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BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January 2004 Safety of machinery — Basic concepts, general principles for design — Part 1: Basic terminology, methodology ICS 01.040.13; 13.110 corrigenda and October 2009 Bought by Mr. Eleftherios Arvanitakis,Agrotechnic Crete S.A.,on 22/09/2010 12:33 Latest version. Not to be distributed/networked. For multi-user access www.bsigroup.com/license © BSI

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Page 1: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

BRITISH STANDARD BS EN ISO 12100-1:2003+A1:2009

Incorporating

January 2004

Safety of machinery — Basic concepts, general principles for design —

Part 1: Basic terminology, methodology

ICS 01.040.13; 13.110

���������������� ������������������������������� �������������

corrigenda

and October 2009

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Page 2: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

National foreword

This British Standard is the UK implementation of EN ISO 12100-1:2003+A1:2009. It is identical to ISO 12100-1:2003, incorporating amendment 1:2009. It supersedes BS EN ISO 12100-1:2003 which is withdrawn.

The start and finish of text introduced or altered by amendment is indicated in the text by tags. Tags indicating changes to ISO text carry the number of the ISO amendment. For example, text altered by ISO amendment 1 is indicated by !".

The UK participation in its preparation was entrusted to Technical Committee MCE/3, Safeguarding of machinery.

A list of organizations represented on this committee can be obtained on request to its secretary.

This publication does not purport to include all the necessary provisions of a contract. Users are responsible for its correct application.

Compliance with a British Standard cannot confer immunity from legal obligations.

BS EN ISO 12100-1:2003+A1:2009

Amendments/corrigenda issued since publication

Amd. No. Date Comments

14974 Corrigendum No. 1

19 January 2004 Incorporating corrected EN foreword and Annex ZA pages and adding Annex ZB page

31 July 2009 Implementation of ISO amendment 1:2009 with CEN endorsement A1:2009

31 October 2009 Incorporating CEN correction notice 15 July 2009

This British Standard was published under the authority of the Standards Policy and Strategy Committee on 7 November 2003

© BSI 2009

ISBN 978 0 580 68672 6

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Page 3: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

EUROPEAN STANDARD

NORME EUROPÉENNE

EUROPÄISCHE NORM

EN ISO 12100-1:2003+A1

June 2009

ICS 01.040.13; 13.110 Supersedes EN 292-1:1991

English version

Safety of machinery - Basic concepts, general principles fordesign - Part 1: Basic terminology, methodology (ISO 12100-

1:2003)

Sécurité des machines - Notions fondamentales, principesgénéraux de conception - Partie 1: Terminologie de base,

méthodologie (ISO 12100-1:2003)

Sicherheit von Maschinen - Grundbegriffe, allgemeineGestaltungsleitsätze - Teil 1: Grundsätzliche Terminologie,

Methodologie (ISO 12100-1:2003)

This European Standard was approved by CEN on 9 June 2003.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this EuropeanStandard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such nationalstandards may be obtained on application to the Management Centre or to any CEN member.

This European Standard exists in three official versions (English, French, German). A version in any other language made by translationunder the responsibility of a CEN member into its own language and notified to the Management Centre has the same status as the officialversions.

CEN members are the national standards bodies of Austria, Belgium, Czech Republic, Denmark, Finland, France, Germany, Greece,Hungary, Iceland, Ireland, Italy, Luxembourg, Malta, Netherlands, Norway, Portugal, Slovakia, Spain, Sweden, Switzerland and UnitedKingdom.

EUROPEAN COMMITTEE FOR STANDARDIZATIONC O M I T É E U R O P É E N D E N O R M A LI S A T I O NEUR OP ÄIS C HES KOM ITEE FÜR NOR M UNG

Management Centre: rue de Stassart, 36 B-1050 Brussels

© 2003 CEN All rights of exploitation in any form and by any means reservedworldwide for CEN national Members.

Ref. No. EN ISO 12100-1:2003 E

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2

CORRECTED 2003-12-17

Foreword

This document (EN ISO 12100-1:2003) has been prepared by Technical Committee ISO/TC 199"Safety of machinery" in collaboration with Technical Committee CEN/TC 114 "Safety ofmachinery", the secretariat of which is held by DIN.

This European Standard shall be given the status of a national standard, either by publication ofan identical text or by endorsement, at the latest by May 2004, and conflicting national standardsshall be withdrawn at the latest by May 2004.

This document supersedes EN 292-1:1991.

This document has been prepared under a mandate given to CEN by the European Commissionand the European Free Trade Association, and supports essential requirements of EUDirective(s).

For relationship with EU Directive(s), see informative Annex ZB, which is an integral part of thisdocument.

According to the CEN/CENELEC Internal Regulations, the national standards organizations ofthe following countries are bound to implement this European Standard: Austria, Belgium, CzechRepublic, Denmark, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy,Luxembourg, Malta, Netherlands, Norway, Portugal, Slovakia, Spain, Sweden, Switzerland andthe United Kingdom.

Endorsement notice

The text of ISO 12100-1:2003 has been approved by CEN as EN ISO 12100-1:2003 without anymodifications.

Foreword to amendment A1 This document (EN ISO 12100-1:2003/A1:2009) has been prepared by Technical Committee ISO/TC 199 "Safety of machinery" in collaboration with Technical Committee CEN/TC 114 “Safety of machinery” the secretariat of which is held by DIN.

This Amendment to the European Standard EN ISO 12100:2003 shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by December 2009, and conflicting national standards shall be withdrawn at the latest by December 2009.

Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights.

This document has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association, and supports essential requirements of EC Directives.

For relationship with EC Directives, see informative Annexes ZA and ZB, which are integral parts of this document.

According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and the United Kingdom.

Endorsement notice

The text of ISO 12100-1:2003/Amd 1:2009 has been approved by CEN as a EN ISO 12100-1:2003/A1:2009 without any modification.

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

The CEN correction notice 15 July 2009 provided a revised English language text incorporating the following editorial correction.

CEN/TC 114 request that the Annex ZA relating to ISO and EN standards is maintained.

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iii

Contents Page

1 Scope...................................................................................................................................................... 1

2 Normative references ........................................................................................................................... 1

3 Terms and definitions........................................................................................................................... 1

4 Hazards to be taken into account when designing machinery ........................................................ 8 4.1 General ................................................................................................................................................... 8 4.2 Mechanical hazard ................................................................................................................................ 8 4.3 Electrical hazard.................................................................................................................................... 9 4.4 Thermal hazard...................................................................................................................................... 9 4.5 Hazard generated by noise ................................................................................................................ 10 4.6 Hazards generated by vibration ........................................................................................................ 10 4.7 Hazards generated by radiation ........................................................................................................ 10 4.8 Hazards generated by materials and substances ........................................................................... 10 4.9 Hazards generated by neglecting ergonomic principles in machine design ............................... 10 4.10 Slipping, tripping and falling hazards............................................................................................... 11 4.11 Hazard combinations.......................................................................................................................... 11 4.12 Hazards associated with the environment in which the machine is used .................................... 11

5 Strategy for risk reduction ................................................................................................................. 11 5.1 General provisions.............................................................................................................................. 11 5.2 Specification of the limits of the machine ........................................................................................ 12 5.3 Hazard identification, risk estimation and risk evaluation ............................................................. 12 5.4 Elimination of hazards or reduction of risk by protective measures ............................................ 14 5.5 Achievement of risk reduction objectives........................................................................................ 14

Annex A (informative) Schematic representation of a machine .................................................................. 17

Trilingual index ................................................................................................................................................ 18 Bibliography ..................................................................................................................................................... 33

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Introduction ........................................................................................................................................................ v

Annex ZA (informative) Equivalence between the ISO standards and the European standards ......... 34

Annex ZB (informative) Relationship between this International Standard and the Essential Requirements of EU Directive 98/37/EC ........................................................................................... 35

Annex ZC (informative) Relationship between this International Standard and the Essential Requirements of EU Directive 2006/42/EC ....................................................................................... 36

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Introduction

The primary purpose of ISO 12100 is to provide designers with an overall framework and guidance to enable them to produce machines that are safe for their intended use. It also provides a strategy for standard makers.

The concept of safety of machinery considers the ability of a machine to perform its intended function(s) during its lifecycle where risk has been adequately reduced.

This standard is the basis for a set of standards which has the following structure:

type-A standards (basic safety standards) giving basic concepts, principles for design, and general aspects that can be applied to all machinery;

type-B standards (generic safety standards) dealing with one safety aspect or one type of safeguard that can be used across a wide range of machinery:

type-B1 standards on particular safety aspects (e.g. safety distances, surface temperature, noise);

type-B2 standards on safeguards (e.g. two-hand controls, interlocking devices, pressure sensitive devices, guards);

type-C standards (machine safety standards) dealing with detailed safety requirements for a particular machine or group of machines.

This standard is a type-A standard.

When a type-C standard deviates from one or more provisions dealt with by Part 2 of this standard or by a type-B standard, the type-C standard takes precedence.

It is recommended that this standard be incorporated in training courses and manuals to convey basic terminology and general design methods to designers.

ISO/IEC Guide 51 has been taken into account as far as practicable at the time of drafting of this standard.

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

v

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Safety of machinery — Basic concepts, general principles for design — Part 1: Basic terminology, methodology

1 Scope

This standard defines basic terminology and methodology used in achieving safety of machinery.

The provisions stated in this standard are intended for the designer.

This standard does not deal with damage to domestic animals, property or the environment.

2 Normative references

The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.

ISO 12100-2:2003, Safety of machinery – Basic concepts, general principles for design – Part 2 : Technical principles.

3 Terms and definitions

For the purposes of ISO 12100-1 and -2, the following terms and definitions apply.

3.1 machinery machine assembly of linked parts or components, at least one of which moves, with the appropriate machine actuators, control and power circuits, joined together for a specific application, in particular for the processing, treatment, moving or packaging of a material.

The terms "machinery" and "machine" also cover an assembly of machines which, in order to achieve the same end, are arranged and controlled so that they function as an integral whole.

NOTE Annex A provides a general schematic representation of a machine.

3.2 reliability (of a machine) ability of a machine or its components or equipment, to perform a required function under specified conditions and for a given period of time without failing

3.3 maintainability (of a machine) ability of a machine to be maintained in a state which enables it to fulfil its function under conditions of intended use, or restored into such a state, the necessary actions (maintenance) being carried out according to specified practices and using specified means

INTENRATIONAL TSANDADR IS-00121 O1:(3002E)

1

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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IS-00121 O1:(3002E)

2

3.4 usability (of a machine) ability of a machine to be easily used thanks to, among others, properties or characteristics that enable its function(s) to be easily understood.

3.5 harm physical injury or damage to health

3.6 hazard potential source of harm

NOTE 1 The term "hazard" can be qualified in order to define its origin (e.g. mechanical hazard, electrical hazard) or the nature of the potential harm (e.g. electric shock hazard, cutting hazard, toxic hazard, fire hazard).

NOTE 2 The hazard envisaged in this definition:

either is permanently present during the intended use of the machine (e.g. motion of hazardous moving elements, electric arc during a welding phase, unhealthy posture, noise emission, high temperature);

or may appear unexpectedly (e.g. explosion, crushing hazard as a consequence of an unintended / unexpected start-up, ejection as a consequence of a breakage, fall as a consequence of acceleration / deceleration).

3.7 relevant hazard hazard which is identified as being present at or associated with the machine

NOTE A relevant hazard is identified as the result of one step of the process described in ISO 14121.

3.8 significant hazard hazard which has been identified as relevant and which requires specific action by the designer to eliminate or to reduce the risk according to the risk assessment

3.9 hazardous situation circumstance in which a person is exposed to at least one hazard. The exposure can immediately or over a period of time result in harm

3.10 hazard zone danger zone any space within and/or around machinery in which a person can be exposed to a hazard

3.11 risk combination of the probability of occurrence of harm and the severity of that harm

3.12 residual risk risk remaining after protective measures have been taken (see also figure 1)

NOTE This standard distinguishes:

the residual risk after protective measures have been taken by the designer;

the residual risk after all protective measures have been implemented.

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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IS-00121 O1:(3002E)

3

3.13 risk assessment overall process comprising a risk analysis and a risk evaluation

3.14 risk analysis combination of the specification of the limits of the machine, hazard identification and risk estimation

3.15 risk estimation defining likely severity of harm and probability of its occurrence

3.16 risk evaluation judgement, on the basis of risk analysis, of whether the risk reduction objectives have been achieved

3.17 adequate risk reduction risk reduction at least in accordance with the legal requirements under consideration of the current state of the art

NOTE Criteria for determining when adequate risk reduction is achieved are given in 5.5.

3.18 protective measure measure intended to achieve risk reduction, implemented:

by the designer (inherently safe design, safeguarding and complementary protective measures, information for use) and

by the user (organization: safe working procedures, supervision, permit-to-work systems; provision and use of additional safeguards; use of personal protective equipment; training).

