1. Team K-TRON Team Members: Ryan Vroom Geoff Cunningham Trevor McClenathan Brendan Tighe

2. Outline Project definition Overview of design process > Important decisions made with rationale Concept selection > Concept chosen with validation Implementation plan Final remarks

3. Project Scope »Design a testing apparatus to produce external vibration to the SFTII load cell under specific loading Metrics: Apply mass of 120 kg in 6 increments Frequency range: Achieve 120 Hz (112 Hz “magic number”) and as low as possible Acceleration range: 0.05 g – 0.3 g Max displacement of 1 mm SFTII

4. Adding Value to Sponsor’s Business Exact modeling can increase load cell accuracy -Filtering out environmental noise Allow K-TRON to remain as the “World’s number one feeder company”

5. Subsystem Design Load Cell Testing Apparatus Actuator Upper Frequency Range >112 Hz/ Achieve Range of G Forces/Repeatable Application of Mass 0-120 kg Frame Design Include Flexures/ Adaptable to both Load Cells

6. Benchmarking: Actuator Bose Electro-Magnetic Linear Drive: Cost: ~ $35,000.00! Production time ~ 3 years Parker Linear Actuator: Can only work up to 100 Hz Requires load relieving Expensive: Actuator/Controller combo costs ~$11,000.00

7. Benchmarking: Actuator BEI Kimco Voice-Coil Linear Actuator: Max load of 13.5 kg Piezomechanik Piezoelectric Actuator: Will need a very powerful controller (1000V output) to work Actuator/Controller combo= $13,880

8. Benchmarking: Chosen Actuator After checking calculations, determined lower voltage actuator could be used d=amplitude a=gravitational force Results Determined: » Low end frequency at low g force – 27 Hz at 0.05 g’s » Low end frequency at high g force – 68 Hz at 0.3 g’s

9. Benchmarking: Chosen Actuator Piezomechanik Piezoelectric Actuator, PSt 150/7/40 VS12: Lower voltage requirement 150 volts 40 µm displacement Max. load of 1000 N must use 100 kg instead of 120 kg Actuator: $699.00 Controller: + $4990.00 $5689.00

10. Actuator: Cost Analysis Actuator Cost Analysis ConceptDescriptionCost 1Electro-Magnetic Linear Drive$35,000 2Parker Linear Actuator$11,000 3BEI Kimco Voice-Coil$900 4 Piezomechanik Piezoelectric System (1000 V)$13,880 5 Piezomechanik Piezoelectric System (150 V)$5,689

11. Benchmarking: Load Application Machined steel: Cost of material greater than $115 per 20 kg mass High machining time Machined lead: Toxic issues Cost of material greater than $140 per 20 kg mass High machining time 45 lb weights: High resultant moment

12. 25 lb. cast plates: Small, circular shape reduces unwanted moment forces during testing Pre-bored center hole reduces machining time Low cost of $13.99 per 11.3 kg Benchmarking: Chosen Loading Application

13. Weight selection determined center rod: –1.25 in. acme threaded rod-rod diameter ideal for existing hole and cost –Acme threaded collar to minimize movement of weights during testing –Analysis of rod under worst case scenario, assume cantilevered beam w/ distributed load » Safety factor of 5.7 Center hole diameter of weights, 2-1/32 in. –Machine aluminum inserts that are press-fitted - provide slip fit between rod and plate

14. Loading Design: Cost Analysis Mass Loading Parts: #DescriptionCost Ea. ($)Cost ($) 1225 lb. weight13.99167.88 1Acme Threaded Collar19.78 13 ft. Acme Threaded Rod40.43 12Weight Inserts0 (scrap)0 Total Cost ($)228.09 Machining: Time (hrs.)Cost per hourCost ($) ~20free0 Overall Cost excluding shipping ($)228.09

15. Exploded System Design 1) Base Plate 2) Steel Supports 3) Steel Struts 4) Support Blocks 5) Flexure 6) Flexure Connector 7) Weight Post 8) Rod Connecting screw 9) Load Cell 10) Actuator Connecting Screw 11) Actuator 12) Actuator Stabilizer 1 2 3 4 5 6 7 9 8 11 10 12 4

16. Completed System Design

17. Frame Design: Steel Support Tubing Main structural parts made of 1008 steel 24” x 24” x 1” base plate 1” x 1” square tubing Support blocks –All steel parts welded to increase rigidity 1008 steel properties: Elastic Modulus ~ 29,000 ksi Tensile strength ~ 49.3 ksi Yield Strength ~ 41.3 ksi Base plate Square tubing Support block

18. Frame Design: Finite Element Analysis Steel square tube with 80 N shear load at tip Maximum deformation of 9.42e -4 in. Factor of Safety > 9.6

19. Frame Design: Flexure Flexures connect threaded rod to steel supports Reduces lateral motion of the rod All applied stresses are tensile

20. Frame Design: Finite Element Analysis Stainless steel flexure device with 45 N tensile load applied at right cutout Maximum deformation of 4.26e -3 in. Factor of Safety > 8.7

21. Frame Design: Actuator Support After speaking with Dr. Sun on possible failure: Actuator support will be bolted to base plate using the four pre-existing screw holes The support will keep Actuator from buckling under high loads Actuator Actuator support

22. Frame Design: Load Cell/Actuator Connector Steel bolt body with 1000 N compression load applied at center gives factor of safety > 4.17 Effective loading difference on face is 471N Maximum deformation of 1.5e -5 in.

23. Frame Design: Cost Analysis Frame System Cost Analysis Parts: #DescriptionCost Ea. ($)Cost ($) 1Steel Plate421.63 1Steel Square Tube19.43 2Flexures0 (in house)0 1Alum. 6” x 6” Block0 (scrap)0 1 Alum. Flexure Connector0 (scrap)0 5M8 Bolts0 (in house)0 8M4 Bolts0 (in house)0 Total Cost ($)441.06 Machining: Time (hrs.)Cost per hourCost ($) ~20free0

24. Overall Cost Analysis Mass Loading Cost All Supplies$228.09 Frame System CostTotal System Cost All Supplies$441.06$6,358.15 Actuator System Cost All Supplies$5,689.00

25. Implementation Plan Test the as-built apparatus to complete validation of design (in process) Manufacture SFTIII adaptation mount We will hand-off the project to K- Tron so they can test their load cells

26. Acknowledgements Thank you to our sponsor at K-Tron: –Tim Baer –Jim Foley Thanks to our advisor: –Dr. Keefe Special thanks to: –Steve Beard

27. Questions Exploded View

28. Frame Design: Finite Element Analysis Steel SFTIII adapter support with 720 N applied load at attached face Maximum deformation of 2.447e - 4 in. Factor of Safety > 100 with full load (1600 N) applied