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- Machinery Directive
- History of the Machinery Directive 2006/42/EC
- Machinery directive 2006/42/EC
- Whereas of machinery directive 2006/42/EC
- Articles of machinery directive 2006/42/EC
- Article 1 of machinery directive 2006/42/EC - Scope
- Article 2 of machinery directive 2006/42/EC - Definitions
- Article 3 : Specific Directives of machinery directive 2006/42/EC
- Article 4 : Market surveillance of machinery directive 2006/42/EC
- Article 5 : Placing on the market and putting into service - machinery directive 2006/42/EC
- Article 6 : Freedom of movement - machinery directive 2006/42/EC
- Article 7 : Presumption of conformity and harmonised standards - machinery directive 2006/42/EC
- Article 8 : Specific measures - machinery directive 2006/42/EC
- Article 9 : Specific measures to deal with potentially hazardous machinery - machinery directive 2006/42/EC
- Article 10 : Procedure for disputing a harmonised standard - machinery directive 2006/42/EC
- Article 11 : Safeguard clause - machinery directive 2006/42/EC
- Article 12 : Procedures for assessing the conformity of machinery - machinery directive 2006/42/EC
- Article 13 : Procedure for partly completed machinery - 2006/42/EC
- Article 14 : Notified bodies - machinery directive 2006/42/EC
- Article 15 : Installation and use of machinery - machinery directive 2006/42/EC
- Article 16 : CE marking - machinery directive 2006/42/EC
- Article 17 : Non-conformity of marking - machinery directive 2006/42/EC
- Article 18 : Confidentiality - machinery directive 2006/42/EC
- Article 19 : Cooperation between Member States - machinery directive 2006/42/EC
- Article 20 : Legal remedies - machinery directive 2006/42/EC
- Article 21 : Dissemination of information - machinery directive 2006/42/EC
- Article 22 : Committee - machinery directive 2006/42/EC
- Article 23 : Penalties - machinery directive 2006/42/EC
- Article 24 : Amendment of Directive 95/16/EC - machinery directive 2006/42/EC
- Article 25 : Repeal - machinery directive 2006/42/EC
- Article 26 : Transposition - machinery directive 2006/42/EC
- Article 27 : Derogation - machinery directive 2006/42/EC
- Article 28 : Entry into force - machinery directive 2006/42/EC
- Article 29 : Addressees - machinery directive 2006/42/EC
- ANNEX I of machinery directive 2006/42/EC - Summary
- GENERAL PRINCIPLES of annex 1 of machinery directive 2006/42/EC
- 1 ESSENTIAL HEALTH AND SAFETY REQUIREMENTS of annex 1 - definitions - machinery directive 2006/42/EC
- Article 1.1.2. Principles of safety integration of annex 1 machinery directive 2006/42/EC
- Article 1.1.3. Materials and products annex 1 machinery directive 2006/42/EC
- Article 1.1.4. Lighting - annex 1 machinery directive 2006/42/EC
- Article 1.1.5. Design of machinery to facilitate its handling - annex 1 machinery directive 2006/42/EC
- Article 1.1.6. Ergonomics - annex 1 machinery directive 2006/42/EC
- Article 1.1.7. Operating positions - annex 1 machinery directive 2006/42/EC
- Article 1.1.8. Seating - annex 1 machinery directive 2006/42/EC
- Article 1.2.1. Safety and reliability of control systems - annex 1 of machinery directive 2006/42/EC
- Article 1.2.2. Control devices - annex 1 of machinery directive 2006/42/EC
- Article 1.2.3. Starting - annex 1 of machinery directive 2006/42/EC
