1 / 22

P14471 Vibration Testing Apparatus II Integration Demo 4/15/2014

P14471 Vibration Testing Apparatus II Integration Demo 4/15/2014. Brett Billings Jacob Gardner Nick Greco Ron Jimbo Claire Kobal Ryan Selig Ashley Waldron. Agenda. Demo Items BoM & Budget Issues Project Plan Appendix. Demo Items. Mount 18 lb luminaire to 3/4'' conduit

rufin
Download Presentation

P14471 Vibration Testing Apparatus II Integration Demo 4/15/2014

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. P14471 Vibration Testing Apparatus IIIntegration Demo4/15/2014 Brett Billings Jacob Gardner Nick Greco Ron Jimbo Claire Kobal Ryan Selig Ashley Waldron

  2. Agenda • Demo Items • BoM & Budget • Issues • Project Plan • Appendix

  3. Demo Items • Mount 18 lb luminaire to 3/4'' conduit • Adjust displacement • Turn on VFD & motor, 500 RPM • Display RPM & elapsed time on LCD • End with E-Stop

  4. BoM / Budget • Current costs: • Remaining costs: • VFD enclosure - $80 • Shipping to Syracuse - $600 • Travel Expenses - $240 • Expected final cost: $3,400 • https://edge.rit.edu/edge/P14471/public/WorkingDocuments/Detailed%20Design/BOM_rev6_tracking.pdf

  5. Issues • Reinforce motor mount • Vibration noise at certain frequencies • Decide on Control Panel layout • Shipping apparatus to Syracuse Ryan

  6. Project Plan

  7. Questions?

  8. Appendix

  9. Room Layout

  10. Selected Design • Interchangeable Conduits • Motor with V-belt • VFD • Digital Dial Gauge • Encoder • LCD, Microcontroller • Polycarbonate Guards • E-stop • Paint for Rust Protection

  11. Engineering Requirements

  12. House of Quality

  13. Safety Checklist • ER # 8 – Machine Guarding • ER # 9 – Emergency Stop • ER # 16 – Low Sound

  14. Test Plans • Refer to Excel document • https://edge.rit.edu/edge/P14471/public/WorkingDocuments/MSDII_Build%20Test%20Documentation/P14471 Test Plans_Rev2.xlsx • or EDGE • https://edge.rit.edu/edge/P14471/public/Build%2C%20Test%2C%20Document

  15. Maintaining Displacement • ER #1: Displacement must be 1/32’’ • Clamping force: • Provided by 2 x A574 screws - 5/8’’-11 • M = torque on screws • = 168.9 M ft-1 • Frictional force: • 2 possible locations: • = 33.8 M ft-1 (worst case) • Maximum force applied: • 1.68 ft-lbs. (motor) at 1/32’’ • = 645 lbs. • Required screw torque: • = 38 ft-lbs. (Safety factor of 2) • Max recommended A574 torque = 220 ft-lbs *Detailed calculations in Appendix 1 2

  16. BoltTorqueGuide

  17. Setup Improvements • ER # 11 – Minimize number of operators • ER # 14 – Steps to set up • ER # 15 – Setup time

  18. Setup Improvements • Finer set screw • Before: • 11 threads per inch • 1 turn = 290% of displacement! • After: • 100 threads per inch • 1 turn = 33% of displacement • Changes required: • Machine new set screw plate • Requires threaded bushing for set screw

  19. Set Up Improvements • Set screw • Account for excess space between conduit and collar • Flange • Dimensioned to be placed in same location every time • Blocks on the C channel • ER # 11 – Minimize number of operators • ER # 6, 19-21 – Mount 4 configuration types • ER # 13, 14 – Setup time, number of steps Flange Collar – crankshaft connection Collar – set screws

  20. Full Risk Analysis • See EDGE • https://edge.rit.edu/edge/P14471/public/ProjectManagement/Risk%20Analysis.pdf

  21. VFD Damage Incident • See EDGE • https://edge.rit.edu/edge/P14471/public/WorkingDocuments/VFD%20Damage%20Incident/VFD%20Damage%20Incident.pdf

More Related