See figure 1.

3.19 inherently safe design measure protective measure which either eliminates hazards or reduces the risks associated with hazards by changing the design or operating characteristics of the machine without the use of guards or protective devices

NOTE ISO 12100-2:2003, clause 4, deals with risk reduction by inherently safe design measures.

3.20 safeguarding protective measure using safeguards to protect persons from the hazards which cannot reasonably be eliminated or from the risks which cannot be sufficiently reduced by inherently safe design measures

NOTE ISO 12100-2:2003, clause 5, deals with safeguarding.

3.21 information for use protective measure consisting of communication links (e.g. texts, words, signs, signals, symbols, diagrams) used separately or in combination, to convey information to the user

NOTE ISO 12100-2:2003, clause 6, deals with information for use.

3.22 intended use of a machine use of a machine in accordance with the information provided in the instructions for use

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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IS-00121 O1:(3002E)

4

3.23 reasonably foreseeable misuse use of a machine in a way not intended by the designer, but which may result from readily predictable human behaviour

3.24 safeguard guard or protective device

3.25 guard physical barrier, designed as part of the machine, to provide protection

NOTE 1 A guard may act:

alone; it is then only effective when it is "closed" for a movable guard or "securely held in place" for a fixed guard;

in conjunction with an interlocking device with or without guard locking; in this case, protection is ensured whatever the position of the guard.

NOTE 2 Depending on its design, a guard may be called e.g. casing, shield, cover, screen, door, enclosing guard.

NOTE 3 See ISO 12100-2:2003, 5.3.2, and ISO 14120 for types of guards and their requirements.

3.25.1 fixed guard guard affixed in such a manner (e.g. by screws, nuts, welding) that it can only be opened or removed by the use of tools or destruction of the affixing means

3.25.2 movable guard guard which can be opened without the use of tools

3.25.3 adjustable guard

3.25.4 interlocking guard guard associated with an interlocking device so that, together with the control system of the machine, the following functions are performed:

the hazardous machine functions "covered" by the guard cannot operate until the guard is closed;

if the guard is opened while hazardous machine functions are operating, a stop command is given;

when the guard is closed, the hazardous machine functions "covered" by the guard can operate. The closure of the guard does not by itself start the hazardous machine functions

NOTE ISO 14119 gives detailed provisions.

3.25.5 interlocking guard with guard locking guard associated with an interlocking device and a guard locking device so that, together with the control system of the machine, the following functions are performed:

the hazardous machine functions "covered" by the guard cannot operate until the guard is closed and locked;

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

! "fixed or movable guard which is adjustable as a whole or which incorporates adjustable part(s). Text deleted

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IS-00121 O1:(3002E)

5

the guard remains closed and locked until the risk due to the hazardous machine functions "covered" by the guard has disappeared;

when the guard is closed and locked, the hazardous machine functions "covered" by the guard can operate. The closure and locking of the guard do not by themselves start the hazardous machine functions

NOTE ISO 14119 gives detailed provisions.

3.25.6 interlocking guard with a start function control guard special form of an interlocking guard which, once it has reached its closed position, gives a command to initiate the hazardous machine function(s) without the use of a separate start control

NOTE ISO 12100-2:2003, 5.3.2.5, gives detailed provisions regarding the conditions of use.

3.26 protective device safeguard other than a guard

NOTE Examples of protective devices are given in 3.26.1 to 3.26.9.

3.26.1 interlocking device interlock mechanical, electrical or other type of device, the purpose of which is to prevent the operation of hazardous machine functions under specified conditions (generally as long as a guard is not closed)

3.26.2 enabling device additional manually operated device used in conjunction with a start control and which, when continuously actuated, allows a machine to function

NOTE IEC 60204–1:1997, 9.2.5.8 gives provisions on enabling devices.

3.26.3 hold-to-run control device control device which initiates and maintains hazardous machine functions only as long as the manual control (actuator) is actuated

3.26.4 two-hand control device control device which requires at least simultaneous actuation by both hands in order to initiate and to maintain hazardous machine functions, thus providing a protective measure only for the person who actuates it

NOTE ISO 13851 gives detailed provisions.

3.26.5 sensitive protective equipment (SPE) equipment for detecting persons or parts of persons which generates an appropriate signal to the control system to reduce risk to the persons detected. The signal may be generated when a person or part of a person goes beyond a predetermined limit – e.g. enters a hazard zone – (tripping) or while a person is detected in a predetermined zone (presence sensing), or in both cases

3.26.6 active opto-electronic protective device (AOPD) device whose sensing function is performed by opto-electronic emitting and receiving elements detecting the interruption of optical radiation, generated within the device, by an opaque object present in the specified detection zone

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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IS-00121 O1:(3002E)

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NOTE IEC 61496-2 gives detailed provisions.

3.26.7 mechanical restraint device device which introduces into a mechanism a mechanical obstacle (e.g. wedge, spindle, strut, scotch) which, by virtue of its own strength, can prevent any hazardous movement

3.26.8 limiting device device which prevents a machine or hazardous machine condition(s) from exceeding a designed limit (e.g.space limit, pressure limit, load moment limit)

3.26.9 limited movement control device control device, a single actuation of which, together with the control system of the machine, permits only a limited amount of travel of a machine element

3.27 impeding device any physical obstacle – e. g. low barrier, rail – which, without totally preventing access to a hazard zone, reduces the probability of access to this zone by offering an obstruction to free access

3.28 safety function function of a machine whose failure can result in an immediate increase of the risk(s)

3.29 unexpected start-up unintended start-up any start-up which, because of its unexpected nature, generates a hazard. This can be caused by, e. g.:

a start command which is the result of a failure in, or an external influence on, the control system;

a start command generated by inopportune action on a start control or other parts of the machine as, e. g., a sensor or a power control element;

restoration of the power supply after an interruption;

external / internal influences (e.g. gravity, wind, self-ignition in internal combustion engines) on parts of the machine

NOTE Machine start-up during normal sequence of an automatic cycle is not unintended, but can be considered to be unexpected from the point of view of the operator. Prevention of accidents in this case involves the use of safeguarding measures (see ISO 12100-2:2003, clause 5).

[from ISO 14118:2000, 3.2]

3.30 failure to danger any malfunction in the machinery, or in its power supply, that increases the risk

3.31 fault the state of an item characterized by inability to perform a required function, excluding the inability during preventive maintenance or other planned actions, or due to lack of external resources

NOTE 1 A fault is often the result of a failure of the item itself, but may exist without prior failure.

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IS-00121 O1:(3002E)

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[IEV 191-05-01]

NOTE 2 In the field of machinery, the English term 'fault' is commonly used in accordance with the definition in IEV 191-05-01, whereas the French term "défaut" and the German term "Fehler" are used rather than the terms "panne" and "Fehlzustand" that appear in the IEV with this definition.

NOTE 3 In practice, the terms "fault" and "failure" are often used synonymously.

3.32 failure the termination of the ability of an item to perform a required function

NOTE 1 After failure, the item has a fault.

NOTE 2 "Failure" is an event, as distinguished from "fault", which is a state.

NOTE 3 The concept as defined does not apply to items consisting of software only.

[IEV 191-04-01]

3.33 common cause failures failures of different items, resulting from a single event, where these failures are not consequences of each other

NOTE Common cause failures should not be confused with common mode failures.

[IEV 191-04-23]

3.34 common mode failures failures of items characterized by the same fault mode

NOTE Common mode failures should not be confused with common cause failures, as the common mode failures may result from different causes.

[IEV 191-04-24]

3.35 emergency situation hazardous situation needing to be urgently ended or averted

NOTE An emergency situation may arise :

during normal operation of the machine (e.g. due to human interaction, or as a result from external influences);

as a consequence of a malfunction or a failure of any part of the machine.

3.36 emergency operation all actions and functions intended to end or avert an emergency situation

3.37 emergency stop function which is intended:

to avert arising or to reduce existing hazards to persons, damage to machinery or to work in progress;

to be initiated by a single human action

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NOTE ISO 13850 gives detailed provisions.

3.38 emission value numerical value quantifying an emission generated by a machine (e.g. noise, vibration, hazardous substances, radiation)

NOTE 1 Emission values are part of the information on the properties of a machine and are used as a basis for risk assessment.

NOTE 2 The term “emission value” should not be confused with “exposure value” which quantifies the exposure of persons to emissions when the machine is in use. Exposure values can be estimated using the emission values.

NOTE 3 Emission values are preferably measured and their associated uncertainties determined by means of standardized methods, e.g. to allow comparison between similar machines.

3.39 comparative emission data set of emission values of similar machines collected for the purpose of comparison

NOTE For noise comparison, see ISO 11689.

4 Hazards to be taken into account when designing machinery

4.1 General

The purpose of this clause is to provide a description of basic hazards with a view to assisting the designer in identifying the relevant and significant hazards which the machine under consideration can generate and the hazards associated with the environment in which the machine is intended to be used (see also 5.3).

NOTE related to machinery.

4.2 Mechanical hazard

4.2.1 Mechanical hazards associated with a machine, machine parts or surfaces, tools, workpieces, loads, or projected solid or fluid materials can result in:

crushing;

shearing;

cutting or severing;

entanglement;

drawing-in or trapping;

impact;

stabbing or puncture;

friction or abrasion;

— high pressure fluid injection (ejection hazard).

See !ISO 14121-1:2007, Annex A" for a more detailed list of possible hazards and hazardous situations

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4.2.2 The mechanical hazards which can be generated by a machine, machine parts (including work material holding mechanisms), workpieces or loads are conditioned, among other factors, by:

shape (cutting elements, sharp edges, angular parts, even if they are motionless);

relative location, which can create crushing, shearing, entanglement zones when elements are moving;

stability against overturning (considering kinetic energy);

mass and stability (potential energy of elements which can move under the effect of gravity);

mass and velocity (kinetic energy of elements in controlled or uncontrolled motion);

acceleration/deceleration;

inadequate mechanical strength, which can generate hazardous breakages or bursts;

potential energy of elastic elements (springs), or of liquids or gases under pressure or vacuum;

working environment.

4.3 Electrical hazard

This hazard can cause injury or death from electric shock, or burn; these can be caused by:

contact of persons with:

live parts, i.e. conductors or conductive parts intended to be energized in normal operation (direct contact);

parts which have become live under fault conditions, especially as a result of an insulation failure (indirect contact);

approach of persons to live parts, especially in the range of high voltage;

insulation not suitable for reasonably foreseeable conditions of use;

electrostatic phenomena such as contact of persons with charged parts;

thermal radiation;

phenomena such as projection of molten particles or chemical effects from short-circuits or overloads.

It can also cause falls of persons (or of objects dropped by persons) as a result of the surprise caused by electric shock.

4.4 Thermal hazard

Thermal hazard can result in:

burns and scalds from contact with objects or materials with an extreme temperature, flames or explosions and radiation from heat sources;

health-damaging effects generated by hot or cold work environment.

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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4.5 Hazard generated by noise

Noise can result in:

permanent hearing loss;

tinnitus;

tiredness, stress;

other effects such as loss of balance, loss of awareness;

impairment of speech communication or of the perception of acoustic signals.

4.6 Hazards generated by vibration

Vibration can be transmitted to the whole body (use of mobile equipment) and particularly to hands and arms (use of hand-held and hand-guided machines).

The most severe vibration (or less severe vibration over a long time) may generate serious disorders (low-back morbidity and trauma of the spine), severe discomfort resulting from whole-body vibration and vascular disorders, e.g. white-finger disease, neurological, osteo-articular disorders, resulting from hand-arm vibration.

4.7 Hazards generated by radiation

These hazards, which can have immediate effects (e.g. burns) or long-term effects (e.g. genetic mutations), are produced by a variety of sources and can be generated by non-ionizing or ionizing radiation:

electromagnetic fields (e.g. in the low frequency, radio frequency, micro-wave ranges);

infra-red light, visible light and ultra-violet light;

laser radiation;

X and γ rays;

α, β rays, electron or ion beams, neutrons.

4.8 Hazards generated by materials and substances

Materials and substances processed, used, produced or exhausted by machinery, and materials used to construct machinery can generate several different hazards:

hazards resulting from ingestion, contact with the skin, eyes and mucous membranes or inhalation of fluids, gases, mists, fumes, fibres, dusts or aerosols, having, e.g. a harmful, toxic, corrosive, teratogenic, carcinogenic, mutagenic, irritant or sensitizing effect;

fire and explosion hazards;

biological (e.g. mould) and micro-biological (viral or bacterial) hazards.

4.9 Hazards generated by neglecting ergonomic principles in machine design

Mismatch of machinery with human characteristics and abilities can show itself by:

physiological effects (e.g. musculo-skeletal disorders) resulting, e.g. from unhealthy postures, excessive or repetitive efforts;

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psycho-physiological effects generated by, e.g. mental overload or underload, or stress, arising from the operation, supervision or maintenance of a machine within the limits of its intended use;

human errors.

