AISH Rules and Advises for Workstations design

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AISH Rules and Advises for Workstations design

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Title: AISH Rules and Advises for Workstations design

1
AISH Ergonomics memorandum
Environment Health and Safety integration
Ergonomics Rules and Advises for workstation
design
2
Introduction
The purpose of this document, which addresses to
methods/engineering teams, is to provide a set of
good practices informing and reminding some AISH
standards to be applied. In the case where
belgian regulations go beyond AISH standards and
recommendation, the belgian rules apply.

Document management
These rules result from experience and are based
on standards in force or in preparation. They are
complemented by our experience feedback.
Ergonomic studies
AISH considers employee safety as one of the
main elements of its sustainable development
policy and its sole objective is to reach ZERO
ACCIDENT.
Application of these rules contributes to
improving working conditions but does not exempt
from activity ergonomic analysis in response to
specific needs.

Ergonomic as part of the Health Safety
management system

Ergonomics of each working situation must be
assessed

3
Introduction
4
Contents

Noise ....p30
Thermal environment...p32
Anti-fatigue mats...p33
Workstation feeding. .......p35
Picking and material handling ......p37
Pedestrian and forklift traffic.........p38
Zones of vision .....p41
Position of controls .....p45
Footswitch utilization ..p46
Two-hand controls ..p48
Office work ........p50

Workstation Accessibility......p5
Choice of working posture...p7
Choice of seat ..p9
Choice of footrest p13
Working zones .p15
Workstation dimensioning ......p17
Working height and worktop ...p19
Body movement recommendation.. ...p21
Manual handling - Carrying load .p23
Exerted forces ..p26
Illumination....... p28

5
Workstation Accessibility

Recommendations
Avoid all obstructions in the hand placement
zone.
Use containers facilitating parts pick-up
(dispensers, shallow boxes, etc.).
Provide enough space for pulling seat back to
allow operator to easier leave the workstation.
Round corners of jigs forming recesses with
which operator will be in frequent contact
Assembly or product volume can cause congestion
problems in this case, a suitable solution
should be sought (lifting table, rotating platen,
etc.).
Ensure dimensioning of accesses and traffic
corridors around workstation in relation to
movements to be undertaken (parts delivery,
trolley usage, passing of one or several people).
Leave free passageways (provide storage and
holding areas).
Material crossing flow can be avoided by using
workstation gravity skate wheel conveyor,
operators movements will be reduced.

Provide a minimum of space to prevent all
operator movements from collision and obstruction
6
Workstation Accessibility
?
Hand access Outstretched hand Fist
no wrist rotation L minimum (mm)
120 120 H minimum (mm)
60 120 with wrist
rotation ? minimum (mm) 120
120
7
Choice of working postures

Definitions
Posture ?
Load ?
High-seated
workstation ?
Supported standing ?
workstation
Recommendations

Posture is a body attitude adopted by or imposed
on the operator during his activity.
? seated ? high-seated ?
supported standing ? standing
Mass of parts lifted, conveyed and positioned.
Workstation allowing operator to work either
seated or standing
Workstation equipped with a seated-standing seat
supporting up to 60 of the operator weight.

8
Choice of working postures

Posture is the first factor to be defined, other
workstation factors should be defined with
respect to posture.
The most frequent strain factor is the working
posture set according to the workstation design.

Workstation
Work performed within areas at arm's reach
Work performed on large horizontal and/or
vertical surface or with bulky objects
Low force requirement for handling light objects
High force requirement for handling heavy objects
Sufficient legroom
Insufficient legroom
Special working height requirements
Standing
Supported standing
Seated
High-seated
Posture to be used for precision work
9
Choice of a seat

Foreword The choice of the seat will depend on
- task constraints
- posture flexibility
- ease to sit and stand
- seat stability required
- material covering
- ease to be adjusted
Seat lightness and compactness facilitate
application of Lean Manufacturing principles
(workstation changing and mutual assistance)
Seated and high-seated positions
Recommendations
Working seat should be easily adaptable to each
user's specific needs.
Seat section should provide support and avoid
discomfort due to seat pressure on the rear side
of the leg.
Material used should prevent sweat accumulation
and electrostatic discharge production.
Back rest, adjustable in height and inclination,
should allow back muscles to relax.

