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By Robert G. Sperry M.s. Graduate John H. Wilhoit Extension Associate Professor Dave Ash

DEVELOPMENT AND EVALUATION OF A BURLEY TOBACCO MECHANICAL STRIPPING CONCEPT UTILIZING STRING TRIMMERS. By Robert G. Sperry M.s. Graduate John H. Wilhoit Extension Associate Professor Dave Ash Engineer Aid Biosystems and Agricultural Engineering, University of Kentucky 2012.

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By Robert G. Sperry M.s. Graduate John H. Wilhoit Extension Associate Professor Dave Ash

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  1. DEVELOPMENT AND EVALUATION OF A BURLEY TOBACCO MECHANICAL STRIPPING CONCEPT UTILIZING STRING TRIMMERS By Robert G. Sperry M.s. Graduate John H. Wilhoit Extension Associate Professor Dave Ash Engineer Aid Biosystems and Agricultural Engineering, University of Kentucky 2012

  2. Standard Labor Requirements for Burley Tobacco

  3. Standard Labor Requirements for Burley Tobacco

  4. Harvesting (48-60 wk*hr/ac) and stripping (51-73 wk^hr/ac) are by far the biggest labor requirements

  5. Grading Based on stalk position Each grade takes up a length of stalk Leaves for each grade stripped off by hand seperately

  6. Manually stripping tobacco is very labor intensive

  7. New Method • Combining major elements of proven systems • Straight line conveyors • Plants conveyed at even spaces • Grading based on stalk position • Using new tobacco stripping technology • String trimmers to remove leaves • Flexible brushes to align leaves

  8. Basic configuration of stripping machine concept

  9. Leaf Alignment • Brushes used for aligning and holding leaves • Cams open brushes to allow stripped leaves to fall

  10. Leaf Alignment • Brushes used for aligning and holding leaves

  11. Video

  12. Objectives • Develop a mechanical system for removing a single grade of burley tobacco from the stalk utilizing string trimmer technology. • Determine the best combination of motor speeds and string lengths for optimal stripping efficiency. • Strip tobacco leaves into three appropriate grades based on stalk position and linear progression along the length of the machine using multiple string trimmers. • Evaluate the stripped leaves for damage due to shredding by classifying potential losses.

  13. Coverage 5 in. string (7 in. radius) 7 in. string (9 in. radius) 9 in. string (11 in. radius)

  14. Single Grade Testing Procedure

  15. Resulting Efficiencies 5 IN. STRING LENGTH 7 IN. STRING LENGTH 9IN. STRING LENGTH

  16. Machine Stripping 3 Grades Flyings are removed by hand Lug, leaf and tip are removed with string trimmers 7 in. string length used for proper coverage and grading on 44 in. plant

  17. 3 Grade Machine Stripping Results

  18. Leaf Damage Small pieces make up 5.6% of total weight removed

  19. Particle Distribution

  20. Conclusions Significant difference in efficiency for faster speeds at given string length Results for 3 grade stripping with 4th grade stripped by hand showed 97% efficiency Particle size distribution test results showed 5.6% by weight pieces smaller than 1 in. x 1 in. With modifications, the current setup could be turned into a fully operational field prototype with the potential to significantly reduce stripping labor requirements.

  21. Potential Productivity • Conveyor Speed was timed: 2.73 s/plant (cups holding plants spaced 24 in. apart) • With two people hand-stripping flyings and feeding machine, each person would process 1 plant/5.5 s • Potential productivity: • Assume 85% field efficiency • Approximately 1100 plants/hr • 370 lb/hr • Approximately 3,000 lbs per 8 hour day • Approximately 1.25 acres stripped per day (depending on yield) • With 4 person crew stripping rate is 26 wkr*hr/ac • Conventional hand stripping 51-73 wkr*hr/ac

  22. Cost and Payback Labor costs for crew of workers are $10-15 per hour per worker Potential savings with this machine $5,000/year for 20 acre crop at $10/hr labor rate At $15/hr, savings could be $7,500/year If machine cost $10,000, pay back period could be 1.5 to 2 years, twice that if cost is $20,000

  23. Further work needed to develop operational prototype Automatic opening and closing of stalk-holding cups for faster loading Automatic ejection of stalks from stalk-holding cups Automatic opening of brushes to eject detached leaves Shielding between grades Possible conveyor speed variations More detailed look into the power requirements and usage Investigate issue of foreign matter (from plastic string) in tobacco

  24. Modifications Made for 2011-2012 Season Automatic opening and closing of stalk-holding cups for faster loading Automatic ejection of stalks from stalk-holding cups Automatic opening of brushes to eject detached leaves Shielding between grades Possible conveyor speed variations More detailed look into the power requirements and usage Investigate issue of foreign matter (from plastic string) in tobacco

  25. Modifications to Stalk-Holding Cups A cam opens spring-loaded cups over an 18 in. distance at the front end of the machine to facilitate continuous loading

  26. Modifications to Stalk-Holding Cups Another cam at the end of the machine opens the cups again as for ejecting the stalks after stripping

  27. Ejection Wheels Rotating rubber wheels grasp stalks as they come around to ensure that they are ejected from the cups

  28. Modifications to brushes Bristle brushes have been replace by sheet rubber, and they pivot to open in between every plant so detached leaves can fall instead of being pushed into the string trimmers.

  29. Results of Preliminary Tests Conducted in 2012 Tests conducted with additional string trimmer added for stripping tip grade, to better handle taller plants. Tip grade was stripped first rather than last. Trials 3 and 4 conducted at higher motor speeds.

  30. Results of Preliminary Tests Conducted in 2012 Note low stripping efficiencies for a few plants that reduced average efficiencies. Based on observations, the cause was usually a stalk that was poorly seated in the cup so that the string trimmers caused the stalk to bend over significantly.

  31. Further work needed for reliable operational stripping To achieve stripping efficiencies comparable to hand stripping (95%-100%), the machine needs to effectively strip nearly every single plant. The key to such reliability seems to be that the stalk ends be securely seated in the cups so that the stalks remain vertical as they pass all of the string trimmers. Further work is needed to determine optimum string trimmer placement to give full stripping coverage for a range of stalk heights. Once reliable operational stripping is achieved, efforts will be directed at working out shielding for grade separation and assessing grading accuracy. Efforts will also be directed at assessing foreign matter in the tobacco (from the plastic string), and developing methods for minimizing it if necessary.

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