4.10 Slipping, tripping and falling hazards

Neglecting the surface of the floorings and access means may result in injuries from slips, trips or falls.

4.11 Hazard combinations

Some individual hazards which seem to be minor can, when combined with each other, be equivalent to a significant hazard.

4.12 Hazards associated with the environment in which the machine is used

Where a machine is designed to operate under environmental conditions which can result in hazards (e.g. temperature, wind, snow, lightning) these hazards shall be taken into account.

5 Strategy for risk reduction

5.1 General provisions

5.1.1 It is assumed that, when present on machinery, a hazard will sooner or later lead to harm if no protective measure(s) is (are) taken.

5.1.2 Protective measures are a combination of the measures taken by the designer and the user (see figure 1). Measures which can be incorporated at the design stage are preferable to and generally more effective than those which are implemented by the user.

5.1.3 Taking into account the experience of users of similar machines and whenever practicable, an exchange of information with the potential users, the designer shall take the following actions, in the order indicated below (see figure 2):

specify the limits and the intended use of the machine (see 5.2);

identify the hazards and associated hazardous situations (see clause 4 and 5.3);

estimate the risk, for each identified hazard and hazardous situation (see 5.3);

evaluate the risk and take decisions about the need for risk reduction (see 5.3);

eliminate the hazard or reduce the risk associated with the hazard by protective measures (see 5.4 and 5.5);

The first four above indents are related to risk assessment, on which detailed information can be found in !ISO 14121-1".

5.1.4 The objective to be met is the greatest risk reduction taking into account the four factors below. The strategy defined above is represented by the flowchart in figure 2. The process is iterative and several successive applications may be necessary to reduce the risk, making the best use of available technology.

In carrying out this process, it is necessary to take into account in the following order of preference:

the safety of the machine during all the phases of its lifecycle;

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the ability of the machine to perform its function;

the usability of the machine;

the manufacturing, operational and dismantling costs of the machine.

NOTE 1 The ideal application of these principles requires knowledge of the use of the machine, the accident history and health records, available risk reduction techniques, the legal framework in which the machine is to be used.

NOTE 2 A machine design which is acceptable at a particular time may no longer be justifiable when technological development allows the design of an equivalent machine with lower risk.

5.1.5 For the continued safe operation of a machine, it is important that the protective measures allow its easy use and do not hinder its intended use. Not doing this could lead to protective measures being by-passed in order to achieve maximum utility of the machine.

5.1.6 If standardized (or other suitable) measurement methods exist for an emission, they should be used, in conjunction with existing machinery or prototypes, to determine emission values and comparative emission data. This makes it possible for the designer:

to estimate the risk associated with the emissions;

to evaluate the effectiveness of the protective measures implemented at the design stage;

to provide potential buyers with quantitative information on emissions in the technical documentation;

to provide users with quantitative information on emissions in the information for use.

Hazards other than emissions that are described by measurable parameters can be dealt with in a similar manner.

5.2 Specification of the limits of the machine

The design of the machine begins with the specification of its limits (see also !ISO 14121-1:2007, Clause 5"):

use limits:

the intended use of the machine, including the different machine operating modes, phases of use and the different intervention procedures for the operators and

the reasonably foreseeable misuse of the machine;

space limits (e.g. range of movement, space requirements for installation and maintenance of the machine, "operator-machine" interface, "machine-power supply" interface);

time limits: the foreseeable "life limit“ of the machine and / or of some of its components (e.g. tools, wear parts, electrical components), taking into account its intended use.

5.3 Hazard identification, risk estimation and risk evaluation

Having identified the various hazards that can be generated by the machine (permanent hazards and those which can appear unexpectedly: see 3.6 and clause 4), the designer shall estimate the risk for each hazard, as far as possible on the basis of quantifiable factors, and finally decide if risk reduction (see 5.4) is required as a result of the risk evaluation. For this purpose, the designer shall take into account the different operating modes and intervention procedures, in particular:

a) human interaction during the whole lifecycle of the machine, as described below:

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1) construction;

2) transport, assembly and installation;

3) commissioning;

4) use:

setting, teaching/programming or process changeover;

operation;

cleaning;

fault finding;

maintenance;

!5) dismantling, disabling and scrapping;"

b) possible states of the machine:

1) the machine performs the intended function (the machine operates normally);

2) the machine does not perform the intended function (i.e. it malfunctions) due to a variety of reasons, including:

variation of a property or of a dimension of the processed material or of the workpiece;

failure of one (or more) of its component parts or services;

external disturbances (e.g. shocks, vibration, electromagnetic interference);

design error or deficiency (e.g. software errors);

disturbance of its power supply;

surrounding conditions (e.g. damaged floor surfaces);

c) unintended behaviour of the operator or reasonably foreseeable misuse of the machine , e.g.:

loss of control of the machine by the operator (especially for hand-held or mobile machines);

reflex behaviour of a person in case of malfunction, incident or failure during the use of the machine;

behaviour resulting from lack of concentration or carelessness;

behaviour resulting from taking the "line of least resistance" in carrying out a task;

behaviour resulting from pressures to keep the machine running in all circumstances;

behaviour of certain persons (e.g. children, disabled persons).

Risk estimation and evaluation have to be applied after each of the three steps of risk reduction defined in 5.4 and illustrated in figure 2.

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14

When carrying out a risk assessment, the risk from the most likely severity of the harm that is likely to occur from each identified hazard shall be considered, but the highest foreseeable severity shall also be taken into account, even if the probability of such an occurrence is not high.

5.4 Elimination of hazards or reduction of risk by protective measures

This objective may be met by removing the hazards or by reducing, separately or simultaneously, each of the two elements which determine the risk:

d) severity of harm from the hazard under consideration;

e) probability of occurrence of that harm.

All protective measures intended to reach this objective shall be applied according to the following sequence, referred to as the "3-step method" (see also figures 1 and 2):

inherently safe design measures (see ISO 12100-2: 2003, clause 4);

NOTE This stage is the only one at which hazards can be eliminated, thus avoiding the need for additional protective measures such as safeguarding or complementary protective measures.

safeguarding and possibly complementary protective measures (see ISO 12100-2: 2003, clause 5);

information for use about the residual risk (see ISO 12100-2: 2003, clause 6).

Information for use shall not be a substitute for the correct application of inherently safe design measures orsafeguarding or complementary protective measures.

Adequate protective measures associated with each of the operating modes and intervention procedures (see 5.3) prevent operators from being induced to use hazardous intervention techniques in case of technical difficulties.

5.5 Achievement of risk reduction objectives

The iterative risk reduction process according to 5.4 and figure 2 can be concluded after achievement of adequate risk reduction and, if applicable, a favourable outcome of risk comparison (see !ISO 14121-1:2007,

Adequate risk reduction can be considered achieved when one is able to give a positive answer to each of the following questions:

have all operating conditions and all intervention procedures been taken into account?

has the method stated in 5.4 been applied?

have hazards been eliminated or risks from hazards been reduced to the lowest practicable level?

is it certain that the measures taken do not generate new hazards?

are the users sufficiently informed and warned about the residual risks?

is it certain that the operator's working conditions are not jeopardized by the protective measures taken?

are the protective measures taken compatible with each other?

has sufficient consideration been given to the consequences that can arise from the use of a machine designed for professional / industrial use when it is used in a non-professional / non-industrial context?

is it certain that the measures taken do not excessively reduce the ability of the machine to perform its function?

8.3").

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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IS-00121 O1:(3002E)

15

Figure 1 — Risk reduction process from the point of view of the designer

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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! "

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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IS-00121 O1:(3002E)

17

Annex A (informative)

Schematic representation of a machine

Figure A.1 — Schematic representation of a machine

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

Page 26: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

Trili

ngua

l ind

ex o

f spe

cific

term

s an

d ex

pres

sion

s us

ed in

ISO

121

00

Subc

laus

e En

glis

h

Ger

man

Fren

ch

un

derli

ned:

ref.

to d

efin

ition

s

bold

: pro

min

ent p

rovi

sion

s Pa

rt

A

Acc

ess

code

Zu

gang

scod

e C

ode

d'ac

cès

4.11

.10

2 A

cces

s m

eans

Zu

gäng

e M

oyen

s d'

accè

s 4.

10

1 A

cces

s m

eans

Zu

gäng

e M

oyen

s d'

accè

s 5.

5.6

2 A

cces

s to

a h

azar

d zo

ne (t

o a

dang

er z

one)

Zu

gang

zu

eine

m G

efäh

rdun

gsbe

reic

h A

ccès

à u

ne z

one

dang

ereu

se

3.27

1

Acc

ess

to a

haz

ard

zone

(to

a da

nger

zon

e)

Zuga

ng z

u ei

nem

Gef

ährd

ungs

bere

ich

Acc

ès à

une

zon

e da

nger

euse

4.

11.9

; 4.1

5; 5

.1; 5

.2;

5.5.

6 2

Acc

essi

bilit

y Zu

gäng

lichk

eit

Acc

essi

bilit

é 4.

2.1;

4.7

2

Act

ive

opto

-ele

ctro

nic

prot

ectiv

e de

vice

A

ktiv

e op

toel

ektro

nisc

he S

chut

zein

richt

ung

Dis

posi

tif d

e pr

otec

tion

opto

-éle

ctro

niqu

e ac

tif3.

26.6

1

Act

ive

opto

-ele

ctro

nic

prot

ectiv

e de

vice

A

ktiv

e op

toel

ektro

nisc

he S

chut

zein

richt

ung

Dis

posi

tif d

e pr

otec

tion

opto

-éle

ctro

niqu

e ac

tif5.

2.5.

3; 5

.3.3

2

Act

uato

r (M

achi

ne -)

A

ntrie

bsel

emen

t A

ctio

nneu

r 3.

1; A

nnex

A

1 A

ctua

tor (

Mac

hine

-)

Ant

riebs

elem

ent

Act

ionn

eur

4.4

2 A

ctua

tor /

man

ual c

ontro

l S

tellt

eil

Org

ane

de s

ervi

ce

3.26

.3; A

nnex

A

1 A

ctua

tor /

man

ual c

ontro

l S

tellt

eil

Org

ane

de s

ervi

ce

4.2.

1; 4

.8.7

; 4.1

1.7.

2;

4.11

.8; 5

.5.2

; 6.5

.1.d

; 6.

5.2.

c

2

Ade

quat

e ris

k re

duct

ion

Ent

spre

chen

de R

isik

omin

deru

ng

Réd

uctio

n ad

équa

te d

u ris

que

3.17

; cla

use

5; fi

g. 2

1

Adj

usta

ble

guar

d E

inst

ellb

are

trenn

ende

Sch

utze

inric

htun

g P

rote

cteu

r rég

labl

e 3.

25.3

1

Adj

usta

ble

guar

d E

inst

ellb

are

trenn

ende

Sch

utze

inric

htun

g P

rote

cteu

r rég

labl

e 5.

2.3.

c; 5

.3.2

.4; f

ig 1

2

Ang

ular

par

t S

pitz

es T

eil

Piè

ce d

e fo

rme

aigu

ë 4.

2.2

1 A

pplic

atio

n po

int

Ans

chla

gpun

kt

Poi

nt d

e pr

éhen

sion

6.

5.1.

a 2

Ass

embl

y of

mac

hine

s M

asch

inen

anla

ge

Ens

embl

e de

mac

hine

s 3.

1 1

Ass

embl

y of

mac

hine

s M

asch

inen

anla

ge

Ens

embl

e de

mac

hine

s 4.

11.1

2

Aut

omat

ic m

onito

ring

Sel

bstü

berw

achu

ng /

auto

mat

isch

e Ü

berw

achu

ng

Aut

o-su

rvei

llanc

e 4.

11.6

; 4.1

2.3;

5.3

.2.3

/.5

2

B

Bar

rier

Spe

rre

Bar

rière

3.

25; 3

.27

1 B

urn

Ver

bren

nung

B

rûlu

re

4.3;

4.4

; 4.7

1

IS-00121 O1:(3002E)

18

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

Page 27: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

C

Cen

tre o

f gra

vity

M

asse

schw

erpu

nkt

Cen

tre d

e gr

avité

4.

6 2

Chi

p S

pan

Cop

eau

5.3.

2.1

2 C

lean

ing

Rei

nigu

ng

Net

toya

ge

5.3.

a 1

Cle

anin

g R

eini

gung

N

etto

yage

4.

11.9

; 5.2

.4; 6

.1.2

2

Col

our

Farb

e C

oule

ur

6.4.

c; 6

.5.2

.a/.e

2

Com

mis

sion

ing

Inbe

trieb

nahm

e M

ise

en s

ervi

ce

5.3.

a 1

Com

mis

sion

ing

Inbe

trieb

nahm

e M

ise

en s

ervi

ce

6.1.

