Title: Manual Material Handling
1Manual Material Handling
2Introduction
- Research has been conducted in the area of MMH
for about 40 years continued research in this
area today - Research has entailed establishment of acceptable
handling limits using different approaches, the
application of ergonomic principles to job
design, employee placement and employee training. - Manual lifting represents a major cause of injury
to industrial workers and a major cost to
industry. - Age and gender variables do not affect back
injury rates significantly (Laughery and Schmidt,
1984) - Possible job assignment based on age and gender
- Older workers generally more experienced with the
job - Contradictory evidence from the Bureau of Labor
Statistics Supplementary Data System (SDS)
indicates a significant decrease in injury claims
with age (possible self selection)
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4MMH Injury Frequency and Cost
- Back (lower back) injuries occur with alarming
frequency (Caillet, 1981, estimates 70M Americans
suffered back injuries with increasing incidence
of 7M annually). - 5M people partially disabled because of back
injury, 2M not able to work at all. Estimates
that 6.5M Americans will lie in bed on any given
day because of back pain with increases of 1.5M
annually (Keim, 1981,1984) - Cost is estimated at 19-25.5 of all WCC due to
back pain - See Figure 1 for age and gender specific data
- See Table 1 for WCC based on type of exposure
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7- Nearly 50 of all back strain/sprains
precipitated by manual lifting of objects - Low back pain (Khalil et al., 1984) is the second
largest pain problem behind headaches. White
(1983) reported that more than 70M people in USA
see physician annually complaining of lower back
pain. Loesser (1979) estimated that 170M working
days lost each year. - For work injury and cost statistics see figure 2
(National Safety Council, 1972-1984) - Figure 2 shows the work injury and cost
statistics associated with injury. - This figure shows two intriguing facts regarding
MMH-related injuries. - First, despite improved medical care, increased
automation in industry, and more extensive use of
pre-employment exams, only a marginal decline in
worker injuries is observed. - Second, the cost of injuries has increased at an
alarming rate. More recent data shows that the
increased health care costs have actually
increased this number significantly in the last
decade
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9Affected Industrial Populations
- Back pain categorized into occupational and
non-occupational origins. Occupational
definition if the origin of back pain and work
tasks can be established - Nurses have more back injuries than most
occupational groups (Jensen, 1985, 1986 Klein et
al., 1984) and are particularly vulnerable to
low-back pain - The prevalence, incidence, and lost work time
were high, and interference with effective work
was great. - Construction and Mine workers are also have
considerable back injury (See Table 3)
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14Variables in MMH
- Worker Task Environment System Concept
- The Worker Component
- The Task Component
- The Environment Component
- Interactive Effects of System Components
- System Response Measures
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20Worker Task Environment System Concept
- MMH system consists of three components
- Worker
- Task
- Environment
- System may be closed or feedback where system
has a closed loop structure and its outputs
(responses) influence inputs in such a way that
the goal sought is achieved (negative feedback). - In the context of MMH, goal may be to select a
workload that does not lead to excessive fatigue
or injury. If workload (input) exceeds a certain
level, it will trigger responses (output) that
will be unsafe and will lead to excessive fatigue
or injury.
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23Lifting Limits in MMH
- First publicized set of weight-lifting limits was
produced by the International Labor Organization
(ILO) in 1962 - Specific safe weight limits were specified for
men and women of different ages - Frequency of lifting, size of the object, etc.,
were not considered in setting these limits. - The ILO limits (due to their lack of
comprehensiveness or poorly stated guidelines)
appeared to have little effect on reducing the
incidence of musculoskeletal injury and illness
in industry (NIOSH, 1981). - Review of ILO load lifting limit (1988) revealed
a large variation in interpretation and use of
the ILO recommendations across countries - Led to the development of the NIOSH Work
Practices Guide to Manual Lifting and the
following factors - Epidemiology of musculoskeletal injury
- Biomechanics concepts
- Physiological principles
- Psychophysical (including muscular strength)
population lifting limits
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26Scope of NIOSH Work Practices Guide for Manual
Lifting
- Adequate, consistent research findings have been
available since 1981 to support a recommendation
only on symmetric (two-handed) lifting of loads
in the sagittal plane - Resulting recommendations were limited to the
following - Lifts should be smooth, with no sudden
acceleration effects - Objects to be lifted should be of moderate width,
with a hand separation of less than 75 cm. - Lifting postures should be unrestricted, with no
bracing of the torso - Couplings should be good (Handholds should be
secure and the shoe-floor slippage potential
low). - Temperatures should be favorable to lifting
27NIOSH Job Attributes
- The 1981 NIOSH guide required the following four
job attributes to be defined as the basis for
recommending a weight-lifting limit - Location of the center of mass of the object (or
the geometrical center of the hand grip),
measured horizontally from a point on the floor
midway between the ankles (H). - Location of the center of mass of the object (or
the geometrical center of the hand grip),
measured at the beginning (origin) of the lift
(V) from the floor. - Vertical travel distance of the hands from the
origin oto the destination (i.e., release) of the
object (D). - Frequency of lifting (in lifts per minute),
averaged over a period of lifting either of less
than one hour or on an eight-hour basis (F).