10
1) Seated and high-seated
positions Seat should be suited and adaptable
to work situations and persons
Choice of a workshop seat
DIMENSIONS TO BE RESPECTED (mm) Seated
High-seated mm inches
mm inches A ? Adjustable seat height
450 - 560 18 - 22 750 850 30 -
33 B ? Seat depth 380 - 420 15 -
17 380 420 15 - 17 C ? Seat
width 400 - 500 16 - 20 400 500 16
- 20 E ? Backrest height 200 - 320
8 - 13 200 320 8 - 13 F ? Backrest
width 350 - 400 14 - 16 350 400 14 -
16 Y ? Adjustable backrest height 170 -
215 7 8 170 215 7 8 M ?
Adjustable footrest height 400
560 16 22 Backrest must be free inclining and
depth adjusting. Seat section must be
forward inclining.
11
Choice of a seat

2) Supported standing position
A saddle-leaning seat should be provided only at
workstations at which a permanently seated
position or a combined seated and standing
position cannot be used.
Advantages of a saddle-leaning seat
it supports up to 60 of body weight
it facilitates changing to the standing
position.
Drawbacks of using a saddle-leaning seat
localized pressure and restricted blood
circulation
legs tend to swell after a while
working positions are restricted.
Recommendations
When the work to be performed is at outstretched
arm's reach, there must be sufficient space for
the knees and legs. When this space is not
provided, arm reach distances are less than those
available in a normal standing position.
A saddle-leaning seat
should be in the form of a saddle or its seat
section should incline forwards and its depth
should be relatively shallow.
should be easily adjustable.

12
Choice of a seat
Saddle-leaning seat

A height adjustable from
630 to 840 mm (25 to 33)
? inclination adjustable from 0 to 15

This seat should never be utilized permanently
for high-seated position Pains in the back and
in the shoulder could break out after few hours.
13
Choice of Footrest

Recommendations
A footrest is incompatible with a supported
standing workstation. It is mainly used with a
seated or high-seated workstation.
The bearing surface should be antislip.
Height adjustment is compulsory given individual
size differences
For workstations with foot controls, it is wise
to integrate such controls into the footrest to
obtain a common height adjustment.
The footrest should be built into the
workstation or should adhere sufficiently to the
floor.
The seat used at a "seated-standing" workstation
can be equipped with a footrest allowing the
operator to change posture.

A footrest cannot be utilized with a
saddle-leaning seat . It could be utilized only
with a seated or a high-seated position
14
Choice of Footrest
A footrest is essential beneath a "high-seated"
workstation and desirable beneath a "seated"
workstation to allow leg support.
DIMENSIONS TO BE RESPECTED seated
high-seated
mm inches mm inches H ? Adjustable
height 40 - 150 2 6 300 450 12 - 18 L
? Width gt500 gt20 gt500 gt20 P ?
Depth gt350 gt14 gt350 gt14 Y ?
Adjustable inclination 0 - 15 0 - 15
15
Working zones

Definitions
Comfort zone .
Acceptable zone
Arduous zone .
2-hand zone .

? Zone of maximum comfort when handling parts
and tools.
Part assembly must be performed in this zone. .
? When the comfort zone is insufficient (e.g.
assembly workstation), this space can be used
for feeding and discharge operations as well as
occasional control actuations or assembly
operations, whose repetitiveness is less 10 times
/hour (6 min. cycle time).
? Restricted working zone to be avoided
? Zone in which work can be performed by either
hand or both hands without particular restriction
particulières.
??Portion of space within which the operator's
points of support and reach are distributed
during activity.