2; 6

.5.1

.b

2 C

omm

on c

ause

failu

res

Aus

fälle

auf

grun

d ge

mei

nsam

er U

rsac

he

Déf

ailla

nces

de

caus

e co

mm

une

3.33

1

Com

mon

cau

se fa

ilure

s A

usfä

lle a

ufgr

und

gem

eins

amer

Urs

ache

D

éfai

llanc

es d

e ca

use

com

mun

e 4.

12.3

2

Com

mon

mod

e fa

ilure

s G

leic

harti

ge A

usfä

lle

Déf

ailla

nces

de

mod

e co

mm

un

3.34

1

Com

mon

mod

e fa

ilure

s G

leic

harti

ge A

usfä

lle

Déf

ailla

nces

de

mod

e co

mm

un

4.12

.3

2 C

ompa

rativ

e em

issi

on d

ata

Ver

glei

chen

de E

mis

sion

sdat

en

Don

nées

com

para

tives

d'é

mis

sion

3.

39; 5

.1.6

1

Com

plem

enta

ry p

rote

ctiv

e m

easu

res

Erg

änze

nde

Sch

utzm

aßna

hmen

M

esur

es d

e pr

éven

tion

com

plém

enta

ires

3.18

; 5.4

; fig

.1; f

ig.2

1

Com

plem

enta

ry p

rote

ctiv

e m

easu

res

Erg

änze

nde

Sch

utzm

aßna

hmen

M

esur

es d

e pr

éven

tion

com

plém

enta

ires

5.1;

5.5

2

Con

stru

ctio

n H

erst

ellu

ng

Con

stru

ctio

n 5.

3.a

1 C

onst

ruct

ion

Her

stel

lung

C

onst

ruct

ion

4.3.

a 2

Con

tain

men

t (of

mat

eria

ls, e

tc.)

Kap

selu

ng /

Fern

haltu

ng (v

on S

toffe

n, u

sw.)

Rét

entio

n (d

e m

atér

iaux

, etc

.) 5.

3.2.

1 2

Con

tain

men

t (of

sto

red

ener

gy)

Rüc

khal

tung

(von

ges

peic

herte

r Ene

rgie

) R

éten

tion

(de

l'éne

rgie

acc

umul

ée)

5.5.

4.c

2 C

ontro

l S

teue

rung

C

omm

ande

3.

1 1

Con

trol d

evic

e S

teue

rein

richt

ung,

Ste

ueru

ngse

inric

htun

g A

ppar

eil d

e co

mm

ande

A

nnex

A

1 C

ontro

l dev

ice

Ste

uere

inric

htun

g, S

teue

rung

sein

richt

ung

App

arei

l de

com

man

de

4.11

.1; 4

.11.

8; 5

.2; 5

.5.6

2

Con

trol m

ode

Ste

ueru

ngsa

rt C

omm

ande

(Mod

e de

-)

4.11

.9

2 C

ontro

l sys

tem

S

teue

rsys

tem

/ S

teue

rung

C

omm

ande

(Sys

tèm

e de

-)

Ann

ex A

1

Con

trol s

yste

m

Ste

uers

yste

m /

Ste

ueru

ng

Com

man

de (S

ystè

me

de -)

4.

11; 4

.13

2 C

ritic

al c

ompo

nent

K

ritis

ches

Bau

teil

Com

posa

nt c

ritiq

ue

4.13

2

Cru

shin

g ha

zard

G

efäh

rdun

g du

rch

Que

tsch

en

Ris

que

d'éc

rase

men

t 4.

2.1

1 C

uttin

g / s

ever

ing

haza

rd

Gef

ährd

ung

durc

h S

chne

iden

R

isqu

e de

cou

pure

4.

2.1

1 C

uttin

g el

emen

t S

chne

idel

emen

t É

lém

ent c

oupa

nt

4.2.

2 1

D

Dam

age

to h

ealth

G

esun

dhei

tssc

hädi

gung

A

ttein

te à

la s

anté

3.

5 1

Dan

ger

Gef

ahr

Dan

ger

6.4.

c 2

Dan

ger z

one

(see

als

o: h

azar

d zo

ne)

Gef

ährd

ungs

bere

ich

(Gef

ahrb

erei

ch)

Zone

dan

gere

use

3.

10; 3

.26.

5; 3

.27

1 D

ange

r zon

e (s

ee a

lso:

haz

ard

zone

) G

efäh

rdun

gsbe

reic

h (G

efah

rber

eich

) Zo

ne d

ange

reus

e 4.

2.1;

4.1

1.8.

d; 5

.2;

5.3.

2.4/

.5

2

IS-00121 O1:(3002E)

19

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

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De-

com

mis

sion

ing

Auß

erbe

trieb

nahm

e M

ise

hors

ser

vice

5.3.

a 1

De-

com

mis

sion

ing

Auß

erbe

trieb

nahm

e M

ise

hors

ser

vice

4.

6; 6

.1.2

; 6.5

.1.f

2 D

efea

ting

(of a

pro

tect

ive

devi

ce)

Um

gehe

n (e

iner

Sch

utze

inric

htun

g)

Neu

tralis

atio

n (d

'un

disp

ositi

f de

prot

ectio

n)

4.11

.1; 4

.13;

5.3

.1; 5

.3.3

2

Def

eatin

g (o

f a w

arni

ng d

evic

e)

Um

gehe

n (e

iner

War

nein

richt

ung)

N

eutra

lisat

ion

(d'u

ndis

posi

tif d

'ave

rtiss

emen

t) 6.

3 2

Dep

ress

uriz

ing

Dru

cken

tlast

ung

Mis

e à

la p

ress

ion

atm

osph

ériq

ue

4.10

2

Des

ign

(of a

mac

hine

) K

onst

rukt

ion

(ein

er M

asch

ine)

C

once

ptio

n (d

'une

mac

hine

) 5.

1 à

5.4

1 D

esig

n er

ror

Kon

stru

ktio

nsfe

hler

E

rreu

r de

conc

eptio

n 5.

3.b

1 D

esig

ner

Kon

stru

kteu

r / E

ntw

ickl

er

Con

cept

eur

Intro

duct

ion;

cla

use

1;

3.8/

.12/

.18/

.23;

4.1

; 5.

1.2/

.3/.6

; 5.3

; fig

1

1

Des

igne

r K

onst

rukt

eur /

Ent

wic

kler

C

once

pteu

r In

trodu

ctio

n; c

laus

e 1;

5.

2.5.

1; 6

.3; 6

.5.1

.d

2

Dia

gnos

tic s

yste

m

Dia

gnos

esys

tem

D

iagn

ostic

(Sys

tèm

e de

-)

4.11

.12

2 D

irect

con

tact

D

irekt

es B

erüh

ren

Con

tact

dire

ct

4.3

1 D

ism

antli

ng (o

f a m

achi

ne)

Dem

onta

ge /

Abb

au (e

iner

Mas

chin

e)

Dém

onta

ge (d

'une

mac

hine

) 5.

1.4;

5.3

1

Dis

man

tling

(of a

mac

hine

) D

emon

tage

/ A

bbau

(ein

er M

asch

ine)

D

émon

tage

(d'u

ne m

achi

ne)

4.6;

6.1

.2; 6

.5.1

.f 2

Dis

play

A

nzei

ge

Affi

chag

e A

nnex

A

1 D

ispl

ay

Anz

eige

A

ffich

age

4.8.

1; 4

.8.8

; 4.1

1.1

2 D

ispo

sal (

of a

mac

hine

) E

ntso

rgun

g (e

iner

Mas

chin

e)

Mis

e au

rebu

t (d'

une

mac

hine

) 5.

3.a

1 D

ispo

sal (

of a

mac

hine

) E

ntso

rgun

g (e

iner

Mas

chin

e)

Mis

e au

rebu

t (d'

une

mac

hine

) 6.

1.2;

6.5

.1.b

/.f

2 D

istu

rban

ce(s

) S

töru

ng(e

n)

Per

turb

atio

n(s)

5.

3.b

1 D

istu

rban

ce(s

) S

töru

ng(e

n)

Per

turb

atio

n(s)

4.

12.1

/.3

2 D

oor

Tür

Por

te

3.25

1

Dra

win

g-in

/ tra

ppin

g ha

zard

G

efäh

rdun

g du

rch

Ein

zieh

en /

Fang

en

Ris

que

d'en

traîn

emen

t / d

'em

pris

onne

men

t 4.

2.1

1 D

raw

ing-

in /

trapp

ing

haza

rd

Gef

ährd

ung

durc

h E

inzi

ehen

/ Fa

ngen

R

isqu

e d'

entra

înem

ent /

d'e

mpr

ison

nem

ent

5.2.

1 2

Dus

t S

taub

P

ouss

ière

4.

8 1

Dus

t S

taub

P

ouss

ière

4.

2.2;

4.1

2.1;

5.2

.5.1

; 5.

3.2.

1; 6

.5.1

.c

2

E

E

dge

(sha

rp -)

S

char

fe K

ante

A

rête

viv

e 4.

2.2

1 E

dge

(sha

rp -)

S

char

fe K

ante

A

rête

viv

e 4.

2.1;

5.3

.2.6

2

Ele

ctric

sho

ck

Ele

ktris

cher

Sch

lag

Cho

c él

ectri

que

3.6;

4.3

1

Ele

ctric

sho

ck

Ele

ktris

cher

Sch

lag

Cho

c él

ectri

que

4.9

2 E

lect

rical

equ

ipm

ent

Ele

ktris

che

Ausr

üstu

ng

Équ

ipem

ent é

lect

rique

4.

4; 4

.9; 6

.4; 6

.5.1

.c

2 E

lect

rical

haz

ard

Ele

ktris

che

Gef

ährd

ung

Ris

que

élec

triqu

e 3.

6; 4

.3

1 E

lect

rical

haz

ard

(Pre

vent

ing

-) V

erhü

tung

ele

ktris

cher

Gef

ährd

ung

Ris

que

élec

triqu

e (P

réve

ntio

n du

-)

4.9

2

IS-00121 O1:(3002E)

20

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

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Ele

ctric

al o

verlo

adin

g Ü

berla

stun

g (E

lekt

risch

e)

Sur

char

ge (é

lect

rique

) 6.

5.1.

b 2

Ele

ctro

mag

netic

com

patib

ility

E

lekt

rom

agne

tisch

e V

erträ

glic

hkei

t C

ompa

tibilit

é él

ectro

mag

nétiq

ue

4.11

.11

2 E

mer

genc

y op

erat

ion

Han

dlun

g im

Not

fall

Opé

ratio

n d'

urge

nce

3.36

1

Em

erge

ncy

situ

atio

n N

otfa

ll S

ituat

ion

d'ur

genc

e 3.

35; 3

.36

1 E

mer

genc

y si

tuat

ion

Not

fall

Situ

atio

n d'

urge

nce

5.5.

2; 6

.5.1

.g

2 E

mer

genc

y st

op (f

unct

ion)

S

tills

etze

n im

Not

fall

(Fun

ktio

n zu

m)

Arr

êt d

'urg

ence

(fon

ctio

n)

3.37

1

Em

erge

ncy

stop

(fun

ctio

n)

Stil

lset

zen

im N

otfa

ll (F

unkt

ion

zum

) A

rrêt

d'u

rgen

ce (f

onct

ion)

4.

11.1

; 4.1

1.8;

5.1

; 5.5

.2;

5.5.

3; 6

.5.1

.d

2

Em

erge

ncy

stop

con

trol

Ste

lltei

l zum

Stil

lset

zen

im N

otfa

ll C

omm

ande

d'a

rrêt

d'u

rgen

ce

4.11

.8.c

; 4.1

1.9;

5.5

.2

2 E

mer

genc

y st

op d

evic

e E

inric

htun

g zu

m S

tills

etze

n im

Not

fall

Arr

êt d

'urg

ence

(Dis

posi

tif d

' -)

4.11

.1; 4

.11.

8.c)

; 5.5

.2

2 E

mis

sion

val

ue

Em

issi

onsw

ert

Val

eur d

'ém

issi

on

3.38

; 3.3

9; 5

.1.6

1

Em

issi

on v

alue

E

mis

sion

swer

t V

aleu

r d'é

mis

sion

4.

3.c

2 E

mis

sion

s E

mis

sion

en

Ém

issi

ons

3.6;

3.3

8; 3

.39;

5.1

.6

1 E

mis

sion

s E

mis

sion

en

Ém

issi

ons

4.2.

2; 5

.1; 5

.2.1

; 5.2

.5.1

; 5.

