Journal of Applied Science, Engineering and Technology.

Stirring activity in gari-frying involves repetitive movement of the hand until the batch is ready. The existing stirring tools vary. Workers using these tools experience Carpal Tunnel Syndrome among other discomforts of musculoskeletal disorders origin up to the shoulder/arm region. To mitigate this risk, an ergonomic stirring tool was developed. The user requirements were first defined by assessing the existing stirring tools. Also, six hand anthropometric data of female gari-frying workers were collected from 120 subjects in six southwestern states of Nigeria. A new prototype stirring tool was thereafter developed based on the requirements of the gari-frying task and the hand anthropometry data collected. Results of the analysis of the anthropometric data give the 50th percentiles of the hand length, hand breadth at thumb, hand breadth at knuckles, hand thickness, grip span and hand length at index as 10.45, 9.40, 6.88, 4.19, 2.96 and 17.50 cm, respectively. A new rectangular-shaped stirring tool was developed, having a surface dimension 275.00 × 124.00 mm x 13 mm, weighs 342 g made of Melina wood (Gmelina Arborea). In use, this new tool ensures a neutral posture of the wrist with power grip and good coverage (sweep) area of the frying pan during operation.     ©University of Ibadan

Adamade C.A and Jackson B.A (2014). Agricultural mechanization: a strategy for food sufficiency. Scholarly Journal of Agricultural Science, 4(3), 152-156. Aptel M., Claudon L. and Marsot J. (2002). Integration of Ergonomics into Hand Tool Design: Principle and Presentation of an Example. International Journal of Occupational Safety and Ergonomics (JOSE), 8(1), 107-115.

Ashburner J.E. and Kienzle J. (2013). Agricultural Hand Tools in Emergencies: Guidelines for Technical and Field Officers. FAO Plant Production and Protection paper No. 214. Available at; www.fao.org/dorcep/018/i3197e/i3197e.pdf. Assessed 19th July 2015. Dewangan K.N., Owary C., and Datta R.K. (2008). Anthropometric Data of Female Workers from North Eastern India and Design of Hand Tools of Hilly Region. International Journal of Industrial Ergonomics, 38(1), 90-100. Drury C.G. (1980). Handles for Manual Material Handling, Applied Ergonomics, 11(1), 35-42. Johnson S.L. (1993). Ergonomic hand tool design. Hand Clinics, 9(2), 299-311. Lewis W.G., and Narayan C.V. (1993). Design and Sizing of Ergonomic Handles for Hand Tools. Applied Ergonomics, 24(5), 351-356. Mital A. (1991). Hand Tools: Injuries, Illness, Design and Usage. Advances in Human Factors/Ergonomics, 15, 219-256. Mital A. and Kilbom A. (1992). Design, Selection and Use of Hand Tools to Alleviate Trauma of the Upper Extremities: Part II – The Scientific Basis (Knowledge Base) for the Guide. International Journal of Industrial Ergonomics, 10(1), 7-21. Mital A., Kuo T., and Faard H.F., (1994). A qualitative evaluation of gloves used with non-powered hand tools in routine maintenance tasks. Ergonomics, 37(2), 333-343. Muggleton J. M., Allen R. and Chappell P. H. (1999). Hand and arm injuries associated with repetitive manual work in industry: a review of disorders, risk factors and preventive measures. Ergonomics, 42(5), 714-739. NIOSH (2004). Easy Ergonomics: A Guide to Selecting Non-Powered Hand Tools. DHHS (NIOSH) Publication, No. 2004-164. Available at; www.cdc.gov/niosh/docs/2004-164/pdfs/2204-16 4.pdf. Assessed 19th July 2015. Odigbo E.U. and Ahmed S.F. (1982). Design of a Continuous process Frying Machine. Proceedings Nigerian Society of Agricultural Engineers, 6, 65-75. OSHA (2002). Hand and Power Tools. U.S. Department of Labor Occupational Safety and Health Administration. OSHA 3080 (Revised). Available at: www.osha.gov/Publications/osha3080.pdf. Assessed 19th July 2015. Radwin C.G. (2003). Ergonomically Designed Hand Tools. AIHC&E. Available at www.eadc.engr.wisc.edu/Web_Documents/AIHC E%202003.pdf. Assessed 19th July 2015. Sancho-Bru JL, Giurintano DJ. Pe´rez-Gonza´lez A, Vergara-Monedero M, (2003a) Optimal Tool Handle Diameter for a Cylinder Grip. Journal of Hand Therapy.16(4):337-42 Sancho-Bru JL, Perez-Gonzalez A, Vergara-Monedero M, Giurintano DJ. (2003b) A 3D biomechanical model of the hand for power grip. J Biomech Eng. 2003;125:78–83 Samuel T.M. and Adetifa B.O. (2013). Assessing Musculoskeletal Risks in Gari-Frying Workers. Leonardo Journal of Sciences, 12(23), 61-76. Shrestha S. (2012). Testing of Hand Tools and Non-Motorized Machines used in Agriculture in Asia Pacific Region. Advancing Progress with an Asia-Pacific Network for Testing Agricultutral Machinery. ANTAM Technical Committee. Bangkok.

Singh J., and Khan A.A. (2014). Effect of Coating over the Handle of a Drilling Machine on Vibration Transmissibility. Applied Ergonomics, 45(2), 239-246. Sperling L., Dahlam S. Wistrom L., Kilbom A., and Kadefors R. (1993). A Case Model for the Classification Work with Hand Tools and the Formulation of Functional Requirements. Applied Ergonomics, Vol. 24(3), 212-220.