- Article 1.2.4. Stopping - annex 1 of machinery directive 2006/42/EC
- Article 1.2.4.4. Assembly of machinery - Annex 1 of machinery directive 2006/42/EC
- Article 1.2.5. Selection of control or operating modes - annex 1 of machinery directive 2006/42/EC
- Article 1.2.6. Failure of the power supply - annex 1 of machinery directive 2006/42/EC
- Article 1.3. PROTECTION AGAINST MECHANICAL HAZARDS - annex 1 of machinery directive 2006/42/EC
- Article 1.4. REQUIRED CHARACTERISTICS OF GUARDS AND PROTECTIVE DEVICES - annex 1 of machinery directive 2006/42/EC
- Article 1.5. RISKS DUE TO OTHER HAZARDS - annex 1 of machinery directive 2006/42/EC
- Article 1.6. MAINTENANCE - annex 1 of machinery directive 2006/42/EC
- Article 1.7. INFORMATION - annex 1 of machinery directive 2006/42/EC
- Article 2. SUPPLEMENTARY ESSENTIAL HEALTH AND SAFETY REQUIREMENTS - annex 1 machinery directive 2006/42/EC
- Article 3. SUPPLEMENTARY ESSENTIAL HEALTH TO THE MOBILITY OF MACHINERY - annex 1 machinery directive 2006/42/EC
- Article 4. SUPPLEMENTARY REQUIREMENTS TO OFFSET HAZARDS DUE TO LIFTING OPERATIONS of machinery directive 2006/42/EC
- Article 5. SUPPLEMENTARY ESSENTIAL HEALTH AND SAFETY REQUIREMENTS FOR UNDERGROUND WORK of machinery directive 2006/42/EC
- Article 6. SUPPLEMENTARY REQUIREMENTS - HAZARDS DUE TO THE LIFTING OF PERSONS of machinery directive 2006/42/EC
- Annex II : Declarations of CONFORMITY OF THE MACHINERY, DECLARATION OF INCORPORATION - machinery directive 2006/42/EC
- Annex III of machinery directive 2006/42/EC - CE marking
- Annex IV of machinery directive 2006/42/EC
- Annex V of machinery directive 2006/42/EC
- Annex VI of machinery directive 2006/42/EC
- Annex VII - Technical file for machinery - machinery directive 2006/42/EC
- Annex VIII - Assessment of conformity of machinery directive 2006/42/EC
- Annex IX of machinery directive 2006/42/EC - EC type-examination
- Annex X of machinery directive 2006/42/EC - Full quality assurance
- Annex XI of machinery directive 2006/42/EC - Minimum criteria for the notification of bodies
- Annex XII of machinery directive 2006/42/EC - Correlation table between machinery directive 2006/42/CE and MD 1998/37/CE
- Machinery directive 1998/37/EC
- considerings of machinery directive 1998/37/CE
- articles of 1998/37/EC machinery directive
- Annex I of 1998/37/CE machinery directive
- Annex II of 1998/37/EC machinery directive
- Annex III of machinery directive 1998/37/CE
- Annex IV of machine directive 1998/37/EC
- Annex V of machines directive 1998/37/CE
- Annex VI of machines directive 1998/37/EC
- Annex VII of machines directive 1998/37/EC
- Annex VIII of 1998/37/CE machine directive
- Annex IX of machinery directive 1998/37/CE
- Machinery directive 1989/392/EC
- whereas of machinery directive machines 1989/392/EEC
- articles of machinery directive 1989/392/EEC
- Annex I of machinery directive 1989/392/EEC
- Annex II of machine directive 1989/392/EEC
- Annex III of machinery directive 1989/392/EEC
- Annex IV of machinery directive 1989/392/EEC
- Annex V of machinery directive 1989/392/EEC
- Annex VI of machine directive 1989/392/EEC
- Annexe VII of machinery directive 1989/392/EEC
- Amendments of 1989/392/EEC directive
- ATEX directives
- ATEX 94/9/EC directive
- Whereas of ATEX 94/9/CE directive
- Articles of ATEX 94/9/CE directive
- article 1 ATEX 94/9/EC directive
- article 2 ATEX 94/9/EC directive