2.7;

5.3

.2.1

; 5.4

; 6.5

.1.g

2

Ena

blin

g de

vice

Zu

stim

mun

gsei

nric

htun

g V

alid

atio

n (D

ispo

sitif

de

-)

3.26

.2

1 E

nabl

ing

devi

ce

Zust

imm

ungs

einr

icht

ung

Val

idat

ion

(Dis

posi

tif d

e -)

4.

11.9

2

Ent

angl

emen

t haz

ard

Gef

ährd

ung

durc

h E

rfass

en

Ris

que

de h

appe

men

t 4.

2.1;

4.2

.2

1 E

nviro

nmen

t U

mw

elt /

Um

gebu

ng

Env

ironn

emen

t cl

ause

1; 4

.1; 4

.2.2

; 4.4

; 4.

12

1

Env

ironm

ent

Um

wel

t / U

mge

bung

E

nviro

nnem

ent

clau

se 1

; 4.7

; 4.1

2.1;

5.

2.1;

5.2

.5.2

; 5.3

.1;

6.5.

1.b

2

Env

ironm

enta

l con

ditio

ns

Um

gebu

ngse

inflü

sse

Con

ditio

ns li

ées

à l'e

nviro

nnem

ent

4.12

.1; 5

.2.5

.2.a

; 6.5

.1.b

2

Erg

onom

ic p

rinci

ple

Erg

onom

isch

er G

rund

satz

E

rgon

omiq

ue (P

rinci

pe -)

4.

9 1

Erg

onom

ic p

rinci

ple

Erg

onom

isch

er G

rund

satz

E

rgon

omiq

ue (P

rinci

pe -)

4.

8; 4

.11.

8; 5

.2.1

2

Err

or (H

uman

) Fe

hlve

rhal

ten

(men

schl

iche

s)

Err

eur (

hum

aine

) 4.

9 1

Esc

ape

and

resc

ue (o

f a p

erso

n)

Bef

reiu

ng u

nd R

ettu

ng (e

iner

Per

son)

D

égag

emen

t et s

auve

tage

(d'u

ne p

erso

nne)

5.

5.3

2 E

xplo

sive

atm

osph

ere

Exp

losi

onsg

efäh

rdet

e A

tmos

phär

e A

tmos

phèr

e ex

plos

ible

4.

4; 6

.4.b

2

Exp

osur

e to

haz

ard

Gef

ährd

ungs

expo

sitio

n / A

usse

tzun

g ei

ner

Gef

ährd

ung

Exp

ositi

on à

un

phén

omèn

e da

nger

eux

3.9

1

Exp

osur

e to

haz

ard

Gef

ährd

ungs

expo

sitio

n / A

usse

tzun

g ei

ner

Gef

ährd

ung

Exp

ositi

on à

un

phén

omèn

e da

nger

eux

4.11

.12;

5.1

2

Exp

osur

e to

haz

ards

(Lim

iting

-)

Gef

ährd

ungs

expo

sitio

n (B

egre

nzen

der

-)

Exp

ositi

on à

un

phén

omèn

e da

nger

eux

(Lim

itatio

n de

l'ex

posi

tion

à un

-)

4.13

; 4.1

4; 4

.15

2

Exp

osur

e va

lue

Imm

issi

onsw

ert

Val

eur d

'exp

ositi

on

3.38

1

IS-00121 O1:(3002E)

21

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

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F

Fa

ilure

A

usfa

ll D

éfai

llanc

e 3.

28 à

3.3

2; 3

.33;

3.3

4;

3.35

; 4.3

; 5.3

.b/.c

1

Failu

re

Aus

fall

Déf

ailla

nce

4.11

.1; 4

.11.

6; 4

.11.

7.1/

.2;

4.12

; 5.3

.2.3

.b; 5

.3.2

.5

2

Failu

re to

dan

ger

Gef

ahrb

ringe

nder

Aus

fall

Déf

ailla

nce

dang

ereu

se

3.30

1

Fallin

g ha

zard

S

turz

gefä

hrdu

ng

Ris

que

de c

hute

(de

pers

onne

) 3.

11

1 Fa

ult

Fehl

er

Déf

aut

3.31

; 3.3

2; 3

.34;

4.3

1

Faul

t Fe

hler

D

éfau

t 4.

11.1

; 4.1

1.6;

4.1

1.7.

1/.2

; 4.

11.9

; 4.1

1.12

; 4.1

2;

5.2.

4; 5

.2.5

.2; 6

.5.1

.d/.e

2

Faul

t fin

ding

Fe

hler

such

e D

éfau

ts (R

eche

rche

de

-)

5.3.

a 1

Faul

t fin

ding

Fe

hler

such

e D

éfau

ts (R

eche

rche

de

-)

4.11

.12;

5.2

.4; 6

.1.2

2

Fixe

d gu

ard

Fest

steh

ende

tren

nend

e Sc

hutz

einr

icht

ung

Pro

tect

eur f

ixe

3.25

.1

1 Fi

xed

guar

d Fe

stst

ehen

de tr

enne

nde

Schu

tzei

nric

htun

g P

rote

cteu

r fix

e 5.

1; 5

.2.1

; 5.2

.2.a

; 5.

2.5.

2.b;

5.3

.2.2

2

Foun

datio

n Fu

ndam

ent

Mas

sif

4.6

2 Fr

ictio

n / a

bras

ion

haza

rd

Gef

ährd

ung

durc

h R

eibu

ng /

Abrie

b R

isqu

e de

frot

tem

ent /

d'a

bras

ion

4.2.

1 1

G

Gua

rd

Tren

nend

e Sc

hutz

einr

icht

ung

Pro

tect

eur

3.19

; 3.2

4; 3

.25;

3.2

6.1;

A

nnex

A

1

Gua

rd

Tren

nend

e Sc

hutz

einr

icht

ung

Pro

tect

eur

4.8.

6; 4

.11.

9; 4

.13;

5.

1/.2

/.3; 5

.5.6

; 6.1

.1;

6.4.

c; 6

.5.1

.c

2

Gua

rd lo

ckin

g de

vice

Zu

halte

einr

icht

ung

Dis

posi

tif d

e bl

ocag

e du

pro

tect

eur

3.25

.5

1

H

Han

dlin

g H

andh

abun

g M

anut

entio

n 4.

6; 4

.7; 4

.14;

5.5

.5;

6.5.

1; 6

.5.3

2

Har

m

Sch

aden

D

omm

age

3.5;

3.6

; 3.1

1; 3

.15;

5.1

.1;

5.3;

5.4

1

Haz

ard

Gef

ährd

ung

Phé

nom

ène

dang

ereu

x 3.

6; 3

.11;

3.1

4; 3

.15.

.. 1

Haz

ard

Gef

ährd

ung

Phé

nom

ène

dang

ereu

x nu

mer

ous

occu

rrenc

es

2 H

azar

d co

mbi

natio

n G

efäh

rdun

gsko

mbi

natio

n R

isqu

es (C

ombi

nais

on d

e -)

4.

11

1 H

azar

d id

entif

icat

ion

Iden

tifiz

ieru

ng d

er G

efäh

rdun

gen

Iden

tific

atio

n de

s ph

énom

ènes

dan

gere

ux

3.14

; 5.3

1

IS-00121 O1:(3002E)

22

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

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Haz

ard

zone

(see

als

o: d

ange

r zon

e)

Gef

ährd

ungs

bere

ich

(Gef

ahrb

erei

ch)

Zone

dan

gere

use

3.

10; 3

.26.

5; 3

.27

1 H

azar

d zo

ne (s

ee a

lso:

dan

ger z

one)

G

efäh

rdun

gsbe

reic

h (G

efah

rber

eich

) Zo

ne d

ange

reus

e

4.2.

1; 4

.11.

8.d;

5.2

; 5.

3.2.

4/.5

2

Haz

ardo

us m

alfu

nctio

ning

G

efäh

rdun

g du

rch

Fehl

funk

tion(

en)

Dys

fonc

tionn

emen

t dan

gere

ux

4.14

.1

2 H

azar

dous

situ

atio

n G

efäh

rdun

gssi

tuat

ion

/ gef

ährd

ende

Situ

atio

nS

ituat

ion

dang

ereu

se

3.9;

3.3

5; 4

.1; 5

.1.3

1

Haz

ardo

us s

ituat

ion

Gef

ährd

ungs

situ

atio

n / g

efäh

rden

de S

ituat

ion

Situ

atio

n da

nger

euse

4.

11.5

; 5.2

.7

2 H

azar

dous

sub

stan

ces

Gef

ahrs

toffe

/ G

efäh

rlich

e S

toffe

S

ubst

ance

s da

nger

euse

s 3.

38

1 H

azar

dous

sub

stan

ces

Gef

ahrs

toffe

/ G

efäh

rlich

e S

toffe

S

ubst

ance

s da

nger

euse

s 4.

2.2;

4.3

.c; 5

.3.2

.1; 5

.4.4

2

Haz

ards

gen

erat

ed b

y m

ater

ials

and

su

bsta

nces

G

efäh

rdun

g du

rch

Mat

eria

lien

und

Sub

stan

zen

P

héno

mèn

es d

ange

reux

eng

endr

és p

ar d

es

mat

éria

ux e

t des

sub

stan

ces

4.8

1

Haz

ards

gen

erat

ed b

y ne

glec

ting

ergo

nom

ic

prin

cipl

es

Gef

ährd

ung

durc

h V

erna

chlä

ssig

ung

ergo

nom

isch

er G

rund

sätz

e P

héno

mèn

es d

ange

reux

eng

endr

és p

ar le

no

n-re

spec

t des

prin

cipe

s er

gono

miq

ues

4.9

1

Haz

ards

gen

erat

ed b

y no

ise

Gef

ährd

ung

durc

h Lä

rm

Phé

nom

ènes

dan

gere

ux e

ngen

drés

par

le

brui

t 4.

5 1

Haz

ards

gen

erat

ed b

y ra

diat

ion

Gef

ährd

ung

durc

h S

trahl

ung

Phé

nom

ènes

dan

gere

ux e

ngen

drés

par

les

rayo

nnem

ents

4.

7 1

Haz

ards

gen

erat

ed b

y vi

brat

ion

Gef

ährd

ung

durc

h V

ibra

tion

Phé

nom

ènes

dan

gere

ux e

ngen

drés

par

les

vibr

atio

ns

4.6

1

Hea

t H

itze

Cha

leur

4.

4 1

Hea

t H

itze

Cha

leur

4.

12.1

; 5.2

.1

2 H

eat s

ourc

e W

ärm

eque

lle

Cha

leur

(Sou

rce

de -)

4.

4 1

Hig

h pr

essu

re fl

uid

ejec

tion

haza

rd

Gef

ährd

ung

durc

h H

erau

sspr

itzen

von

Fl

üssi

gkei

ten

unte

r hoh

em D

ruck

R

isqu

e d'

éjec

tion

de fl

uide

sou

s ha

ute

pres

sion

4.

2.1

1

Hol

d-to

-run

cont

rol d

evic

e S

teue

rein

richt

ung

mit

selb

sttä

tiger

R

ücks

tellu

ng (T

ipps

chal

ter)

C

omm

ande

néc

essi

tant

une

act

ion

mai

nten

ue

3.26

.3

1

Hol

d-to

-run

cont

rol d

evic

e S

teue

rein

richt

ung

mit

selb

sttä

tiger

R

ücks

tellu

ng (T

ipps

chal

ter)

C

omm

ande

néc

essi

tant

une

act

ion

mai

nten

ue

4.11

.8.b

; 4.1

1.9

2

Hum

an b

ehav

iour

M

ensc

hlic

hes

Ver

halte

n C

ompo

rtem

ent h

umai

n 3.

23; 5

.3.c

1

Hyd

raul

ic e

quip

men

t H

ydra

ulis

che

Aus

rüst

ung

Équ

ipem

ent h

ydra

uliq

ue

4.4;

4.1

0 2

I

Im

pact

S

toß

Cho

c 4.

12.1

2

Impa

ct h

azar

d G

efäh

rdun

g du

rch

Sto

ß R

isqu

e de

cho

c 4.

2.1

1 Im

pedi

ng d

evic

e A

bwei

send

e S

chut

zein

richt

ung

(Bar

riere

) D

ispo

sitif

dis

suas

if / d

éfle

cteu

r 3.

27

1 In

dex

(of t

he in

stru

ctio

n ha

ndbo

ok)

Stic

hwor

tver

zeic

hnis

(in

der

Bet

riebs

anle

itung

) In

dex

(de

la n

otic

e d'

inst

ruct

ions

) 6.

5.2.

f 2

Indi

rect

con

tact

In

dire

kte

Ber

ühru

ng

Con

tact

indi

rect

4.

3 1

IS-00121 O1:(3002E)

23

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

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Info

rmat

ion

for u

se

Ben

utze

rinfo

rmat

ion

Info

rmat

ions

pou

r l'u

tilis

atio

n 3.

