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Team SYNERGY in Partnership with Parker PGI. MINIMUM BLEED VALVE ASSEMBLY. Members: Darius Mwalili, Joseph Page and Ashley Burton. Industry advisor: Bruce Kasten of Parker PGI Brian Haygood of System Engineering and Laboratories Faculty advisor: TBA Underclassman: Kevin Spiller.
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Team SYNERGYin Partnership with Parker PGI MINIMUM BLEED VALVE ASSEMBLY Members: Darius Mwalili, Joseph Page and Ashley Burton Industry advisor: Bruce Kasten of Parker PGI Brian Haygood of System Engineering and Laboratories Faculty advisor: TBA Underclassman: Kevin Spiller
TABLE OF CONTENTS Background Objective and Goals Tasks Completed Incomplete Task Cost Analysis Project Management Q&A Session
BACKGROUND • PARKER PGI
BACKGROUND • MINIMUM BLEED VALVE • A valve with an actuated handle used in tank filling operations for ammonia and propane tanks. • 1” NPT Minimum Bleed Valve • Composed of A356-T6 aluminum • Design pressure of 400 psi
TABLE OF CONTENTS Background Objective and Goals Tasks Completed Incomplete Task Cost Analysis Project Management Q&A Session
Objective • To determine the root cause and develop a solution to various issues experienced with Parker PGI’s minimum bleed valve assembly. • Issues Experienced: • Handle mechanism failure • Swivel connection issues
goals • Redesign handle to prevent failure at post-production in order to eliminate accidental release • Design a locking mechanism for the swivel connection • Ensure design follows UL 125 specifications and can be used with current repair kits manufactured by Parker PGI • Maintain a fluid release capacity of no more than 7.6 cc’s
TABLE OF CONTENTS Background Objective and Goals Tasks Completed Incomplete Task Cost Analysis Project Management Q&A Session
Tasks completed • 1. Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design Iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Tasks completed • 1. Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design Iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Tasks completed • 1. Design Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design Iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Tasks completed • 1. Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design Iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Tasks completed • 1. Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design Iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Tasks completed • 1. Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design Iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Design Analysis: tolerance analysis Unit: Inches
Results determined • HANDLE FAILURE • Tolerances may need to be adjusted to eliminate the potential of the component shifting out of the home position.
Tasks completed • 1. Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design Iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Tasks completed • 1. Analysis • • Design Failure Mode and Effect Analysis • • Handle • • Latch • • Spring • • Tolerance Analysis • 2. Design iterations of Swivel Connection • 3. Machined Prototype of Swivel Connection
Nozzle ACME Adapter Sleeve Swivel Nose Piece
TABLE OF CONTENTS Background Objective and Goals Tasks Completed Incomplete Task Cost Analysis Project Management Questions and Answer Session
INCOMPLETE TASKS • 1. Design iterations • • 2 more design concepts for the swivel • 2. Prototypes • Collecting Materials • Writing CNC code • Evaluation of prototypes • 3. Fabrication of final products • Evaluation
TABLE OF CONTENTS Background Objective and Goals Tasks Completed Incomplete Task Cost Analysis Project Management Q&A Session
TABLE OF CONTENTS Background Objective and Goals Tasks Completed Incomplete Task Cost Analysis Project Management Q&A Session
PROJECT TIMELINE Select and Organize Team Members Finalize Swivel Design Prototypes of Handle Examine Current Model ANALYSIS DESIGN ORGANIZATION FABRICATION Finalize Handle Design Solution Prototype of Swivel 33% Problem Identification Brainstorm and Finalize Project Idea Cast Handle (Final Design) Tolerance Analysis Material Selection Product Research Machine Swivel (Final Design) DFMEA Analysis 50% CNC coding Cost and Market Analysis Test Mechanism Design Concepts 33% Risk Assessment Legend: Complete In Progress Not Initiated
TABLE OF CONTENTS Background Objective and Goals Tasks Completed Incomplete Task Cost Analysis Project Management Q&A Session
Q&A Team website: 129.7.138.42/~ajburto2