- article 3 ATEX 94/9/EC directive
- article 4 : ATEX 94/9/EC directive
- article 5 : ATEX 94/9/EC directive
- article 6 : ATEX 94/9/EC directive
- article 7 : ATEX 94/9/EC directive
- article 8 ATEX 94/9/EC directive
- article 9 : ATEX 94/9/EC directive
- article 10 : ATEX 94/9/EC directive
- article 11 : ATEX 94/9/EC directive
- article 12 : ATEX 94/9/EC directive
- article 13 : ATEX 94/9/EC directive
- article 14 : ATEX 94/9/EC directive
- article 15 : ATEX 94/9/EC directive
- article 16 : ATEX 94/9/EC directive
- ANNEX I of ATEX 94/9/EC directive : CRITERIA DETERMINING THE CLASSIFICATION OF EQUIPMENT-GROUPS INTO CATEGORIES
- ANNEX II of ATEX 94/9/EC : directive ESSENTIAL HEALTH AND SAFETY REQUIREMENTS -EHSR
- ANNEX III of ATEX 94/9/EC directive : MODULE EC-TYPE EXAMINATION
- ANNEX IV of ATEX 94/9/EC directive : MODULE PRODUCTION QUALITY ASSURANCE
- ANNEX V of ATEX 94/9/EC directive : MODULE PRODUCT VERIFICATION
- ANNEX VI of ATEX 94/9/EC directive : MODULE CONFORMITY TO TYPE
- ANNEX VII of ATEX 94/9/EC directive : MODULE PRODUCT QUALITY ASSURANCE
- ANNEX VIII of ATEX 94/9/EC directive : MODULE INTERNAL CONTROL OF PRODUCTION
- ANNEX IX of ATEX 94/9/EC directive : MODULE UNIT VERIFICATION
- ANNEX X of ATEX 94/9/EC directive : CE Marking - Content of the EC declaration of conformity
- ANNEX XI of ATEX 94/9/EC directive: NOTIFICATION OF BODIES
- ATEX 99/92/EC Directive
- ATEX DIRECTIVE 2014/34/UE
- whereas of 2014/34/UE ATEX directive
- Articles of ATEX 2014/34/UE directive
- Annex 1 of ATEX 2014/34/UE directive
- Annex 2 of the ATEX 2014/34/UE directive
- Annex 3 of ATEX 2014/34/UE directive
- Annex 4 of ATEX 2014/34/UE directive
- Annex 5 of ATEX 2014/34/UE directive
- Annex 6 of ATEX 2014/34/UE directive
- Annex 7 of ATEX 94/9/EC directive
- Annex 8 of the ATEX 2014/34/UE directive
- Annex 9 of the ATEX 2014/34/UE directive
- Annex 10 of ATEX 2014/34/UE directive
- Annex 11 of ATEX 2014/34/UE directive
- Annex 12 of the ATEX 2014/34/UE directive
- Audits in Ex field - EN 13980, OD 005 and EN ISO/CEI 80079-34
- New ATEX directive
- RASE european project
- ATEX 94/9/EC directive
- IECEX
- Standardization & European Regulation
- Safety of machines : Standardization and European regulations
- European regulation for machines - standardization for machines - harmonized standards
- Standardization in machinery
- EN ISO 12100 - Décembre 2010
- EN ISO 12100-1 - January 2004
- EN ISO 12100-1:2003/A1
- EN ISO 12100-2 November 2003
- EN ISO 12100-2:2003/A1
- EN ISO 14121-1 September 2007
- ISO/TR 14121-2 - 2007
- EN 50205:2002 standard - Relays with forcibly guided (mechanically linked) contacts
- ISO 11161:2007
- ISO 13849-1:2006
- ISO 13849-2:2012
- ISO 13850:2006 - Safety of machinery -- Emergency stop -- Principles for design
- ISO 13851:2002 - Safety of machinery -- Two-hand control devices -- Functional aspects and design principles
- ISO 13854:1996 Safety of machinery - Minimum gaps to avoid crushing of parts of the human body
- ISO 13855:2010 - Safety of machinery -- Positioning of safeguards with respect to the approach speeds of parts of the human body
- ISO 13856-1:2013 Safety of machinery -- Pressure-sensitive protective devices -- Part 1: General principles
- ISO 13856-2:2013 - Safety of machinery -- Pressure-sensitive protective devices -- Part 2: General principles for design testing