18; 3

.21;

5.1

.6; 5

.4

1 In

form

atio

n fo

r use

B

enut

zerin

form

atio

n In

form

atio

ns p

our l

'util

isat

ion

4.1;

5.5

.1; c

laus

e 6;

2

Inhe

rent

ly s

afe

desi

gn m

easu

re

Inhä

rent

sic

here

Kon

stru

ktio

n M

esur

e de

pré

vent

ion

intri

nsèq

ue

3.18

; 3.1

9; 5

.4

1

Inhä

rent

sic

here

Kon

stru

ktio

n M

esur

e de

pré

vent

ion

intri

nsèq

ue

clau

se 4

; 5.5

.1

2 In

spec

tion

Insp

ektio

n In

spec

tion

4.11

.10;

4.1

2.3;

6.5

.1.e

2

Insp

ectio

n (F

requ

ency

of -

) In

spek

tion

(Häu

figke

it de

r -)

Insp

ectio

ns (P

ério

dici

té d

es -)

6.

4.c

2 In

stal

latio

n (o

f the

mac

hine

) A

ufba

u / E

inba

u (d

er M

asch

ine)

In

stal

latio

n (d

e la

mac

hine

) 5.

2; 5

.3

1 In

stal

latio

n (o

f the

mac

hine

) A

ufba

u / E

inba

u (d

er M

asch

ine)

In

stal

latio

n (d

e la

mac

hine

) 4.

6; 6

.1.2

; 6.5

.1.b

2

Inst

ruct

ion

hand

book

B

etrie

bsan

leitu

ng

Not

ice

d'in

stru

ctio

ns

Fig.

1

1 In

stru

ctio

n ha

ndbo

ok

Bet

riebs

anle

itung

N

otic

e d'

inst

ruct

ions

6.

2; 6

.5

2 In

stru

ctio

ns

Anw

eisu

ngen

In

stru

ctio

ns

6.5.

1/.2

./.3

2 In

sula

tion

failu

re

Ver

sage

n de

r Iso

lieru

ng

Isol

emen

t (D

éfau

t d' -

) 4.

3 1

Insu

latio

n fa

ilure

V

ersa

gen

der I

solie

rung

Is

olem

ent (

Déf

aut d

' -)

4.12

.1

2 In

tend

ed u

se o

f a m

achi

ne

Bes

timm

ungs

gem

äße

Ver

wen

dung

ein

er

Mas

chin

e U

tilis

atio

n no

rmal

e d'

une

mac

hine

In

trodu

ctio

n; 3

.3; 3

.6;

3.22

; 4.9

; 5.1

.3; 5

.1.5

; 5.2

1

Inte

nded

use

of a

mac

hine

B

estim

mun

gsge

mäß

e V

erw

endu

ng e

iner

M

asch

ine

Util

isat

ion

norm

ale

d'un

e m

achi

ne

Intro

duct

ion;

4.8

.8; 4

.12.

1;

5.3.

1; 5

.5.1

; 6.1

.1; 6

.5.1

.d

2

Inte

rlock

ing

devi

ce (i

nter

lock

) V

errie

gelu

ngse

inric

htun

g (V

errie

gelu

ng)

Ver

roui

llage

(Dis

posi

tif d

e -)

In

trodu

ctio

n; 3

.25;

3.

25.4

/.5; 3

.26.

1 1

Inte

rlock

ing

devi

ce (i

nter

lock

) V

errie

gelu

ngse

inric

htun

g (V

errie

gelu

ng)

Ver

roui

llage

(Dis

posi

tif d

e -)

In

trodu

ctio

n; 5

.3.2

.5

2 In

terlo

ckin

g gu

ard

Ver

riege

lte tr

enne

nde

Sch

utze

inric

htun

g P

rote

cteu

r ave

c di

spos

itif d

e ve

rrou

illage

3.

25.4

1

Inte

rlock

ing

guar

d V

errie

gelte

tren

nend

e S

chut

zein

richt

ung

Pro

tect

eur a

vec

disp

ositi

f de

verr

ouilla

ge

5.2.

1/.2

/.3; 5

.2.5

.3;

5.3.

2.3;

5.5

.6

2

Inte

rlock

ing

guar

d w

ith a

sta

rt fu

nctio

n (c

ontro

l gua

rd)

Tren

nend

e Sc

hutz

einr

icht

ung

mit

Sta

rtfun

ktio

n P

rote

cteu

r com

man

dant

la m

ise

en m

arch

e 3.

25.6

1

Inte

rlock

ing

guar

d w

ith a

sta

rt fu

nctio

n (c

ontro

l gua

rd)

Tren

nend

e Sc

hutz

einr

icht

ung

mit

Sta

rtfun

ktio

n P

rote

cteu

r com

man

dant

la m

ise

en m

arch

e 5.

2.3.

f; 5.

3.2.

5 2

Inte

rlock

ing

guar

d w

ith g

uard

lock

ing

Ver

riege

lte tr

enne

nde

Sch

utze

inric

htun

g m

it Zu

haltu

ng

Pro

tect

eur a

vec

disp

ositi

f d'in

terv

erro

uilla

ge

3.25

.5;

1

Inte

rlock

ing

guar

d w

ith g

uard

lock

ing

Ver

riege

lte tr

enne

nde

Sch

utze

inric

htun

g m

it Zu

haltu

ng

Pro

tect

eur a

vec

disp

ositi

f d'in

terv

erro

uilla

ge

5.2.

2; 5

.2.3

2

Isol

atio

n an

d en

ergy

dis

sipa

tion

Ene

rgie

trenn

ung

und

-abl

eitu

ng

Con

sign

atio

n 4.

11.1

; 4.1

0; 5

.2.4

; 5.5

.4

2

J

K

IS-00121 O1:(3002E)

24

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

Page 33: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

L

La

ngua

ge

Spr

ache

La

ngue

6.

4 2

Lang

uage

(of t

he in

stru

ctio

n ha

ndbo

ok)

Spr

ache

(der

Bet

riebs

anle

itung

) La

ngue

(de

la n

otic

e d'

inst

ruct

ions

) 6.

5.2.

b 2

Life

lim

it of

a m

achi

ne

Lebe

nsda

uer e

iner

Mas

chin

e D

urée

de

vie

d'un

e m

achi

ne

5.2

1 Li

fting

equ

ipm

ent

Heb

evor

richt

ung

Leva

ge (É

quip

emen

t de

-)

6.5.

1.a

2 Li

fting

gea

r H

ebez

eug

Leva

ge (A

ppar

eil d

e -)

5.

5.5

2

Ligh

ting

Bel

euch

tung

É

clai

rage

4.

8.6;

5.2

.1

2 Li

mit

Gre

nze

Lim

ite

3.14

; 4.9

; 5.1

.3; 5

.2

1 Li

mite

d m

ovem

ent c

ontro

l dev

ice

Sch

ritts

chal

tung

C

omm

ande

de

mar

che

par à

-cou

ps

(Dis

posi

tif d

e -)

3.

26.9

1

Lim

ited

mov

emen

t con

trol d

evic

e S

chrit

tsch

altu

ng

Com

man

de d

e m

arch

e pa

r à-c

oups

(D

ispo

sitif

de

-)

4.11

.9

2

Lim

iting

dev

ice

Beg

renz

ungs

einr

icht

ung

Lim

iteur

(Dis

posi

tif -)

3.

26.8

1

Lim

iting

dev

ice

Beg

renz

ungs

einr

icht

ung

Lim

iteur

(Dis

posi

tif -)

4.

3.a;

4.1

0; 5

.2.6

; 5.2

.7

2 Li

ve p

art (

of e

lect

rical

equ

ipm

ent )

S

pann

ungs

führ

ende

s Te

il (d

er e

lekt

risch

en

Aus

rüst

ung)

P

artie

act

ive

(de

l'équ

ipem

ent é

lect

rique

) 4.

3 1

Load

La

st

Cha

rge

3.26

.8; 4

.2.1

/.2

1 Lo

ad

Last

C

harg

e 4.

2.1;

4.3

; 4.1

1.1/

.5;

5.2.

6/.7

2

Load

ing

(feed

ing)

/ un

load

ing

(rem

oval

) op

erat

ions

B

e-/E

ntla

dear

beit

(Bes

chic

kung

s- u

nd

Ent

nahm

earb

eite

n)

Opé

ratio

ns d

e ch

arge

men

t (al

imen

tatio

n) /

déch

arge

men

t (év

acua

tion)

4.

14

2

Lubr

icat

ion

Sch

mie

rung

G

rais

sage

4.

15

2

M

Mac

hine

/ m

achi

nery

M

asch

ine

Mac

hine

3.

1 1

Mac

hine

-pow

er s

uppl

y in

terfa

ce

Sch

nitts

telle

"Mas

chin

e-En

ergi

ever

sorg

ung"

In

terfa

ce "m

achi

ne-s

ourc

es d

'éne

rgie

" 5.

2 1

Mai

ntai

nabi

lity

(of a

mac

hine

) In

stan

dhal

tbar

keit

(ein

er M

asch

ine)

M

aint

enab

ilité

(d'u

ne m

achi

ne)

3.3

1 M

aint

aina

bilit

y (o

f a m

achi

ne)

Inst

andh

altb

arke

it (e

iner

Mas

chin

e)

Mai

nten

abili

té (d

'une

mac

hine

) 4.

7; 4

.11.

12;

2 M

aint

enan

ce

Inst

andh

altu

ng

Mai

nten

ance

3.

3; 3

.31;

4.9

; 5.2

; 5.3

.a

1 M

aint

enan

ce

Inst

andh

altu

ng

Mai

nten

ance

4.

8.6;

4.1

1.9/

.10;

5.2

.4;

5.3.

1; 5

.5.4

; 5.5

.6; 6

.1.2

; 6.

5.1.

b/.e

/.h

2

Mai

nten

ance

poi

nt

War

tung

sste

lle

Mai

nten

ance

(Poi

nt d

e -)

4.

15

2 M

aint

enan

ce s

taff

Inst

andh

altu

ngsp

erso

nal

Mai

nten

ance

(Per

sonn

el d

e -)

4.11

.12;

6.5

.1.e

2

Mal

func

tion

(mal

func

tioni

ng)

Fehl

funk

tion

Dys

fonc

tionn

emen

t 3.

30; 3

.35;

5.3

.b/.c

1

Mal

func

tion

(mal

func

tioni

ng)

Fehl

funk

tion

Dys

fonc

tionn

emen

t 4.

12.1

; 5.2

.1

2

IS-00121 O1:(3002E)

25

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

Page 34: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

Man

ual c

ontro

l (fu

nctio

n)

Han

dste

ueru

ng

Com

man

de m

anue

lle (f

onct

ion)

4.

11.8

2

Mar

king

Ze

iche

n M

arqu

age

6.4

2 M

arki

ngs

Ken

nzei

chnu

ngen

In

scrip

tions

6.

4 2

Mat

eria

l W

erks

toff

/ Mat

eria

l M

atér

iau

3.1;

4.2

.1/.2

; 4.4

; 4.8

; 5.

3.b

1

Mat

eria

l W

erks

toff

Mat

éria

u 4.

2.1;

4.3

.b4.

14; 5

.2.5

.1,

5.3.

2.1/

.6; 5

.5.6

2

Max

imum

spe

ed o

f rot

atin

g pa

rts

Max

imal

e D

rehz

ahl r

otie

rend

er T

eile

Fr

éque

nce

max

imal

e de

rota

tion

des

parti

es

tour

nant

es

6.4.

c 2

Mea

sure

men

t met

hods

M

essm

etho

den

Mét

hode

s de

mes

urag

e 5.

1.6

1 M

echa

nica

l haz

ard

Mec

hani

sche

Gef

ährd

ung

Ris

que

méc

aniq

ue

4.2

1 M

echa

nica

l haz

ard

Mec

hani

sche

Gef

ährd

ung

Ris

que

méc

aniq

ue

4.2.

2; 5

.1

2 M

echa

nica

l res

train

t dev

ice

Dur

ch F

orm

schl

uß w

irken

de

Sch

utze

inric

htun

g D

ispo

sitif

de

rete

nue

méc

aniq

ue

3.26

.7

1

Mod

e se

lect

or

Bet

riebs

arte

nsch

alte

r S

élec

teur

de

mod

e 4.

11.1

0 2

Moi

stur

e Fe

ucht

e H

umid

ité

4.12

.1; 6

.5.1

.b

2 M

ovab

le e

lem

ents

/ pa

rts

Bew

eglic

he E

lem

ente

/ Te

ile

Élé

men

ts m

obile

s 4.

2.2

2 M

ovab

le g

uard

B

eweg

liche

tren

nend

e Sc

hutz

einr

icht

ung

Pro

tect

eur m

obile

3.

25; 3

.25.

2; 3

.25.

3 1

Mov

able

gua

rd

Bew

eglic

he tr

enne

nde

Schu

tzei

nric

htun

g P

rote

cteu

r mob

ile

5.3.