Sufficient clearance must be provided to ensure
lower limb mobility, to allow operator to sit
properly in front the working zone and to work in
good seated posture.
16
Working zones
Define position of parts and tools to be handled
based on using them according to required zones
1170 maximum (46) condition concerning body
movements can extend this zone
When undertaking assembly requiring body movement
precision, it is recommended that the 2-hand zone
be centered at an average distance of 200 mm from
the table edge (150 - 250 mm)
17
Workstation Dimensioning

Clearance for passing legs and feet beneath
Recommendations
Sufficient clearance should be provided to
ensure lower limb mobility
Worktop thickness should not hinder the operator
at thigh level. In practice, a 30 mm thick
worktop often provides an acceptable compromise
between the spatial requirement and strength
properties.
Clearance width beneath workstation should allow
operator to swivel his seat without encountering
obstructions
Clearance depth beneath workstation should be
sufficient to allow operator to sit properly

Workstation dimensioning should enable operator
to adopt a suitable posture
18
Workstation Dimensioning
19
Working Height and worktop

Definitions
Working height means hand height in the working
position
Worktop height means the height of the product
or sub-assembly bearing level during assembly.
Recommendations
Working height should be chosen to ensure an
appropriate body position, whilst meeting vision
requirements.
This choice represents a compromise between
requirements for low neck, arm, shoulder and back
loads and vision distance requirements ensuring
appropriate visual control.
Optimum working height and inclination depend on
the task to be performed.
A worktop can be inclined or horizontal. An
inclined surface often provides the best
solution the most suitable angle for an inclined
surface represents a compromise between vision
requirements, the imposed load on the neck, back
and shoulders and the angle preventing objects
from falling. An angle of approximately 15 is
recommended for many precision handling tasks
involving significant vision requirements
Precision work features a high visual load
(vision distance of the order of 30 cm -12),
accurate positioning (P2 and P3 - reference MTM)
and a millimetric degree of accuracy (1.2 cm-1 -
reference MTM), this constraint appearing for at
least 30 of the cycle time.

20
Working Height
Main postures description
Task requirement Office work Manual work (arm support) coordination associated with visual surveillance in same working area Active arm or small object movements Handling of objects that are large but not too bulky or heavy
Position
Working height H1 700 à 750 mm 28 to 30 H2 1100 à 1200 mm 43 to 47 H3 1000 à 1100 mm 39 to 43 H4 800 à 1000 mm 31 to 39
Worktop height Worktop at elbow height Worktop above elbow height Worktop at elbow height Worktop below elbow height
In transfer lines interlinked at constant height,
working height can vary depending on assembly
choice of working height can only be a compromise
based on the working situation.
21
Body movement recommendations

Definitions
Body movement ?
Repetitiveness ?
Recommendations
Prohibit awkward posture (extreme joints
position). Limit force and repetition, which can
lead to fatigue and discomfort. Operating
procedure should be analyzed to take these 3
parameters into account the design phase.
In the case of repetitive work, organize task
changes to require different body movements
during the day. Favor short, frequent breaks
(period during which muscles do not contract), to
allocate recovery time.
Reduce length and number of movements and use
movements creating continuous curves rather than
sharp angles.

All postures and movements required to perform a
task.
Defined as a work operation or activity frequency
(number of parts/hour, number of tasks/cycle,
number of forces/cycle, etc.).

Consider limits and human variability, listen to
employees to gain insight to potential problems
and to gain knowledge from worker experience. Job
rotation helps to reduce worker fatigue by
varying the body positions and reducing the time
spent doing the same repetitive motions.
22
Body movement recommendations
Repetitive movements
When defining operating procedures, try to limit
extreme postures and repetitive movements.
Consider exerted forces, movement combinations
and their combined effect on the worker.
!

Avoid using the hand and the hand palm as a
hammer (blows), pliers (forces), press (prolonged
bearing).
Avoid the use of prolonged static forces and
forces applied by wrist rotation or extreme
angular positions.

23
Manual Handling - Carrying Loads
Frequent lifting and carrying loads can lead to
fatigue and to injuries to the shoulder and the
back.