- ISO 13856-3:2013 Safety of machinery -- Pressure-sensitive protective devices - Part 3: General principles for design
- ISO 13857:2008 Safety of machinery -- Safety distances to prevent hazard zones
- ISO 14118:2000 - Safety of machinery -- Prevention of unexpected start-up
- ISO 14119:2013- Interlocking devices associated with guards
- ISO 14120:2002 - Guards -- General requirements for the design and construction
- ISO 14122-1:2001 - Permanent means of access to machinery
- ISO 14122-2:2001 - Permanent means of access to machinery
- ISO 14122-4:2004 - Permanent means of access to machinery
- ISO 14123-1:1998 - Reduction of risks to health from hazardous substances emitted by machinery
- ISO 14123-2:1998 - Reduction of risks to health from hazardous substances emitted by machinery
- ISO 14159:2002 - Hygiene requirements for the design of machinery
- ISO 19353:2005 -- Fire prevention and protection
- ISO/AWI 17305 - Safety of machinery - Safety functions of control systems
- ISO/DTR 22100-2 - Safety of machinery -- Part 2: How ISO 12100 relates to ISO 13849-1
- ISO/TR 14121-2:2012 - Risk assessment - Part 2: Practical guidance
- ISO/TR 18569:2004 - Guidelines for the understanding and use of safety of machinery standards
- ISO/TR 23849:2010 - Guidance on the application of ISO 13849-1 and IEC 62061 in the design of safety-related control systems
- STABILITY DATES FOR Machinery STANDARDS
- harmonized standards list - machinery-directive 2006/42/CE
- Publication of harmonised standards for machinery directive 2006/42/EC - 9.3.2018
- Harmonized standard list - machinery directive 2006/42/EC - 9.6.2017
- Harmonized standards for machinery - OJ C 2016/C173/01 of 15/05/2016
- Harmonized standards for machinery -OJ C 2016/C14/102 of 15/01/2016
- Harmonized standards for machinery - corrigendum OJ C 2015/C 087/03 of 13/03/2015
- harmonized standards for machinery - OJ C 2015/C 054/01 of 13/02/2015
- Application guide for machinery directive 2006/42/EC
- Guide to application of the machinery directive 2006/42/CE - July 2017
- Guide to application of the Machinery Directive 2006/42/EC - second edition June 2010
- Guide to application of machinery directive - 1-2 : The citations
- Guide to application of machinery directive - § 3 to § 31 The Recitals
- Guide to application of machinery directive - § 32 to § 156 - The Articles
- Guide to application of machinery directive - § 157 to § 381 - Annex I
- Guide to application of machinery directive - § 382 to § 386 - ANNEX II Declarations
- Guide to application of machinery directive - § 387 - ANNEX III CE marking
- recommendation for use - machinery directive 2006/42/EC
- Notified bodies under the machinery directive 2006/42/CE
- Safety of Ex, ATEX and IECEx equipments : Standardization
- Standardization in Ex Field
- The transposition of the ATEX 94/9/EC Directive to the 2014/34/EU directive
- harmonized standards list - ATEX directive 2014/34/EU
- Harmonized standard list for ATEX 2014/34/UE - 12-10-2018
- Harmonized standard list for ATEX 2014/34/UE - 15.6.2018
- Harmonized standard list for ATEX 2014/34/UE - 12-07-2019
- Harmonized standard list for ATEX 2014/34/UE - 9.6.2017
- Harmonized standards list ATEX 2014/34/UE directive - OJ C 126 - 08/04/2016
- Guide to application of the ATEX Directive 2014/34/EU
- application guide of 2014/34/EU directive - preambule, citations and recitals