2.3;

Fig

. 1

2 M

utin

g ph

ase

Spe

rrph

ase

Inhi

bitio

n (P

hase

d')

5.2.

5.2

2 M

utin

g ph

ase

Spe

rrph

ase

Pha

se d

'inhi

bitio

n 5.

2.5.

2 2

N

Noi

se

Lärm

/ G

eräu

sch

Bru

it 3.

6; 3

.38;

3.3

9; 4

.5

1 N

oise

rm /

Ger

äusc

h B

ruit

4.2.

2; 4

.3.c

; 4.4

.c);

4.8.

4;

5.1;

5.2

.1; 5

.2.5

.1, 5

.3.2

.1;

5.4.

2; 6

.5.1

.c

2

Noi

se

Ger

äusc

h (s

iehe

Lär

m)

Bru

it

N

orm

al o

pera

tion

Nor

mal

er B

etrie

b Fo

nctio

nnem

ent n

orm

al

3.35

; 4.3

1

Nor

mal

ope

ratio

n N

orm

aler

Bet

rieb

Fonc

tionn

emen

t nor

mal

5.

2.1/

.2/.3

2

O

Ope

ratin

g m

odes

B

etrie

bsar

ten

M

odes

de

fonc

tionn

emen

t 5.

2; 5

.3.c

1

Ope

ratin

g m

odes

B

etrie

bsar

ten

Mod

es d

e fo

nctio

nnem

ent

4.11

.1; 4

.11.

10; 4

.14;

6.

1.1;

6.5

.1.c

) 2

Ope

ratio

n B

etrie

b Fo

nctio

nnem

ent

5.3

1 O

pera

tive

part

Bet

riebs

teil

Par

tie o

péra

tive

Ann

ex A

1

Ope

rativ

e pa

rt B

etrie

bste

il P

artie

opé

rativ

e 5.

2.5.

2.b

2

IS-00121 O1:(3002E)

26

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

Page 35: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

Ope

rato

r B

edie

ner (

Bed

ienp

erso

n)

Opé

rate

ur

3.29

; 5.2

; 5.3

.c; 5

.4; 5

.5

1 O

pera

tor

Bed

ienp

erso

n (B

edie

ner)

O

péra

teur

nu

mer

ous

occu

rrenc

es

2 O

pera

tor-m

achi

ne in

terfa

ce

Sch

nitts

telle

"Bed

ienp

erso

n-M

asch

ine"

ode

r "M

ensc

h-M

asch

ine"

In

terfa

ce "o

péra

teur

-mac

hine

" 5.

2; A

nnex

A

1

Orie

nted

failu

re m

ode

com

pone

nt

Bau

teil

mit

spez

ifizi

erte

m A

usfa

llver

halte

n C

ompo

sant

à d

éfai

llanc

e or

ient

ée

4.12

.2

2 O

verlo

adin

g (E

lect

rical

-)

Übe

rlast

(Ele

ktris

che

-)

Sur

char

ge (é

lect

rique

) 6.

5.1.

b 2

Ove

rload

ing

(Mec

hani

cal -

) Ü

berla

stun

g (M

echa

nisc

he -)

S

urch

arge

méc

aniq

ue

5.2.

7 2

Ove

rspe

ed

Übe

rdre

hzah

l S

urvi

tess

e 6.

3 2

P

P

acka

ging

V

erpa

ckun

g E

mba

llage

6.

2; 6

.5.1

; 6.5

.3.d

2

Pic

togr

am

Pik

togr

amm

P

icto

gram

me

6.4

2 P

latfo

rm

Büh

ne /

Arb

eits

bühn

e P

late

-form

e 5.

5.6

2 P

neum

atic

equ

ipm

ent

Pne

umat

isch

e A

usrü

stun

g É

quip

emen

t pne

umat

ique

4.

4; 4

.10

2 P

orta

ble

cont

rol u

nit (

teac

h pe

ndan

t) Tr

agba

re S

teue

rein

heit/

Trag

bare

s S

teue

rger

ät (S

chw

enka

rmsc

haltt

afel

) D

ispo

sitif

de

com

man

de p

orta

tif (p

enda

nt

d'ap

pren

tissa

ge)

4.11

.8.c

); 4.

11.9

2

Pos

itive

mec

hani

cal a

ctio

n M

echa

nisc

h zw

angs

läuf

ige

Wirk

ung

Act

ion

méc

aniq

ue p

ositi

ve

4.5

2 P

ositi

ve m

ode

(Con

nect

ed in

the

-)

Zwan

gslä

ufig

(ver

bund

en)

Mod

e po

sitif

(Lié

s su

ivan

t le

-) 4.

5 2

Pow

er c

ontro

l ele

men

t Le

istu

ngss

teue

rele

men

t P

réac

tionn

eur

3.29

; Ann

ex A

1

Pow

er s

uppl

y E

nerg

ieve

rsor

gung

/Ene

rgie

quel

le

Alim

enta

tion

en é

nerg

ie (S

ourc

e d'

-)

3.29

; 3.3

0; 5

.2; 5

.3.b

1

Pow

er s

uppl

y E

nerg

ieve

rsor

gung

/Ene

rgie

quel

le

Alim

enta

tion

en é

nerg

ie (S

ourc

e d'

-)

4.10

; 4.1

1.1/

.2/.5

; 5.2

.4;

5.5.

4; 6

.5.1

.b

2

Pow

er tr

ansm

issi

on e

lem

ent

Ene

rgie

über

tragu

ngse

lem

ent

Élé

men

t de

trans

mis

sion

A

nnex

A

1 P

rese

nce-

sens

ing

Anw

esen

heits

mel

dung

D

étec

tion

de p

rése

nce

3.26

.5

1 P

rese

nce-

sens

ing

Anw

esen

heits

mel

dung

D

étec

tion

de p

rése

nce

5.2.

5.1/

.3

2 P

ress

ure

sens

itive

mat

S

chal

tmat

te

Tapi

s se

nsib

le

5.2.

2; 5

.2.5

.1

2 P

reve

ntio

n of

acc

ess

Ver

hind

ern

des

Zuga

ngs

Acc

ès (P

réve

ntio

n de

l' -)

5.

3.2.

1 2

Pro

cess

cha

ngeo

ver

Um

rüst

en

Pro

cess

us d

e fa

bric

atio

n (C

hang

emen

t de

-)

5.3.

a 1

Pro

cess

cha

ngeo

ver

Um

rüst

en

Pro

cess

us d

e fa

bric

atio

n (C

hang

emen

t de

-)

4.11

.9; 5

.2.4

; 6.1

.2

2 P

rogr

amm

able

ele

ctro

nic

cont

rol s

yste

m

Pro

gram

mie

rbar

es e

lekt

roni

sche

s S

teue

rsys

tem

S

ystè

me

de c

omm

ande

éle

ctro

niqu

e pr

ogra

mm

able

4.

11.7

2

Pro

hibi

ted

usag

e

Ver

bote

ne A

nwen

dung

U

tilis

atio

n pr

oscr

ite

6.5.

1.c/

.d

2 P

rote

ctiv

e de

vice

N

icht

tren

nend

e S

chut

zein

richt

ung

Dis

posi

tif d

e pr

otec

tion

3.19

; 3.2

4; 3

.26;

Ann

ex A

1

Pro

tect

ive

devi

ce

Nic

ht tr

enne

nde

Sch

utze

inric

htun

g D

ispo

sitif

de

prot

ectio

n 4.

11.1

/.9; 4

.13;

5.1

; 5.2

; 5.

3.1/

.3; 5

.5.1

; 6.1

.1;

6.5.

1.c

2

IS-00121 O1:(3002E)

27

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

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SI

Page 36: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

Pro

tect

ive

mea

sure

S

chut

zmaß

nahm

e M

esur

e de

pré

vent

ion

3.12

; 3.1

8; 3

.19/

.29/

.31;

5.

1; 5

.3; 5

.4; 5

.5

1

Pro

tect

ive

mea

sure

S

chut

zmaß

nahm

e M

esur

e de

pré

vent

ion

num

erou

s oc

curre

nces

2

Pro

trudi

ng p

art

Vor

steh

ende

s Te

il P

ièce

sai

llant

e 4.

2.1

2

Q

R

Rad

iatio

n S

trahl

ung

Ray

onne

men

t(s)

3.38

; 4.3

/.4; 4

.7

1 R

adia

tion

Stra

hlun

g R

ayon

nem

ent(s

) 4.

2.2;

4.3

. c; 5

.2.1

; 5.

2.5.

1; 5

.3.2

.1; 5

.4.5

; 6.

5.1.

b/.c

2

Ran

ge o

f app

licat

ions

A

nwen

dung

sber

eich

U

tilis

atio

ns p

révu

es

6.5.

1.c

2 R

easo

nabl

y fo

rese

eabl

e m

isus

e V

ernü

nftig

erw

eise

vor

hers

ehba

re

Fehl

anw

endu

ng

Mau

vais

usa

ge ra

ison

nabl

emen

t pré

visi

ble

3.23

; 5.2

; 5.3

.c

1

Rea

sona

bly

fore

seea

ble

mis

use

Ver

nünf

tiger

wei

se v

orhe

rseh

bare

Fe

hlan

wen

dung

M

auva

is u

sage

rais

onna

blem

ent p

révi

sibl

e 5.

5.1;

6.1

.1; 6

.5.1

.d

2

Rec

tific

atio

n (F

ault

-)

Fehl

erbe

hebu

ng

Dép

anna

ge

4.13

2

Red

uced

spe

ed

Ver

min

derte

Ges

chw

indi

gkei

t V

itess

e (ré

duite

) 4.

11.9

2

Red

unda

ncy

Red

unda

nz

Red

onda

nce

4.12

.2; 4

.12.

3 2

Rel

evan

t haz

ard

Rel

evan

te G

efäh

rdun

g P

héno

mèn

e da

nger

eux

perti

nent

3.

7 1

Rel

iabi

lity

Zuve

rläss

igke

it Fi

abilit

é 4.

3.c;

4.8

; 4.1

2; 4

.13;

5.

2.5.

3.a

2

Rel

iabi

lity

(of a

mac

hine

) Zu

verlä

ssig

keit

(ein

er M

asch

ine)

Fi

abili

té (d

'une

mac

hine

) 3.

2 1

Res

cue

and

esca

pe (o

f a p

erso

n)

Ret

tung

und

Bef

reiu

ng (e

iner

Per

son)

S

auve

tage

et d

égag

emen

t (d'

une

pers

onne

) 5.

5.3

2 R

esid

ual r

isk

Res

trisi

ko

Ris

que

rési

duel

3.

12; 5

.4; 5

.5; f

ig. 1

1

Res

idua

l ris

k R

estri

siko

R

isqu

e ré

sidu

el

6.1.

1 2

Res

tart

/ res

tarti

ng

Wie

dera

nlau

f

Rem

ise

en m

arch

e 4.

11.1

; 4.1

1.4;

4.1

1.65

.5.2

2

Res

trict

ion

of a

cces

s Zu

gang

sbes

chrä

nkun

g A

ccès

(Res

trict

ion

de l'

-)

4.11

.9

2 R

isk

Ris

iko

Ris

que

3.11

; num

erou

s oc

curr

ence

s 1

Ris

k R

isik

o R

isqu

e nu

mer

ous

occ

urre

nces

2

Ris

k an

alys

is

Ris

ikoa

naly

se

Ana

lyse

du

risqu

e 3.

13; 3

.14

1 R

isk

asse

ssm

ent

Ris

ikob

eurte

ilung

A

ppré

ciat

ion

du ri

sque

3.

8; 3

.13;

3.3

8; 5

.1.3

1

Ris

k as

sess

men

t R

isik

obeu

rteilu

ng

App

réci

atio

n du

risq

ue

5.2.

1; 5

.2.4

; 5.5

.2

2 R

isk

com

paris

on

Ris

ikov

ergl

eich

C

ompa

rais

on d

es ri

sque

s 5.

3.c;

5.5

1

IS-00121 O1:(3002E)

28

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

Page 37: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

Ris

k es

timat

ion

Ris

ikoe

insc

hätz

ung

Est

imat

ion

du ri

sque

3.

15; 5

.3

1 R

isk

eval

uatio

n R

isik

obew

ertu

ng

Éva

luat

ion

du ri

sque

3.

13; 3

.16;

5.3

1

Ris

k re

duct

ion

Ris

ikom

inde

rung

R

éduc

tion

du ri

sque

3.

7; 3

.15;

3.1

7; 3

.18;

cl

ause

5

1

Ris

k re

duct

ion

Ris

ikom

inde

rung

R

éduc

tion

du ri

sque

4.

1; 4

.11.