Recommendations
Wear protective clothing, if appropriate, such
as
lightweight, flexible, tear and
puncture-resistant clothing
safety shoes with toe caps and slip resistant
soles
protective gloves appropriate to the materials
being handled
Prepare to lift by assessing the weight of the
load, the distance it will be moved and ensure
the route is free of obstacles
stand close to and face the load
get a good grip on the load and lift
keep the load close to the body as possible
Avoid lifting up the load with a twisting or
side bend motion .
initiate the lift with body weight
lift smoothly without jerking
maintain an S curve in your spine

Manual material handling can present risk to the
worker. Review job tasks requiring lifting to see
if the load can be moved using a conveyor, a
hoist or with the use of a lifting device.
24
!
Manual Handling - Carrying Loads
25
!
Manual handling - Carrying Loads
Moving a load from one point to another, whatever
the picking up and setting down heights. Carrying
loads can include both lifting and conveyance.
Definition Carrying Loads

Load carrying limits -
18 45 year old man 25kg max.
18 45 year old woman 16.5kg max.

- Repetitive load carrying Conveyed tonnage
limits - Load carried on a distance 20 meters
10 t/day for men 5 t/day for
women Load carried on a distance gt 20 meters
5 t/day for men 2.5
t/day for women
To be used Loads carrying Abacus
26
Exerted Forces
Work station efforts Effort limits calculation
concern actions on parts, tools or controls. It
is a quantitative tool to assess the onerousness
of a task / activity.

Determining the effort limit
Choose the reference letter in Table 1.
Read the curves in Table 3.
Apply the correction rules in Table 2.

Example 1 A worker have to lift a 9kg load 45
times/hour. Is it acceptable ? 1 -gt we choose the
reference letter M 2 -gt we read on the table just
after 3 -gt we multiply the result by 2 as the
worker use his both hands. ACCEPTABLE
Example 2 A worker have to push a 60kg trolley
once each 5 minutes. Is it acceptable ? 1 -gt we
choose the reference letter L 2 -gt we read on the
table just after 3 -gt we multiply the result by 2
as the worker use his both hands. NON ACCEPTABLE
27
Exerted Forces
Limit forces to be exerted to recommended values
The Effort (in daN) column expresses the maximum
effort that can exerted by the majority of the
working population (95 of men and 80 of women)
and by physically-challenged persons.
Example 1 The hourly frequency is 45 in the
X-axis and intersecting with M. We obtain 4.5 daN
(4.5kg) Result x 2 9 kg ACCEPTABLE
Example 2 The hourly frequency is 12 in the
X-axis and intersecting with L. We obtain 5.8 daN
(5.8kg) Result x 2 11.6 kg NON ACCEPTABLE
28
Illumination

Good lightning is a quantity of sufficient light
and a good distribution of illumination for
visual comfort. It is a factor of security and
quality in terms of visual performance.
Definitions
Illumination ?
Luminance ?
Contrast ?
Recommendations to ensure visual comfort

Light emission received by a surface (lux or
lumen/m2). Flux reaching the effective plane
depends on the nature and intensity of the source
and factors involving reflection from surfaces
surrounding the worktop Measurement of luminous
appearance of a lighted surface (brightness) or
of a surface emitting in a given direction
(candela/m2) amount of light received by the
eye. Subjective assessment of the difference in
appearance between two visual field parts seen
successively or simultaneously .
Good general overhead lighting should be in place
before assessing the need to install individual
task lighting.
29
Illumination
Comply with the following recommendations to
ensure a good illumination level

Recommended values excl. natural lighting
Illumination level corridors and stairs E
100 - 200 lux 9 18 foot-candles
Illumination level packing area, warehouses E
200 - 400 lux 18 37 foot-candles
Illumination level assembly of medium-size
parts E 500 - 750 lux 37 69 foot-candles
Illumination level assembly of small parts,
inspection E 750 - 1000 lux 69 92
foot-candles
Illumination level assembly of very small
parts E 1000 - 2000 lux 92 185 foot-candles
General / local lighting ration Eg gt El / 3
Luminance contrast in central part of visual
field 0.3 lt E1 / E4 lt 0.9
Luminance contrast between peripheral and
central 0.5 lt E3 / E4 lt 0.8

Lighting homogeneity

Dazzle
elimination

N
N
N

Contrasts
between object and immediate background

High Medium
Low
Too much light can generate uncomfortable glares
and unbalanced illumination.
30
Noise
!

