project sponsor: hardinge inc. team members: brian heeran (team leader) owen brown matt buonanno
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Multidisciplinary Engineering Senior Design Hardinge Universal Turret Project 05412 2005 Critical Design Review May 13, 2005. Project Sponsor: Hardinge Inc. Team Members: Brian Heeran (Team Leader) Owen Brown Matt Buonanno Eric Newcomb Steven Paul Brice Wert Robert Yarbrough. - PowerPoint PPT PresentationTRANSCRIPT
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Multidisciplinary Engineering Senior Design
Hardinge Universal TurretProject 05412 2005 Critical Design Review
May 13, 2005
Project Sponsor: Hardinge Inc.
Team Members: Brian Heeran (Team Leader)
Owen BrownMatt BuonannoEric NewcombSteven PaulBrice Wert
Robert Yarbrough
Kate Gleason College of EngineeringRochester Institute of Technology
Team Mentor: Dr. James Taylor
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Slide 2 of 27
Background Information
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Senior Design 2 - Plan
• Detailed Design (3/7 – 3/28)• Iterative Problem Solving (3/29 – 4/8)• Component Fabrication (4/12 – 4/29)• Prototype Assembly (4/27 – 5/11)• Hardinge Review (5/13)
ID Task Name
1 Detailed Design2 Iterative Problem Solving3 Component Fabrication4 Prototype Assembly5 Hardinge Review
3/7 3/283/29 4/8
4/12 4/294/27 5/12
5/13 5/13
M F T S W S T M F T S W S T M F T S W S T M F T S W S T MFeb 27, '05 Mar 13, '05 Mar 27, '05 Apr 10, '05 Apr 24, '05 May 8, '05 May 22, '05 Jun 5, '05 Jun 19, '05
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Slide 4 of 27
Project Intent
• Sustain Hardinge Inc. as an industry leader in turret manufacturing.– New technology
• Improved reliability and flexibility of future designs.– Fewer parts– Versatile motor
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Slide 5 of 27
Traditional Motors vs. Torque Motors
Direct drive with torque motor
Motor
1FW3..
Gear box
Customer machine
Customer machine
Traditional drive with motor and gear box
Large outside diameter allows for more poles, and windings thus allowing for higher torques.Large diameter means higher torque can be generated with the same power input.
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Slide 6 of 27
Project Overview
• Project Scope:– Establish the feasibility of Torque Motor
Integration.– Design a Turret Index Model capable of being
manufactured.– Design for adequate cooling of the Torque
Motor.
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Slide 7 of 27
Desired Outcomes• Technical
– Include the use of a torque motor.
– Design with as few parts as possible.
– Included current top plate locking mechanism used by Hardinge in their Quest series turret.
• Performance– Equal or exceed current
industry leader performance attributes such as index time, repeatability, and static stiffness.
– Demonstrate increased reliability of assembly.
– Incorporate adequate cooling of the torque motor.
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Slide 8 of 27
Final Design
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Slide 9 of 27
Analysis of Design• Output from finite element
software based on an indexing load of 633 N-m Torque. – Max Von Mises Stress
found to be 47.3 MPa.– Yield Strength of
1018- CD steel 370 MPa.
– Factor of Safety of 7.8.
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Slide 10 of 27
Development of Machining Experience
• Standard Stock Sizes & Availability• Bearing Lead Time & Availability• Availability of Fasteners & Taps
– English & Metric• SHCS• Flat Head w/ Chamfer• Hex Head
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Slide 11 of 27
Assembly Components
• Side Walls (2x)– Supports Torque
Motor and Stator-Up Plate by securing it to the Base Plate
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Slide 12 of 27
Assembly Components
• Stator-Up Plate– Affixes Torque motor
and Side Walls to Base Plate
– Main Drive shaft assembly passage
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Slide 13 of 27
Assembly Components
• House Front– Supports part of
locking coupler, exposure to CNC Environment
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Slide 14 of 27
Assembly Components
• Interface Plate– Connects Top Plate
to Main Drive Shaft
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Assembly Components
• Main Drive Shaft– Shaft feature changes
for manufacturability– Location and company
with more aggressive machining capabilities than RIT
– Final determination: Hardinge Inc.
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Assembly Components
• Hydraulic Block– Supports Variable
Axial Guide and locking coupler while including potential expandability features for Hardinge Inc.
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Assembly Components
• Variable Axial Guide– Locates within
Hydraulic Block– Provides bearing
surface, bearing retaining attributes and centricity control for Main Drive Shaft
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Slide 18 of 27
Assembly Components
• Bearing Block (Upper & Lower)– Second major
bearing surface in line with Variable Axial Guide
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Slide 19 of 27
Final Assembly
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Slide 20 of 27
Torque Motor Implementation
• Powering– Etel Inc. high voltage motor driver
• Encoding– Sick/Stegmann incremental encoder
• Thermal Overload Protection– Analog and Digital sensors within Stator,
providing temperature feedback
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Torque Motor Cooling
• Max power produced: 1000 W (approx)• Cooling options
– Ventilation slots• Simple, inexpensive• Slots placed in base and top of housing
– Small AC powered fans• Fans mounted on top of housing
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Slide 22 of 27
Torque Motor Cooling
• Further Options– Custom heat pipes
• Expensive• Decreased reliability
– Cooling sleeve• Extremely Expensive• Electron Channel Technology
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Outcomes• Desired
– Preparation for pilot builds.
• Detailed Drawings• Machining• Cooling• Torque Motor Integration
• Actual – Completed prototype
assembly.– Further completed
formal documentation for use by project sponsor for future builds and testing.
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Recommendations for Project Sponsor
• Develop detailed testing procedures for:– Cooling– Variable Tool load Conditions– Worst Case Scenarios– Stiffness
• Investigate inverse torque motor operation (switching stator & rotor orientation).
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Conclusions
• The project culminated with:– An assembled prototype.– Investigated cooling options.– Project poised for future investigations.
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Acknowledgements
• Special Thanks to:– Dr. James Taylor (Faculty Mentor)– Dr. Jacquie Mozrall (Faculty Coordinator)– Mr. John Bonzo (ISE Facilities Manager)– Mr. Dave Hathaway (ME Facilities Manager)– Mr. Rob Kraynik (Senior Mechanical Technician)– Mr. Steve Kosciol (Senior Mechanical Technician)
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Slide 27 of 27
Questions