back into the discover how to retrieve the mechanical platform back into the satellite before landing in order to keep the mirror from being satellite before landing in order to keep the mirror from being damaged.damaged.
We are doing this mission for the challenge of the extendable arm and We are doing this mission for the challenge of the extendable arm and the possibility of better images of stars.the possibility of better images of stars.
DesignDesign The BalloonSat shall be a basic rectangular prism shape. A plastic tube shall be The BalloonSat shall be a basic rectangular prism shape. A plastic tube shall be
placed through the center of the cube, top to bottom. placed through the center of the cube, top to bottom. The center of one exterior wall shall contain a double door that shall be connected The center of one exterior wall shall contain a double door that shall be connected
by internal hinges and shall be pushed open by the extending mechanical platform. by internal hinges and shall be pushed open by the extending mechanical platform. The open door shall allow the camera to see out of a plexi-glass window. The open door shall allow the camera to see out of a plexi-glass window. After the mechanical platform is deployed, a mirror cluster connected to the end After the mechanical platform is deployed, a mirror cluster connected to the end
shall allow the camera to capture a wide representation of what is visible at 30 km. shall allow the camera to capture a wide representation of what is visible at 30 km. The mechanical platform shall be along the bottom of the BalloonSat when not The mechanical platform shall be along the bottom of the BalloonSat when not
deployed . A set of gears run by a simple motor and timing circuit shall deploy and deployed . A set of gears run by a simple motor and timing circuit shall deploy and retract the platform. retract the platform.
One heater with a central location shall keep the internal BalloonSat temperature One heater with a central location shall keep the internal BalloonSat temperature above zero degrees Celsius. Other systems including the HOBO data logger and above zero degrees Celsius. Other systems including the HOBO data logger and timing circuit shall be placed accordingly to counter the weight of the camera and timing circuit shall be placed accordingly to counter the weight of the camera and mirror.mirror.
Functional Block DiagramFunctional Block Diagram
HOBO logger
Temperature-internal and external
Humidity
Heater Power(9V Batteries) Switch Heater 1
Camera
Camera Power
SwitchTimer Power (12V battery) 555 Timer
Platform Deployment Motor
Motor Power (9V batteries)
Switch
How we are going to complete How we are going to complete our missionour mission
By assigning leaders to key parts of By assigning leaders to key parts of our Balloonsat’s construction we are our Balloonsat’s construction we are all able to help on each part while all able to help on each part while the 2 leaders of that part specialize the 2 leaders of that part specialize in the given area.in the given area.
By following our schedule and adding By following our schedule and adding more meetings if needed, we will be more meetings if needed, we will be able to have a complete and tested able to have a complete and tested BalloonSat ready for launch.BalloonSat ready for launch.
ManagementManagement
Structure Leads: Cole Bostrom, Corey Structure Leads: Cole Bostrom, Corey GodwinGodwin
Electronics Leads: Emily Logan, Seanna Electronics Leads: Emily Logan, Seanna RenworthRenworth
Science/Mechanical Leads: Sean Murphy, Science/Mechanical Leads: Sean Murphy, Jonathan KirchmaierJonathan Kirchmaier
http://zephyraudio.com/db5/00405/zephyraudio.com/_uimages/DSCF1330.JPGhttp://www.supplychain.cn/attachments/wysiwyg/2527/electronic.jpghttp://www.mascarillons.org/ImagesSiteMascarillons/MSC-structure/MSC-structure-polycarb
ScheduleScheduleTeam Schedule of Events:Team Schedule of Events: Week of September 22-28:Week of September 22-28:
Complete design and prototype 9-22 Complete design and prototype 9-22
Conceptual Design Review 9-23Conceptual Design Review 9-23 Week of September 29- October 5:Week of September 29- October 5:
Acquire Authority to Proceed and order all hardware by Acquire Authority to Proceed and order all hardware by 10-210-2
Begin building payload and payload systems 10-3Begin building payload and payload systems 10-3 Week of October 6-12: Week of October 6-12:
Structure tests begin 10-8 Structure tests begin 10-8
Review A due, payload systems complete 10-9Review A due, payload systems complete 10-9 Week of October 13-19: Week of October 13-19:
Continue structure and begin systems testing 10-13Continue structure and begin systems testing 10-13
Critical Design Review, Review B due 10-14 Critical Design Review, Review B due 10-14 Week of October 20-26: Week of October 20-26:
In-class demo of current BalloonSat 10-23 In-class demo of current BalloonSat 10-23
Begin cold tests and testing final design 10-24Begin cold tests and testing final design 10-24
Week of October 27- November 2: Week of October 27- November 2:
Continue testing final designContinue testing final design
LLR cards assigned 10-30LLR cards assigned 10-30 Week of November 3-9: Week of November 3-9:
BalloonSat complete 11-3BalloonSat complete 11-3
In-class mission simulation test 11-4In-class mission simulation test 11-4
Continue in-class mission simulation test, Review C due 8:00 Continue in-class mission simulation test, Review C due 8:00 a.m., LLR cards due in class 11-6a.m., LLR cards due in class 11-6
Week of November 10-16: Week of November 10-16:
Pre-launch inspection and Launch Readiness Review 11-11Pre-launch inspection and Launch Readiness Review 11-11
Final weigh in and turn in 11-14Final weigh in and turn in 11-14
Launch at 7:30 a.m. 11-15Launch at 7:30 a.m. 11-15 Week of November 17-23Week of November 17-23
Analyze data from mission in class 11-18Analyze data from mission in class 11-18
Begin Final Report 11-18Begin Final Report 11-18 Week of November 24-30- Fall BreakWeek of November 24-30- Fall Break Week of December 1-6Week of December 1-6
Final Team Presentation and report, Review D due 12-2Final Team Presentation and report, Review D due 12-2
ITLL Design Expo 12-6ITLL Design Expo 12-6
BudgetBudget
WeightWeight
Component Weight (grams)
Foam Core 125 g
Structure Adhesive 20 g
Mirror Cluster 50 g
Camera 220 g
HOBO 34 g
Heater 1 23.1 g
Timer 33.6 g
Insulation 20 g
Eyebolts (2) 5 g
Anti abrasion bushings (2) 5 g
Tube 10 g
Door Spring Hinges (4) 20 g
Motor-gear system 150 g
Platform 75 g
Guiderails 10 g
9 V Batteries (3) 138.3 g
12 V Battery (1) 7.3 g
Switch (2) 11.4 g
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Total: 957.7 grams
BudgetBudget
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Item Cost (dollars)
Aluminum Isogrid Provided
Foam core Provided
Insulation Provided
Adhesive (hot glue, aluminum tape)
Provided
Heating System (1) Provided
555 Timer (1) Provided
Canon A570IS Digital Camera (1)
Provided
HOBO H08-004-02 data logger (1)
Provided
Central tube for flight string (1)
Provided
Anti-abrasion bushings (2) Provided
Batteries (9V and 12V) Provided
Spring Hinges (4) $4.54
Mirror (2) $2.80
Simple Motor (1) $12.00
Guide Rails (2) $10.00
Small Mounting Platform (1) $50.00
Spare Parts; second motor, extra hinges, mirrors
$17.07
Total Cost $96.41
Our WorriesOur Worries
Time…Time… Our team is worried that we will not have Our team is worried that we will not have
enough time to complete building our enough time to complete building our BalloonSat and running the tests on it.BalloonSat and running the tests on it.
BalloonSat not functioning properly…BalloonSat not functioning properly… Our team is also worried that our Our team is also worried that our
BalloonSat will not function or our science BalloonSat will not function or our science will not work.will not work.