Noise trauma depends on three factors noise
intensity, frequency and exposure time
Definitions
Noise ?
Parameters used to evaluate hearing risk
LEX,8h ? daily noise exposure level in dB(A)
time-weighted average noise exposure level for a
nominal 8-hour working day (integrating all
noises at work including impulsive noise).
LPC ? peak acoustic pressure level
maximum value of instantaneous acoustic pressure
measured with frequency weighting C at the
worker's ear.
L EX,8h ? weekly noise exposure level in dB(A)
time-weighted average of daily noise exposure
levels for a nominal week comprising five 8-hour
working days.
Practical recommendations for reducing noise

air vibration generated by one or several sounds,
which causes a work disturbance and leads to
irreversible partial or total perception deafness
above a certain dose. Its intensity is expressed
in dB(A) sound level corrected with respect to
human ear sensitivity.
Noise can have negative physiological and
behavioral effects on workers.
31
Noise
!
Recommended exposure values in workshops LEX,8h
lt 80 dB(A) and/or Lpc lt 135
dB(C)
Forbid any Ototoxic substance use in workshops
Recommended noise level during acceptance
inspection at machine-tool supplier Daily noise
exposure LEXd lt 70 dB(A) Peak acoustic
pressure Lpc lt 120 dB(C)
Recommended noise level in offices Daily noise
exposure LEXd lt 55 dB(A)
Ambient noise levels (dB) allowing conversation
depending on distance between speakers. Dist.
between Speakers 0.35m (1.2 ft) 1m
( 3.3 ft) 2m (6.5 ft) 3m (9.8 ft)
Very loud voice 80 70
65 60 Normal voice 70
60 55 50
Noise level should allow for verbal communication
requirement and task complexity
32
Thermal Environment

Thermal environment should be adapted to human
physiological characteristics
Definition
Thermal comfort ?
Recommandations
Ventilation
Generally an air renewal rate of 2 volumes/hour
minimum is sufficient for rooms with a known
atmosphere.

Results from environmental characteristics and
individual's physiological condition.
33
Anti-fatigue Mats

Definition
Anti-fatigue mats ? Designed to reduce
fatigue that is caused by standing for a long
period on hard surface.
Recommendations
Considering the use of a mat
Anti-fatigue absorb the shock due to walking
on hard surface
Non-slip according to the risk .
Protection object fall
Isolation cold, vibrations and noise
Those factors should be taken into account when
choosing a mat.

34
Anti-fatigue Mats
Be careful, Anti-Fatigue Mats could be
Electrostatic Electricity Generators
35
Workstation feeding
Recommendations

Limit forces according to requirements given in
Exerted forces section
Limit load to be conveyed according to
requirements given in "Carrying loads" section
Allocate a minimum of necessary space for
movements and displacements according to
requirements given in "Accessibility" section
Favor use of parts storage on inclined surfaces
Use containers facilitating part pick-up (limit
wrist flexion)
Use mobile trolleys for moving parts without
carrying them, provide handling aids for heavy
(gt12kg 21lbs) or bulky loads
?Arrange heaviest loads, within the authorized
transportable limit, at a height between 800 and
1500 mm 31 to 59
Use dynamic storage units allowing front
pick-up
Train personnel to material handling
prescriptions

Prohibit use of a stepstool or stairs for
accessing shelves. A ramp could be utilized to
facilitate lifting and lowering parts, products
or boxes.
36
Workstation feeding
Line side and storage layout Height indicated
height of the hands

Space available for picking up containers or
parts
E1 E2 100 mm minimum for handling
containers,
E1 150 mm if parts are to be picked up from
inside containers.
Maximum pick-up depth "P"
300 mm with respect to shelf edge.
Minimum height
don't place parts or containers to be frequently
handled on the floor,
if necessary, leave enough space to crouch when
lifting them.

