Exposures and Physiological Responses in Power Tool Operations: Fastening vs. Unfastening Threaded Hardware

Powered hand tools have the potential to produce reaction forces that may be associated with upper extremity musculoskeletal disorders. This study examined and compared the kinetic and physiological impacts on operator upper extremities between the fastening and unfastening operations. Thirty-two healthy, right-handed male operators used four tools on two joint simulators at different working heights and distances in the laboratory. Three work configurations were simulated: pistol grip tools on a vertical and horizontal surface, and right angle tools on a horizontal surface. Grip force was measured on an instrumented handle attached to each tool. Muscle activity was monitored at the wrist flexor and extensor and the upper trapezius of the right arm. Paired comparisons showed that when pistol grip tools were used, the peak torque to unfasten a joint (3.7 Nm) was significantly less than to fasten the same joint (5.7 Nm). However, the exposure time was longer for unfastening cycles (98 ms more on the horizontal surface, and 107 ms more on the vertical surface). The average grip force scaled to corresponding peak tool torque revealed that the effort to react against torque was greater in unfastening cycles than in fastening cycles for all work configurations. It also showed that as a proximal stabilizer, the upper trapezius muscle had a greater activity in unfastening cycles. The kinetic and physiological responses demonstrated that unfastening fasteners, which has been neglected in the literature, have the potential to increase risk for musculoskeletal disorders and should be considered in ergonomics assessment in the workplace.

[1]  Robert G. Radwin,et al.  A Dynamic Mechanical Model for Hand Force in Right Angle Nutrunner Operation , 1997, Hum. Factors.

[2]  Seoungyeon Oh,et al.  Dynamics of Power Hand Tools on Operator Hand and Arm Stability , 1994 .

[3]  Chien-Chi Chang,et al.  Handle displacement and operator responses to pneumatic nutrunner torque buildup. , 2006, Applied ergonomics.

[4]  T Armstrong,et al.  Muscle responses to simulated torque reactions of hand-held power tools. , 1999, Ergonomics.

[5]  Svend Erik Mathiassen,et al.  Activity in five muscles during joint securing using pneumatic nutrunners , 2002 .

[6]  Patrick G. Dempsey,et al.  Effects of User Experience, Working Posture, and Joint Hardness on Powered Nutrunner Torque Reactions , 2007, Ergonomics.

[7]  Jia-Hua Lin,et al.  A single-degree-of-freedom dynamic model predicts the range of human responses to impulsive forces produced by power hand tools. , 2003, Journal of biomechanics.

[8]  Seoungyeon Oh,et al.  The effects of power hand tool dynamics and workstation design on handle kinematics and muscle activity , 1997 .

[9]  T. Armstrong,et al.  Muscle response to pneumatic hand tool torque reaction forces. , 1989, Ergonomics.

[10]  G M Hägg,et al.  Normalization of surface EMG amplitude from the upper trapezius muscle in ergonomic studies - A review. , 1995, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[11]  D. Chaffin,et al.  A proposed standard procedure for static muscle strength testing. , 1974, American Industrial Hygiene Association journal.

[12]  John R. Myers,et al.  Hand tool injuries at work: A surveillance perspective , 1988 .

[13]  Robert G. Radwin,et al.  Handle Dynamics Predictions for Selected Power Hand Tool Applications , 2003, Hum. Factors.

[14]  Chien-Chi Chang,et al.  Hand-Handle Interface Force and Torque Measurement System for Pneumatic Assembly Tool Operations: Suggested Enhancement to ISO 6544 , 2007, Journal of occupational and environmental hygiene.

[15]  Jia-Hua Lin,et al.  Forces associated with pneumatic power screwdriver operation: statics and dynamics , 2003, Ergonomics.

[16]  Steve Kihlberg,et al.  Discomfort from pneumatic tool torque reaction: Acceptability limits , 1995 .

[17]  L Lindbeck,et al.  Pneumatic tool torque reaction: reaction forces, displacement, muscle activity and discomfort in the hand-arm system. , 1993, Applied ergonomics.

[18]  Jia-Hua Lin,et al.  Predicting subjective perceptions of powered tool torque reactions. , 2009, Applied ergonomics.