1 2

S

S

afeg

uard

S

chut

zein

richt

ung

Moy

en d

e pr

otec

tion

Intro

duct

ion;

3.1

8; 3

.20;

3.

24; 5

.4

1

Saf

egua

rd

Sch

utze

inric

htun

g M

oyen

de

prot

ectio

n In

trodu

ctio

n; 4

.14,

; 5.1

; 5.

2; 5

.3; 6

.5.1

.b/.d

2

Saf

egua

rdin

g Te

chni

sche

Sch

utzm

aßna

hmen

P

rote

ctio

n 3.

18; 3

.20;

3.2

4 1

Saf

egua

rdin

g Te

chni

sche

Sch

utzm

aßna

hmen

P

rote

ctio

n 4.

1; c

laus

e 5

2 S

afet

y fu

nctio

n

Sic

herh

eits

funk

tion

Fo

nctio

n de

séc

urité

3.

28

1 S

afet

y fu

nctio

n

Sic

herh

eits

funk

tion

Fo

nctio

n de

séc

urité

4.

11.1

/.6/.7

; 4.1

2/.1

4;

5.2.

5.2;

5.3

.3; 6

.5.1

.e

2

Sca

ld

Ver

brüh

ung

Brû

lure

(par

un

liqui

de c

haud

) 4.

4 1

Sen

sitiv

e pr

otec

tive

equi

pmen

t S

ensi

tive

Sch

utze

inric

htun

g É

quip

emen

t de

prot

ectio

n se

nsib

le

3.26

.5

1 S

ensi

tive

prot

ectiv

e eq

uipm

ent

Sen

sitiv

e S

chut

zein

richt

ung

Équ

ipem

ent d

e pr

otec

tion

sens

ible

5.

2.1;

5.2

.2.d

; 5.2

.3.b

; 5.

2.5

2

Sen

sor

Sen

sor /

Meß

fühl

er

Cap

teur

3.

29; A

nnex

A

1 S

enso

r S

enso

r / M

eßfü

hler

C

apte

ur

4.11

.7.2

; 4.1

3 2

Set

ting

Ein

richt

en /

Ein

stel

len

Rég

lage

5.

3.a

1 S

ettin

g E

inric

hten

/ E

inst

elle

n R

égla

ge

4.8.

6; 4

.10;

4.1

1.9;

4.

11.1

0; 4

.15;

5.2

.4;

5.3.

2.5;

5.5

.6; 6

.1.2

; 6.

5.1.

d

2

Set

ting

(Con

trol m

ode

for -

) S

teue

rung

sart

zum

Ein

stel

len

Rég

lage

(Mod

e de

com

man

de p

our l

e -)

4.

11.9

2

Set

ting

poin

t E

inric

ht- /

Ein

stel

lung

spun

kt

Rég

lage

(Poi

nt d

e -)

4.

15

2 S

ever

ing

haza

rd

Gef

ährd

ung

durc

h A

bsch

neid

en

Ris

que

de s

ectio

nnem

ent

4.2.

1 1

She

arin

g ha

zard

G

efäh

rdun

g du

rch

Sch

eren

R

isqu

e de

cis

aille

men

t 4.

2.1;

4.2

.2

1 S

hear

ing

haza

rd

Gef

ährd

ung

durc

h S

cher

en

Ris

que

de c

isai

llem

ent

4.2.

1; 5

.2.1

; 5.3

.2.6

2

Sig

nal

Sig

nal

Sig

nal

3.21

; 4.5

1

Sig

nal

Sig

nal

Sig

nal

4.8.

1; 5

.2.7

; 6.1

/.2/.3

; 6.

5.1.

b 2

Sig

nific

ant h

azar

d S

igni

fikan

te G

efäh

rdun

g P

héno

mèn

e da

nger

eux

sign

ifica

tif

3.7;

3.8

; 4.1

; 4.1

1 1

Sire

n S

irene

S

irène

6.

3 2

IS-00121 O1:(3002E)

29

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

Bou

ght b

y M

r. E

lefth

erio

s A

rvan

itaki

s,A

grot

echn

ic C

rete

S.A

.,on

22/0

9/20

10 1

2:33

Lat

est v

ersi

on. N

ot to

be

dist

ribut

ed/n

etw

orke

d. F

or m

ulti-

user

acc

ess

ww

w.b

sigr

oup.

com

/lice

nse

© B

SI

Page 38: Incorporating January 2004 Safety of machinery — Basic ...agrotechnic.it/files/certificazione_iso_2003_1.pdf · BRITISH STANDARD BS EN ISO 12100-1:2003 +A1:2009 Incorporating January

Slip

ping

haz

ard

Gef

ährd

ung

durc

h A

usru

tsch

en

Ris

que

de g

lissa

de

4.10

1

Slip

ping

haz

ard

Gef

ährd

ung

durc

h A

usru

tsch

en

Ris

que

de g

lissa

de

5.5.

6 2

Sof

twar

e S

oftw

are

Logi

ciel

3.

32; 5

.3

1 S

oftw

are

Sof

twar

e Lo

gici

el

4.11

.7.3

/.4

2 S

oftw

are

(Acc

ess

to th

e -)

S

oftw

are

(Zug

riff a

uf d

ie -)

Lo

gici

el (A

ccès

au

-)

4.11

.7.4

2

Spa

ce li

mit

Räu

mlic

he G

renz

e Li

mite

dan

s l'e

spac

e 3.

26.8

; 5.2

1

Spe

ed

Ges

chw

indi

gkei

t V

itess

e 4.

11.1

; 4.1

1.9;

5.2

.7; 6

.4.c

2 S

tabb

ing

/ pun

ctur

e ha

zard

G

efäh

rdun

g du

rch

Dur

chst

ich

/ Ein

stic

h R

isqu

e de

per

fora

tion

/ piq

ûre

4.2.

1 1

Sta

bilit

y S

tand

fest

igke

it / S

tand

sich

erhe

it S

tabi

lité

4.2.

2 1

Sta

bilit

y S

tand

fest

igke

it / S

tand

sich

erhe

it S

tabi

lité

4.6;

5.2

.6

2 S

tairs

Tr

eppe

n E

scal

iers

5.

5.6

2 S

tatic

ele

ctric

ity

Sta

tisch

e E

lekt

rizitä

t É

lect

ricité

sta

tique

4.

12.1

2

Sto

ppin

g S

tills

etze

n M

ise

à l'a

rrêt

4.

11.1

/.3/.6

; 5.2

.5.1

; 6.

5.1.

d 2

Sto

rage

(of a

mac

hine

) La

geru

ng (e

iner

Mas

chin

e)

Sto

ckag

e (d

'une

mac

hine

) 6.

5.1.

a 2

Stre

ss (E

nviro

nmen

tal -

) U

mw

eltb

eans

pruc

hung

C

ontra

inte

d'e

nviro

nnem

ent

4.12

.1

2 S

tress

(hum

an -)

S

tress

S

tress

4.

5; 4

.9

1 S

tress

(hum

an -)

S

tress

S

tress

4.

8.1

2 S

tress

(Mec

hani

cal -

) M

echa

nisc

he B

eans

pruc

hung

C

ontra

inte

méc

aniq

ue

4.3.

a; 5

.2.7

2

Sym

bol

Sym

bol

Sym

bole

3.

21; 5

.1; 5

.4

1 S

ymbo

l (in

the

inst

ruct

ion

hand

book

) S

ymbo

l (in

der

Bet

riebs

anle

itung

) S

ymbo

le (d

ans

la n

otic

e d'

inst

ruct

ions

) 6.

5.2.

a 2

T

Te

ach

pend

ant (

porta

ble

cont

rol u

nit)

Sch

wen

karm

scha

lttaf

el (T

ragb

are

Ste

uere

inhe

it / T

ragb

ares

Ste

uerg

erät

) P

enda

nt d

'app

rent

issa

ge (d

ispo

sitif

de

com

man

de p

orta

tif)

4.11

.8.c

/.e

2

Teac

hing

(pro

gram

min

g)

Teac

hen

/ Pro

gram

mie

ren

App

rent

issa

ge (p

rogr

amm

atio

n)

5.3.

a 1

Teac

hing

(pro

gram

min

g)

Teac

hen

/ Pro

gram

mie

ren

App

rent

issa

ge (p

rogr

amm

atio

n)

4.11

.9; 5

.2.4

; 6.1

.2

2 Th

erm

al h

azar

d Th

erm

isch

e G

efäh

rdun

g R

isqu

e th

erm

ique

4.

4 1

Trai

ning

A

usbi

ldun

g Fo

rmat

ion

Intro

duct

ion;

3.1

8; fi

g 1

1 Tr

aini

ng

Aus

bild

ung

Form

atio

n In

trodu

ctio

n; 6

.1.1

; 6.5

.1.d

2 Tr

ansp

ort

Tran

spor

t Tr

ansp

ort

5.3

1 Tr

ansp

ort

Tran

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IS-00121 O1:(3002E)

30

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U

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IS-00121 O1:(3002E)

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X

Y

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IS-00121 O1:(3002E)

32

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Bibliography

[1] ISO/IEC Guide 51:1999, Safety aspects — Guidelines for their inclusion in standards.

[2] ISO 11689, Acoustics — Procedure for the comparison of noise-emission data for machinery and equipment.

[3] ISO 13850, Safety of machinery — Emergency stop — Principles for design.

[4] ISO 13851, Safety of machinery — Two-hand control devices — Functional aspects and design principles.

[5] ISO 14118: 2000, Safety of machinery — Prevention of unexpected start-up.

[6] ISO 14119, Safety of machinery — Interlocking devices associated with guards — Principles for design and selection.

[7] ISO 14120, Safety of machinery — Guards — General requirements for the design and construction of fixed and movable guards.

[8] ISO 14121: 1999, Safety of machinery — Principles for risk assessment.

[9] IEC 60204-1:1997, Safety of machinery — Electrical equipment of machines — Part 1: General requirements.

[10] IEC 61496-2, Safety of machinery — Electro-sensitive protective equipment — Part 2: Particular requirements for equipment using active opto-electronic protective devices (AOPDs).

[11] IEV 191 see IEC 60050-191, International Electrotechnical Vocabulary — Chapter 191: Dependability and quality of service.

IS-00121 O1:(3002E)

33

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34

Annex ZA (informative)

Equivalence between the ISO standards and the European standards

ISO Reference EN Reference Title

ISO 11689:1996 EN ISO 11689:1996 Acoustics — Procedure for the comparison of noiseemission data for machinery and equipment

ISO 12100-2:2003 EN ISO 12100-2:2003 Safety of machinery — Basic concepts, general principles for design — Part 2:Technical principles

ISO 13850 EN ISO 13850 Safety of machinery — Emergency stop — Principles for design

ISO 13851:2002 EN 574:1996+A1:2008 Safety of machinery — Two-hand control devices — Functional aspects and design principles

ISO 14118:2000 EN 1037:1995+A1:2008 Safety of machinery — Prevention of unexpected start-up

ISO 14119:1998 EN 1088:1995 Safety of machinery — Interlocking devices associated with guard — Principles for design and selection

ISO 14120:2002 EN 953:1997 Safety of machinery — Guards — General requirements for the design and construction of fixed and movable guards

ISO 14121-1:2007 EN ISO 14121-1:2007 Safety of machinery — Principles of risk assessment

IEC 60204-1:1997 EN 60204-1:1997 Safety of machinery — Electrical equipment of machines — Part 1: General requirements

IEC 61496-2 CLC/TS 61496-2 Safety of machinery — Electro-sensitive protective equipment — Part 2: Particular requirements for equipment using active opto-electronic protective devices (AOPDs)

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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Annex ZB (informative)

Relationship between this International Standard and the Essential Requirements of EU Directive 98/37/EC

This International Standard has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association to provide a means of conforming to Essential Requirements of the New Approach Directive 98/37/EC. Once this standard is cited in the Official Journal of the European Communities under that Directive and has been implemented as a national standard in at least one Member State, compliance with the normative clauses of this standard confers, within the limits of the scope of this standard, a presumption of conformity with the relevant Essential Requirements of that Directive and associated EFTA regulations. WARNING: Other requirements and other EU Directives may be applicable to the products falling within the scope of this standard.

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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36

Annex ZC (informative)

Relationship between this International Standard and the Essential Requirements of EU Directive 2006/42/EC

This International Standard has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association to provide one means of conforming to Essential Requirements of the New Approach Directive 2006/42/EC on machinery. Once this standard is cited in the Official Journal of the European Communities under that Directive and has been implemented as a national standard in at least one Member State, compliance with the normative clauses of this standard confers, within the limits of the scope of this standard, a presumption of conformity with the relevant Essential Requirements of that Directive and associated EFTA regulations. WARNING: Other requirements and other EU Directives may be applicable to the product(s) falling within the scope of this standard.

BS EN ISO 12100-1:2003+A1:2009EN ISO 12100-1:2003+A1:2009

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