37
Picking and Handling
A picking operation is done for the part
replenishment using the little train (parts
transport system), for the kitting of parts to
manufacturing cells and for kitting of customer
orders
Recommandations

Parts bulky and / or heavy gt 12kg
Parts should be put on a pallet on the lower
level of a rack, preferably at the waist level.
Utilize material handling equipment whenever
possible
Allocate a material handling zone at least 2x
larger than the part to be handled.
Boxes, containers lt 12 kg
Provide enough room for the hands to access the
container
Prefer boxes with coverage (American boxes) to
banish any cutter use.
Getting parts from containers lt 12 kg
Provide enough room for the hands, avoid
extensive wrist flexion
Wear personal protective equipment to prevent
cuts caused by carton edges
Do not cover the containers that are used
frequently.
Utilize gravity skate wheel conveyor or other
means to ensure parts do not move crosswise or
jam during handling.
Cut-resistant gloves and grabbers or lifters
must be provided for handling of large sheet
metal.
Specifications for handling equipments
safe operating and maintenance procedure
clearances to move loads
capability to bear the load
required personal protective equipment
Shelves and bays could bear at least 4 time the
weight of the container or the part put down on
it.

Operator must be prepared (clear and easy access,
good grip, arms straight, stand close to the lift
) before lifting or handling heavy and /or bulky
parts or containers (gt12kg ).
38
Pedestrian and powered vehicles traffic

Recommendations
Aisle should provide the shortest practical
distance between work areas
Aisles must be marked with traffic paint or
edging material, .Pedestrian traffic aisles must
be clearly marked
Ensure floor is level to prevent materials or
moving vehicles from toppling, maintain in good
condition
Keep the aisles clear of obstacles or of
equipment element overhanging
Marked and indicate the visitor walk ways and
light up the walking zones
Allow enough room for vehicles to back and turn
around
Provide mirrors to avoid blind corners and
intersections. .

Define the aisle dimensions for a powered vehicle
to back and turn around according to the turning
radius specification.
39
Pedestrian and powered vehicles traffic
For equipment maintenance the traffic height
should be gt 450 mm
All pedestrian access and walking corridors must
be clearly identified with the pedestrian
pictogram and clearly separated from powered
vehicles ways.
40
Pedestrian and powered vehicles traffic width
of factory aisles
41
Zones of vision

Definitions
Main vision axis ?
Visual comfort zone ?
Acceptable zone ?
Arduous zone ?
Recommendations

Eye-product to be assembled axis Zone around
main vision axis vision can be displaced within
this zone by moving the eyes only. Zone in which
small head movements are required to allow vision
to identify a component. This zone can be used
when the comfort zone is insufficient. Zone
only to be used under certain conditions (e.g.
light signal accompanying acoustic signal). Major
head movements are required to scan this zone
The reliability to detect defects through visual
inspection varies substantially from inspector to
inspector. Poka Yoke must be implemented to
either prevent defects or automatically reject
defects.
42
Zones of vision
Respect visual range zones defined by main vision
axis determined by most frequent working zone
V
A ? Product being assembled B ? Visual
indicator to be viewed at each cycle C ? Cyclic
feeding of parts required for product assembly V
? Power screwdriver
43
Zones of vision Visual Range

Visual range ?
Recommendations
The viewing direction and the "eye task"
distance can have an adverse influence if they
are inadequately considered or if examination of
their interaction is overlooked.
Avoid repeated head movements required for
reading indicators. Preferably, position these
indicators in the visual comfort zone with
respect to the main vision axis and limit
placement of objects to be picked up to the
"acceptable zone".
Eye product distance should not exceed 50 cm
(20) for assembly operations involving small
parts or requiring precision.
For reading purposes, eye character distance
is defined according to script dimensions.
Vision zone depth should be determined with
respect to size of items to be read or
recognized.

