Algorithm of conduct for the selection of safety measures for machines

Method of implementation

Selection (X)

limitation of invisible places

selection and location of devices for indirect viewing (e.g. mirrors)

taking into account the viewing capacity of the operator with respect to supervision of:

– movement and operation of mobile machines

– movement of lifted loads or loading bases of the machines for lifting people

– interface of the tool with a processed material by the hand-held or manually operated machines

– presence of persons in hazard zones.

enabling the maintenance of appropriate working position by the operator

enabling proper access to control elements

Method of implementation

Selection (X)

enlarging the smallest spacings between movable parts to maintain safety if a given body part occurs in the designed spacing

reducing the spacings between movable parts so that no body part can be put there

avoiding sharp edges and corners

avoiding protruding parts

avoiding rough surfaces

avoiding protruding parts

avoiding openings constituting a hazard for body parts or clothing

Method of implementation

Selection (X)

limitation of force needed to start up the machine

limitation of weight and/or speed of moving elements

Method of implementation

Selection (X)

limitation of weight and/or speed of moving elements

limiting of noise emissions at source (e.g. use of sound absorbing materials)

limiting of vibrations emissions at source (e.g. change of distribution or enlarging of weight, change of frequency and/or amplitude of machine elements movements)

limiting of emissions of noxious substances (e.g. use of less noxious substances or processes limiting dusting)

limiting of radiation emissions (e.g. elimination of hazardous radiation sources, limiting the radiation force to the lowest level enabling proper machine operation, enlarging the distance between the radiation source and operator)

applying proper calculation methods

applying proper construction and connection methods

preventing overloading (e.g. use of fuses, pressure relief valves or torque)

avoiding wearing of the elements subject to variable loads (e.g. cyclical)

static and dynamic balancing of rotating elements

application of safety coefficients for calculation of loads of machine elements (if durability of given parts or units is a critical factor with respect to safety)

taking into account resistance to corrosion, ageing, abrasion and wear

taking into account hardness, ductility, brittleness

taking into account uniformity

taking into account toxicity and flammability

application of fully pneumatic or hydraulic control system and drive elements

application of intrinsically safe electrical equipment

application of equipment ensuring the maintenance of temperature fairly below the ignition point

application of electrical equipment in place of pneumatic one

application of equipment for water cutting instead of mechanical equipment

moving through a movable mechanical structural element of other structural element through direct contact or through rigid elements

taking into account the shape and dimensions of the machine base

taking into account the weight distribution with load

taking into account dynamic forces generating the turning point, caused by the movements of the machine and its parts, or elements supported by it

taking into account the change of positioning of the centre of gravity

taking into account external forces (e.g. wind pressure and muscle strength)

taking into account vibrations which could be the reason for loss of stability

taking into account terrain conditions occurring during transport or placement of the machine (e.g. floor condition, inclination)

ease of access taking into account the surroundings and human body size, considering the size of workwear and used work tools

ease of movement taking into account human capabilities

limiting the number of special tools and equipment used

taking into account the automation level of the manufacturing process

taking into account  the physical capabilities and working position

taking into account  movement amplitude, frequency of cyclical actions

taking into account appropriate interaction of machine and operator (by using clear control, signalling and informative elements enabling full and uniform interaction between the operator and the machine

avoiding strenuous body positions and its movements during machine use (e.g. by adjusting the machines to different operators)

ensuring easy operation of the machines taking into account the human effort, activation of control elements and anatomical structure of human limbs

avoiding connecting the operator’s work rhythm with the automatic machine operation cycles

observing requirements concerning the design of electrical equipment of the machines

observing the requirements of the standards referring to special machines, such as manual machines or electrically driven portable machines

use of devices limiting pressure (preventing the exceeding of maximum allowable pressure)

preventing hazards resulting from the fluctuation or increase of pressure

preventing hazards resulting from the dissipation or drop of pressure, or loss of vacuum conditions

preventing hazards resulting from leakage or damage of elements (hazardous discharge of liquids or impact as a result of sudden movement of flexible hose)

fulfilment of requirements with respect to the provisions and principles concerning containers

securing the equipment elements (pipes, flexible hoses) against harmful influence of work environment

ensuring pressure discharge in the containers (automatically) or providing the machine with the measures for disconnecting, discharging and monitoring of pressure

equipping the elements remaining under pressure after the disconnection of the machine from the power supply with clearly recognisable triggering devices and warning plate (informing about the necessity to discharge pressure before conducting setup activities or activities connected with the machine exploitation)

use of robots

use of manipulators

use of handling equipment

use of insufflators

inspection of automatic feeding and receiving devices with own control systems that should be coupled with the machine control system taking into account the flow of all of the safety functions in all methods of control and types of operation of these devices

location of setup and maintenance places of the machine outside the hazard zones

a

a hazard (which?) will be eliminated, which shall enable to avoid additional protective measures?

b

the risk connected with a given hazard shall be sufficiently limited (assessment according to D 4.2), which shall enable to avoid additional protective measures?

