NBN EN 1005-5 : 2007
Current
The latest, up-to-date edition.
SAFETY OF MACHINERY - HUMAN PHYSICAL PERFORMANCE - PART 5: RISK ASSESSMENT FOR REPETITIVE HANDLING AT HIGH FREQUENCY
12-01-2013
Foreword
Introduction
1 Scope
2 Normative references
3 Terms and definitions
4 Abbreviations
5 Requirements
5.1 The application of standards relevant to this document
5.2 General aspects
5.3 Risk assessment
5.3.1 General
5.3.2 Hazard identification
5.3.3 Risk estimation and simple evaluation of machinery
related repetitive handling at high frequency
(Method 1)
5.3.4 Detailed risk evaluation of machinery related
repetitive handling at high frequency: risk
reduction and risk reduction option analysis
(Method 2)
6 Verification
7 Information for use
Annex A (informative) Identification of technical action
A.1 General
A.2 Examples for identifying and counting technical
actions
A.2.1 Example 1: Pick and place (Tables A.2 and A.3)
A.2.2 Example 2: Pick and place with transfer from one
hand to the other and with visual inspection
(Table A.4)
A.2.3 Example 3: Pick and place while transporting a
load (Table A.5)
A.2.4 Example 4: Cyclical use of a tool with repeated
and identical actions (Table A.6)
A.2.5 Example 5: Technical actions not carried out in
every cycle (Table A.7)
Annex B (informative) Posture and types of movements
Annex C (informative) Force
C.1 General
C.1.1 Introduction
C.1.2 Procedure 1 - A biomechanical approach based on
user group strength distributions
C.2 Procedure 2 - A psychophysical approach using the
CR-10 Borg scale
Annex D (informative) Association between the OCRA index and
the occurrence of Upper Limbs Work-related
Musculo-Skeletal Disorders (UL-WMSDs):
criteria for the classification of results
and forecast models
D.1 General
D.2 OCRA Index values, exposure areas and consequent
actions
Annex E (informative) Influence of recovery periods pattern
and work time duration in determining the
overall number of reference technical
actions within a shift (RTA) and,
consequently, the OCRA index
Annex F (informative) An application example of risk reduction
in a mono-task analysis
F.1 Foreword
F.2 General: technical characteristics of the task
F.3 Hazard identification
F.4 Method 1
F.5 Method 2
F.5.1 Description of awkward postures and movements
and evaluation of the corresponding Posture
multiplier (Po[M])
F.5.2 Repetitiveness multiplier (Re[M])
F.5.3 Evaluation of average force level and the
corresponding Force Multiplier (Fo[M])
F.5.4 Determination of the Recovery period multiplier
(Rc[M]) and the Duration multiplier (Du[M])
F.5.5 Computation of reference technical actions per
minute (RF)
F.5.6 Computation of the OCRA index
F.5.7 OCRA index calculation for mono task analysis
when the repetitive task duration should be
assessed
F.5.8 Solutions to reduce the risk level
Annex G (informative) Definition and quantification of
additional risk factors
Annex H (informative) Risk assessment by Method 2 when
designing "multitask" jobs
H.1 OCRA index calculation when two or more repetitive
tasks should be assessed
H.2 An application example: assessing repetitive tasks
at a machine
H.2.1 Description of characteristics of two tasks
H.2.2 Definition of the corresponding multipliers
H.2.3 Mono-task analysis separately for task A
and B: computation of the overall number Actual
Technical Actions (ATA) in task A (Table H.3)
and task B (Table H.4)
H.2.4 Mono-task analysis: computation of the overall
number of reference technical actions within
a shift (RTA) in task A (Table H.5) and task B
(Table H.6)
H.2.5 Mono-task analysis: computation of the OCRA
index in task A (Table H.5) and task B (Table
H.6)
H.3 Multi-tasks analysis
H.3.1 Computation of the overall number of Actual
Technical Actions (ATA) in task A and task B
(Table H.7)
H.3.2 Computation of the overall number of reference
technical actions (RTA) in task A and task B
(Table H.7)
H.3.3 Computation of the overall number of reference
technical actions within a shift in task A and
task B (Table H.7)
H.4 Conclusion
Bibliography
Specifies reference data for action frequency of the upper limbs during machinery operation, and it presents a risk assessment method intended for risk reduction option analysis.
DocumentType |
Standard
|
PublisherName |
Belgian Standards
|
Status |
Current
|
Standards | Relationship |
UNI EN 1005-5 : 2007 | Identical |
UNE-EN 1005-5:2007 | Identical |
EN 1005-5:2007 | Identical |
DIN EN 1005-5:2007-05 | Identical |
BS EN 1005-5:2007 | Identical |
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