Response characteristic to the task visual
requirement. It is defined by the viewing
direction and the "eye - task" distance.
Visual requirements can cause postural constraints
44
Zones of vision Visual Range
Visual range distance and size of components to
be viewed should be defined according to the
following rules
e line thickness L character
width H character height D eye to
character distance
45
Positioning of controls

Recommendations
Manual controls used at each cycle should be
located in acceptable gripping zones.
The degree of force to be applied should be
considered, when determining the position of
controls requiring application of force (e.g.
press lever).
Controls used frequently should always be
located near the visual task.
A control used for emergency operation should be
capable of actuation in a very short time.
When a control requires only a single hand,
position it on the side of the limb required.
Provide means of adjustability to satisfy
right-handed / left-handed operation if possible.
Controls should have a low probability of being
actuated accidentally. Ensure body movements
(amplitude and direction) are compatible with
required arm movements.
Controls should located according to
expected operator response time
potential of emergency reaction (activate
E-stop)
operator learning curve

Arrangement of controls can minimize postural
constraints but in some cases can increase the
risk of identification errors. Controls must be
protected if they could be accidentally activated.
46
Foot Switches

Recommendations
Use of foot switches at each cycle can increase
task arduousness if the following basic rules are
not followed
?Heel must maintain contact with the floor or
footrest
Large leg movements should be avoided
Multiple foot positions should be available on
foot switches
Foot switches should be able to be positioned in
relation to individual
If two foot switches are utilized on a
workstation they must be positioned so that there
will be no risk of error
Utilization of safety shoes should be consider
in the design of the foot switches allowed
enough toe room to properly activate the switch
Utilize manual controls if possible. Foot switch
should be a secondary choice

Foot switches must be protected if they could be
accidentally activated. Frequent use of foot
switches in a standing position can cause
postural constraints
47
Foot Switches
Foot switches must be protected if they could be
accidentally activated. Frequent use of foot
switches in a standing position can cause
postural constraints
48
Selection and layout of two hand control
Definition
? Two hand control a device requiring a least
one simultaneous action using both hands to
trigger and maintain, as long as a dangerous
situation exists, all machine operations and
which therefore constitutes a protection measure
only for the person who actuates it.
Recommendations

Use of horizontally positioned "mushroom head"
pushbuttons (type XB Telemecanique)
Fingertip pressing should be prohibited for
repeated operation.
Control devices should be stable under normal
operation.
When calculating the safety distance between
operating devices and danger zones, take into
account
- hand/arm speed,
- control shape and layout,
- device response time,
- time between signal interruption and risk
disappearance.

The set of recommendations should be complemented
by accurate analysis of the work situation and
consideration of relevant standards. Two hands
controls are utilized to protect the operator
from accident . To protect employees passing by,
screens or other guardrails must be provided.
49
Selection and layout of two hand control
Define two-hand control position based on risks
of reaching danger zones

Clear spacing of controls (L) 550 mm.
Positioning of controls on a horizontal or
virtually horizontal surface positioned at least
1100 mm above the floor (H).

In the case of non-repetitive work only, fit a
protection collar around operating controls
mounted on a vertical or virtually vertical
surface.
If control spacing is less than 550 mm, use one
or more screens ensuring the controls cannot be
simultaneously touched by a device comprising a
300 mm long (Ø lt 5 mm) rigid rod and a 250 mm
long cord. Rod represents the forearm and cord,
the hand. Apply this device in every possible
position.

50
Office Work
Office layout and equipments must be designed
according to the work organization, the technical
requirements, and to the human characteristics.

Recommendations
Office layout
Position work so that verbal communication will
be possible.
Allocate enough room to facilitate access
(minimum 80 cm , behind a desk 120 cm
Lighting should be evenly distributed throughout
the workplace and should not create glare or
shadows. A maximum of 500 lux is recommended when
the operator is working on a computer..
Limit the noise at an acceptable level (50dbA
max.) use sound-absorbing material such as
antistatic carpeting, curtains, sound-absorbing
ceiling material.
Utilize pleasant colors (mat or satin, no gloss
paint)
Utilize adequate furniture, desk worktop suited
to requirements (recommended 80 x 120 cm), seat
with 5 bearing points and castors, back rest and
seat adjustable in height and inclination
Space allotment
Flexible layout, pre-wiring (framed floor or
baseboard), sound absorbing removable partition
Space optimized, single or shared work space
Facilitate communication with other offices or
departments
Facilitate traffic with adequate corridor width
and common equipment sites
Windows

An ergonomic assessment should be conducted
before designing or re-designing an office area
(work requirement and operator activity) .
Assessment should be shared with the workers to
gather input.
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Office Work
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