Pistol Grip Power Tool Handle and Trigger Size Effects on Grip Exertions and Operator Preference

Finger and palmar forces were measured during actual pneumatic nutrunner operation using a strain gauge dynamometer. Eighteen student subjects were assigned to one of three categories based on hand length. Two triggers and four handle spans were presented randomly. Handle span affected maximal and submaximal grip force. Asspan increased from 4 cm to 7 cm, average peak finger force increased 24%, peak palmar force increased 22%, and average finger and palmar tool-holding forces increased 20%. When an extended trigger was used, average peak finger force decreased 9%, peak palmar force decreased 8%, finger tool-holding force decreased 65%, and palmar tool-holding force decreased 48%. Hand size affected grip strength (MVC),grip force, and exertion level (force/MVC). Holding exertion level was maximum for large-handed subjects using a 4-cm handle and for small-handed subjects using a 7-cm handle. Subjective handle span preference increased as hand size increased. A similar experiment was performed using 11 factory workers.

[1]  M. M. Ayoub,et al.  The determination of an optimum size cylindrical handle by use of electromyography. , 1971, Ergonomics.

[2]  W S Marras,et al.  Evaluation of Maximal and Submaximal Static Muscle Exertions , 1981, Human factors.

[3]  Thomas M Greiner,et al.  Hand Anthropometry of U.S. Army Personnel , 1991 .

[4]  A. Bonnici,et al.  A survey of 'trigger finger' in adults. , 1988, Journal of hand surgery.

[5]  M. Pellowski,et al.  Fluctuation in grip and pinch strength among normal subjects. , 1989, The Journal of hand surgery.

[6]  Nasca Rj Trigger finger". A common hand problem. , 1980 .

[7]  R T Schmidt,et al.  Grip strength as measured by the Jamar dynamometer. , 1970, Archives of Physical Medicine and Rehabilitation.

[8]  R G Radwin,et al.  A linear force-summing hand dynamometer independent of point of application. , 1991, Applied ergonomics.

[9]  Schmidt Rt,et al.  Grip strength as measured by the Jamar dynamometer. , 1970 .

[10]  R. Nasca "Trigger finger". A common hand problem. , 1980, The Journal of the Arkansas Medical Society.

[11]  T J Armstrong,et al.  Ergonomics and cumulative trauma disorders. , 1986, Hand clinics.

[12]  A. R. Lind,et al.  The effect of handgrip span on isometric exercise performance. , 1980, Ergonomics.

[13]  G de Groot,et al.  The strength of the hand. , 1970, Bulletin of prosthetics research.

[14]  M L Bleecker,et al.  What are cumulative trauma disorders? , 1991, Journal of occupational medicine. : official publication of the Industrial Medical Association.

[15]  H. Hertzberg SOME CONTRIBUTIONS OF APPLIED PHYSICAL ANTHROPOLOGY TO HUMAN ENGINEERING , 1955 .

[16]  T J Armstrong,et al.  Repetitive Trauma Disorders: Job Evaluation and Design , 1986, Human factors.

[17]  A A Amis,et al.  Variation of finger forces in maximal isometric grasp tests on a range of cylinder diameters. , 1987, Journal of biomedical engineering.

[18]  J. Webster,et al.  External finger forces in submaximal five-finger static pinch prehension. , 1992, Ergonomics.