Design and Evaluation of Three-Point Hitch Dynamometer

Charanjit Singh; B.S. Panesar

doi:10.52151/jae2008452.1325

Authors

Charanjit Singh Charanjit Singh, SRF, Division of Agricultural Engineering, IARI, New Delhi – 110012 Author
B.S. Panesar Dr. B. S. Panesar, Senior Project Professional, SCS Engineers, Reston. Virginia, USA Author

DOI:

https://doi.org/10.52151/jae2008452.1325

Abstract

A three-point hitch dynamometer was designed, fabricated, calibrated and tested for measuring draft, vertical force and the moment acting on four different types of implements. The dynamometer consisted of three subassemblies: implement subassembly for attachment to the implement, transducer subassembly for sensing different forces and tractor subassembly for attachment to the tractor. As a complete unit, the force dynamometer extended the implement by about t 90 cm to the rear of the tractor hitch point. A total of t 6 strain gauges were mounted on the transducer subassembly. Four strain gauges measured draft, another four-measured vertical force and the remaining eight measured moment. Strain gauges for measuring moment were mounted at the tube surface at 45° to the tube axis. Three 9-volt batteries and IC 7805 capacitor were used for supplying constant 5-volt excitation voltage to all the three bridges. The dynamometer was calibrated for three different bridges viz. draft-bridge, vertical-bridge and moment-bridge at different angles of pull. Data were recorded using a data logger. Calibration equations were determined for all the three bridges. Draft, vertical force, moment and pull for planker, no-till drill, ridger and cultivator were determined using the three-point hitch dynamometer. Operational parameters of the selected implement were varied as per the requirement of the implement used. Regression coefficient for raft-bridge, vertical-bridge and moment-bridge were 0.998,0.995 and 0.996. The complete dynamometer is about 980 mm wide, 630 mm high and weighs 115 kg.

References

AI-Jalil H F; Khdair A; Mukahal W. 2001. Design and performance of an adjustable three-point hitch dynamometer. Soil Tillage Res., 62(3), 153-156.

AI-Janobi A A; AI-Suhaibani. 1998. Draft of primary tillage implements in sandy loam soil. J. Applied Engrs., 14(4),343-348.

Arrivo A; DiRanzo G C. 1998. Trailed unit for testing implements under field conditions. J. Agric. Engng. Res., 47 JAE : 45(2) 71,19-24

Godwin R J; Reynolds A J; O'Dogherty M J; AIGhazal AA. 1993. A triaxial dynamometer for force and management measurement on tillage implements. J. Agric, Engng. Res., 55, 189-205.

Johnson C E; Voorhees W B. 1979. A force dynamometer for three-point hitch. Trans. ASAE, 22 (2), 226-228.

Khan J; Godwin R J; Kilgour J; Blackmore B S. 2006. Design and calibration of a direct mounted strain gauged lower links system for measurement of tractor-implement forces. ARPN J. Engng. App. Sci., 1(1),22-25.

Kirisci V; Blackmore B S; Godwin R J; Blake J. 1993. Design and calibration of three different three-point linkage dynamometers. ASAE/CSAE Paper No. 93-1009. ASAE, St. Joseph, MI.

Kohli S S. 1986. Design of three-point hitch dynamometer. B.Tech project report (unpublished). Department of Farm Power and Machinery, Punjab Agricultural University, Ludhiana, India.

Lotfi D; HemmatA; SarrafMAR. 2007. Development and evaluation ofa three-point hitch dynamometer and a fifth wheel for mounted implement draft and tractor speed measurements. J. Sci. Technol. Agric. Natur. Resour., 11 (l), 163-167

PalmerAL. 1992. Development ofa three-point linkage dynamometer for tillage research. J. Agric. Engng. Res., 52,IS7-167.

Panesar B S. 1993. Spatial energy model for agricultural production: a Ph.D. Dissertation. Ann Arbor, MI: U.M.I. Dissertation Services, A Belt and Howell Company.