28Additional NIOSH Job Attributes
- The angle of asymmetry, measured from the center
of mass of the load to the bodys midsagittal
plane (A) - The coupling of the load, measured in three
classes, depending on the difficulty of grasping
the object (C).
29Basis for 1994 NIOSH-Recommended Weight-Lifting
Limit
- Intent of both 1981 and 1994 NIOSH lifting guide
was to provide a quantitative method of
determining the amount of weight that can be
lifted for specific conditions defined by the H,
V, D, F, A and C values determined by a job
evaluation or simulation - Expert panels assembled by NIOSH derived an
analytical model that predicts, for a given H,
V,D, F, A and C values, when either a
biomechanical, psychophysical, or physiological
population norm would be exceeded.
30- The population norms chosen by the 1991 NIOSH
Expert Committee as the basis for the resulting
recommended weight limit (RWL formerly the
Action Limit in the 1981 guide) were meant to
protect about 90 of workers. - Biomechanically, the predicted maximum
compressive forces on the L5/S1 disc would not
exceed 3,400 N - Physiologically, the metabolic energy expenditure
rates (Kcal/min) would not exceed the following
population limits developed by Rodgers et al.,
(1991)
31Lift Location (V) cm Duration of Lifting Duration of Lifting Duration of Lifting
Lift Location (V) cm lt 1 Hour 1-2 Hours 2-8 Hours
V lt 75 4.7 Kcal/Min 3.7 Kcal/Min 3.1 Kcal/Min
Vgt75 3.3 Kcal/Min 2.7 Kcal/Min 2.2 Kcal/Min
- Psychophysically determined maximum acceptable
weight-lifting limits would accommodate 75 of
women and 99 of men (or 90 of the mix of men
and women performing MMH jobs) - RWL LC x HM x VM x DM x AM x FM x CM
- Lifting Index Weight of Object Lifted L
- Recommended Weight Limit
RWL -
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40Table 8.2. Conversion of Lifting Task Descriptor
Variables H, V, D, A, F, and C to RWL Equation
Multiplier Variables. Frequency and Coupling
Conversions from Waters et al., 1994)
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48Figure 8.3. Graphs of 1994 NIOSH multiplier
factors used in predicting RWL
49Example of NIOSH RWL Procedure
- Consult NIOSH publication before performing a job
evaluation as this example does not include all
of the specific rules for applying NIOSH
procedures (e.g., lifting objects of different
weight during the day, lifting to shelves of
varying height, etc.). - Example is of a worker unloading trays of dishes
weighing 20 pounds (90 N) to a cart. - Physical layout depicted in Figure 8.4 with
pertinent data for the most extreme lift (e.g.,
lowering the tray carefully to the lowest level
on the cart - Job analysis worksheet depicts the descriptive
variables of the lifting task (see figure 8.4)
which are converted to multiplier values by
referring to the graphs in figure 8.3 with the
resulting values shown - The lifting index for both the origin (conveyor)
and destination (cart) are derived
50Figure 8.4 Sample NIOSH Lifting Evaluation
51Status of the NIOSH Lifting Guide
- Keep in mind that NIOSH 1994 is an effort to
control one aspect of MMH problems those
associated with the simple act of two-handed
lifting (and lowering) a load. - Guide attempts to be more comprehensive than
previous efforts in terms of job evaluation
methods, criteria used for the derivation of
limits, and control strategies
52- Too short a time period to discern effect on
controlling musculoskeletal disorders in industry
although anecdotal evidence supports the general
approach set forth (Liles and Mahajan, 1985). - Epidemiological study of 6,912 workers by Herin
et al., (1986) found that the equation does a
reasonably good job of predicting the incidence
and severity of musculoskeletal injuries by
evaluating the extremely stressful tasks that may
exist in a job. - Some statistics suggest a 33 reduction in
long-term sick leave (Westgaard and Aaras, 1984
Snook, 1988a). Mahone, 1994 believes that even
better results could be obtained from a
comprehensive program of job analysis and
redesign.
53Alternative Recommendations for Evaluating Manual
Lifting Tasks
- Use of torso electorgoniometric system to
continuously monitor the bending and twisting
kinematics of the torso relative to the pelvis - McGill et al., (1996) equation relating tolerance
to compression forces on disks - C 1067.6 1.219F 0.083F2 0.0001F3 3.229B
0.119B2 -0.0001B3 0.862T 0.393T2 0.0001T3
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56Design Criteria
- Strain/Stress Concept
- MMH Stresses
- Biomechanical Approach
- Biomechanical Analysis for MMH
- Physiological Approach
- Psychophysical Approach