Analysis of sitting forces on stationary chairs for daily activities

Abstract No literature related to the study of sitting forces on chairs sat on by people who weighed over 136 kg was found. The Business Institutional Furniture Manufactures Association needs force data for development of performance test standards to test chairs for users who weigh up to 181 kg. 20 participants who weighed from 136 to 186 kg completed 6 tasks on an instrumented chair in the sequence of sitting down, remaining seated and rising. Effects of sitting motion, armrest use and seat cushion thickness on vertical sitting forces and centre-of-force were investigated. Results indicated hard sitting down yielded the highest sitting force of 213% in terms of participants’ body weights. Armrest use affected sitting forces of normal sitting down, but not of rising and hard sitting down. Cushion thickness affected sitting forces of normal and hard sitting down and shifting, but not of rising, static seating or stretching backward situations. Practitioner Summary: Results of the sitting force and centre-of-force data obtained for this research can help furniture manufacturers develop new product performance test standards for creating reliable engineering design and manufacturing quality and durable products to meet a niche market need.

[1]  O. Beauchet,et al.  Decreased trunk angular displacement during sitting down: an early feature of aging. , 2005, Physical therapy.

[2]  Subhash Rakheja,et al.  Distributed occupant-seat interactions as an objective measure of seating comfort , 2014 .

[3]  R. Patterson,et al.  Sitting forces and wheelchair mechanics. , 1990, Journal of rehabilitation research and development.

[4]  Chris A McGibbon,et al.  Instant of chair-rise lift-off can be predicted by foot-floor reaction forces. , 2004, Human movement science.

[5]  H. Hirschfeld,et al.  Coordinated ground forces exerted by buttocks and feet are adequately programmed for weight transfer during sit-to-stand. , 1999, Journal of neurophysiology.

[6]  Mike Kolich,et al.  Predicting automobile seat comfort using a neural network , 2004 .

[7]  J A de Guise,et al.  Analysis of pressure distribution at the body-seat interface in able-bodied and paraplegic subjects using a deformable active contour algorithm. , 2001, Medical engineering & physics.

[8]  R. Burdett,et al.  Biomechanical comparison of rising from two types of chairs. , 1985, Physical therapy.

[9]  D. Hobson Comparative effects of posture on pressure and shear at the body-seat interface. , 1992, Journal of rehabilitation research and development.

[10]  D S Drummond,et al.  A study of pressure distributions measured during balanced and unbalanced sitting. , 1982, The Journal of bone and joint surgery. American volume.

[11]  Jilei Zhang,et al.  Analysis of Back Forces While Sitting Down, Seated, and Rising from a Stationary Chair in Subjects Weighing 136–186 kg , 2017 .

[12]  R. Patterson,et al.  continuous sitting force measurements with differ- ent support surfaces in the spinal cord injured and able-bodied , 1991 .

[13]  Tamara Reid Bush,et al.  Support force measures of midsized men in seated positions. , 2007, Journal of biomechanical engineering.

[14]  Karl H.E. Kroemer,et al.  Ergonomics: How to Design for Ease and Efficiency , 1993 .

[15]  E. Carrasco,et al.  Chair load analysis during daily sitting activities , 2008 .

[16]  B B Seedhom,et al.  Knee forces during the activity of getting out of a chair with and without the aid of arms. , 1976, Biomedical engineering.

[17]  B. Etnyre,et al.  Event Standardization of Sit-to-Stand Movements , 2007, Physical Therapy.

[18]  U P Arborelius,et al.  The effects of armrests and high seat heights on lower-limb joint load and muscular activity during sitting and rising. , 1992, Ergonomics.

[19]  Y. Chou,et al.  BIOMECHANICAL ANALYSES OF STRESS DISTRIBUTION WITHIN THE SEATED BUTTOCK AND CUSHION , 2002 .

[20]  Pranab Kumar Nag,et al.  Human–seat interface analysis of upper and lower body weight distribution , 2008 .

[21]  M Kolich,et al.  Ergonomics modelling and evaluation of automobile seat comfort , 2004, Ergonomics.

[22]  B. Seedhom,et al.  Forces in the knee joint whilst rising from a seated position. , 1984, Journal of biomedical engineering.

[23]  Subhash Rakheja,et al.  SEATED OCCUPANT APPARENT MASS CHARACTERISTICS UNDER AUTOMOTIVE POSTURES AND VERTICAL VIBRATION , 2002 .

[24]  H Hirschfeld,et al.  Transfer from table to wheelchair in men and women with spinal cord injury: coordination of body movement and arm forces , 2007, Spinal Cord.

[25]  N. Moes,et al.  Variation in sitting pressure distribution and location of the points of maximum pressure with rotation of the pelvis, gender and body characteristics , 2007, Ergonomics.

[26]  E N Corlett,et al.  How does a backrest work? , 1984, Applied ergonomics.

[27]  E. I. Odell,et al.  Deformations and Stresses in Soft Body Tissues of a Sitting Person , 1978 .

[28]  J D GARNER,et al.  An analysis of sitting areas and pressures of man. , 1962, [Report]. Civil Aeromedical Research Institute.