c

the risk connected with hazards shall not be sufficiently limited and the use of technical and/or complementary protective measures will be necessary? (Unacceptable risk)

anchor bolts

devices determining the position

movement limiters

mechanical bumpers

acceleration and delay limiters

load limiters

devices warning against exceeding the stability limit or overturning limit

limiting movement parameters (distance, angle, speed, acceleration)

securing against overloading of parts and units, and exceeding the torque

preventing collisions or adverse mutual interactions of machines

preventing the occurrence of hazards for pedestrian operators driving mobile machinery or other pedestrians

limiting the pressure or temperature

supervising machine emissions

preventing the machine operation when operator is absent from the control station

preventing the lifting operation when the machine stabilisers are positioned incorrectly

limiting the inclination of the machine placed on a slope

ensuring safety position of all components before starting to move the machine

housings

screens installed on machines

silencers

vibrations isolators (e.g. devices suppressing vibrations), placed between the source and person exposed

elastic suspensions

seats with a suspension system suppressing vibrations

machine housing

local exhaust ventilation with filtering

dampening with liquids

air curtains

cabins for operators

easy recognition, good visibility and easy access to control elements of the emergency stop device

a stop performed as soon as possible (without producing additional hazards) performed by a machine of the process producing hazards

triggering of relevant movements of the technical protective measure installed in the machine by the emergency stop machine or preventing such movements (e.g. activation of brake stopping the intrinsic movement of an element producing hazard)

maintaining the effect of machine stop signal activation until the moment the control element is reset (resetting should only enable the start-up of the machine and not re-start it)

escape routes and shelters in plants posing hazard of entrapping of the operator

devices enabling manual movement of some of the elements, after emergency stop

devices enabling overturn of the movement direction of some of the elements

anchoring points of the devices for entering and getting down

communication measures enabling calling for help by entrapped persons

isolation (disconnection, separation) of the machine or relevant parts of the machine from any power supply sources

key-locking (or securing in other manner) of all the disconnecting devices in the disconnection position

dissipation or, if not possible or feasible, containment (absorption) of any accumulated energy that may produce hazard

standardised devices for lifting with loops, hooks, eyebolts or threaded holes for fixing these devices

devices for automatic pick-up with crane hook, if on-ground mounting is not possible

solutions enabling the placement of forks in proper place in the case of machines transported by means of pallet stacker trucks

in-built devices for lifting and stacking

devices securing the safety of taking out and fitting of spare parts of the machine during its operation

ensuring, if possible, the performance of activities from the ground level

bridges, stairs or other devices ensuring safe access for the performance of activities

performance of pedestrian movement zones of non-slip materials in working conditions (to a greatest possible extent);

securing pedestrian movement zones at heights by using appropriate balustrades (if necessary, anchoring points for personal protection measures preventing falls from heights should be provided)

ensuring safety of access measures in large automated plants by using passages and walkways, transport bridges or junctions

opening closures opened in a safe direction, taking into account the risk of hazards produced as a result of their unexpected opening or closing

auxiliary access measures (e.g. steps, handles)

preventing (by means of proper design and placement) the use of control devices as auxiliary access measures

equipping the machine unloading levels for lifting of loads and/or persons with locking guards preventing falls from heights (in case of stopping at a level where no bridge is located); opening of these guards should be prevented by the movement of loading base

a

the risk connected with a given hazard shall be sufficiently limited (assessment according to D 4.2), which shall enable to avoid additional protective measures?

b

The risk connected with hazards shall not be sufficiently limited and the application of user information will be necessary?

adequate content of the supporting documents (especially user manual)

application of visual and acoustic signals for warning against emerging event producing hazard, such as machine commissioning or excessive speed

application of visual and acoustic signals for warning the operator against automatic activation of protective measures

ensuring emission of signals warning before the hazardous event occurrence

ensuring uniformity of emitted signals

ensuring clear perception of emitted signals and their differentiation (from any other signals used)

ensuring clear recognition of emitted signals by the operator and other persons

ensuring the possibility of regular inspection of devices by means of their proper placement and construction, and also ensuring relevant information concerning their use

taking into account the possibility of sight and hearing sense overload in human during work (as a result of excess of visual and/or acoustic signals

application of identification marking (name and address of the manufacturer, marking the batch or type, serial number – if any)

application of labelling confirming the compliance with applicable requirements (labelling and written information from the manufacturer)

application of labelling connected with safety during operation (maximum rotating speed of rotating elements, maximum tool diameter, weight of the machine itself and/or its removable parts, maximum working load, necessity of use of personal protection measures, data concerning regulation of guards, data concerning the frequency of inspections)

ensuring that the information placed directly on the machine is durable and legible throughout the whole expected life cycle of the machine

ensuring that labelling, symbols and warning inscriptions are easy to understand and unambiguous

preferred easily understandable symbols (pictograms) to warning inscriptions

a

the risk connected with a given hazard shall be sufficiently limited (assessment according to D 4.2), which shall enable to avoid another risk assessment (e.g. after the change in the machine structure)?

b

The risk connected with hazards shall not be sufficiently limited and another risk assessment will be necessary (e.g. after the change in the machine structure)?