- Guide to application of the ATEX 2014/34/UE directive - THE ARTICLES OF THE ATEX DIRECTIVE
- Guide to application of the ATEX 2014/34/UE directive - ANNEX I CLASSIFICATION INTO CATEGORIES
- Guide to application of the ATEX 2014/34/UE directive - ANNEX II ESSENTIAL HEALTH AND SAFETY REQUIREMENTS
- Guide to application of the ATEX 2014/34/UE directive - ANNEX III MODULE B: EU-TYPE EXAMINATION
- Guide to application of the ATEX 2014/34/UE directive - ANNEX IV MODULE D: CONFORMITY TO TYPE
- Guide to application of machinery directive - § 388 - ANNEX IV machinery and mandatory certification
- Guide to application of the ATEX 2014/34/UE directive - ANNEX V MODULE F: CONFORMITY TO TYPE
- Alignment of ten technical harmonisation directives - Decision No 768/2008/EC
- ATEX 94/9/EC directive documents
- ATEX 94/9/EC guidelines
- ATEX 94/9/EC guidelines 4th edition
- 1 INTRODUCTION of ATEX 94/9/EC guidelines 4th edition
- 2 OBJECTIVE OF THE ATEX DIRECTIVE 94/9/EC - ATEX 94/9/EC guidelines 4th edition
- 3 GENERAL CONCEPTS of ATEX 94/9/EC directive ATEX 94/9/EC guidelines 4th edition
- 4 IN WHICH CASES DOES DIRECTIVE 94/9/EC APPLY - ATEX 94/9/EC guidelines 4th edition
- 5 EQUIPMENT NOT IN THE SCOPE OF DIRECTIVE 94/9/EC - ATEX 94/9/EC guidelines 4th edition
- 6 APPLICATION OF DIRECTIVE 94/9/EC ALONGSIDE OTHERS THAT MAY APPLY - ATEX 94/9/EC guidelines 4th edition
- 7 USED, REPAIRED OR MODIFIED PRODUCTS AND SPARE PARTS - ATEX 94/9/EC guidelines 4th edition
- 8 CONFORMITY ASSESSMENT PROCEDURES - ATEX 94/9/EC guidelines 4th edition
- 9 NOTIFIED BODIES - ATEX 94/9/EC guidelines 4th edition
- 10 DOCUMENTS OF CONFORMITY - ATEX 94/9/EC guidelines 4th edition
- 11 MARKING - CE marking -ATEX 94/9/EC guidelines 4th edition
- 12 SAFEGUARD CLAUSE AND PROCEDURE - ATEX 94/9/EC guidelines 4th edition
- 13 EUROPEAN HARMONISED STANDARDS - ATEX 94/9/EC guidelines 4th edition
- 14 USEFUL WEBSITES - ATEX 94/9/EC guidelines 4th edition
- ANNEX I: SPECIFIC MARKING OF EXPLOSION PROTECTION - ATEX 94/9/EC guidelines 4th edition
- ANNEX II: BORDERLINE LIST - ATEX PRODUCTS - ATEX 94/9/EC guidelines 4th edition
- ATEX 94/9/EC guidelines 4th edition
- Harmonized standards list - ATEX 94/9/EC directive
- Harmonized standards list ATEX 94/9/EC directive - OJ C 126 - 08/04/2016
- Harmonized standards list ATEX 94/9/EC - OJ C 335 - 09/10/2015
- Harmonized standards list ATEX 94/9/EC - OJ-C 445-02 - 12/12/2014
- Harmonized standards list ATEX 94/9/EC - OJ-C 076-14/03/2014
- Harmonized standards list ATEX 94/9/EC - OJ-C 319 05/11/2013
- ATEX 94/9/EC guidelines
- European regulation for ATEX 94/9/EC ATEX directive
- Guide to application of ATEX 2014/34/EU directive second edition
- Safety of machines : Standardization and European regulations
- Latest news & Newsletters
- Functional safety
- Terms and definitions for functional safety
- Safety devices in ATEX
- The SAFEC project
- main report of the SAFEC project
- Appendix 1 of the SAFEC project - guidelines for functional safety
- Appendix 2 of the SAFEC project
- ANNEX A - SAFEC project - DERIVATION OF TARGET FAILURE MEASURES
- ANNEX B - SAFEC project - ASSESSMENT OF CURRENT CONTROL SYSTEM STANDARDS
- ANNEX C - safec project - IDENTIFICATION OF “USED SAFETY DEVICES”
- Annex D - SAFEC project - study of ‘ Used Safety Devices’
- Annex E - Determination of a methodology for testing, validation and certification
- EN 50495 standard for safety devices
- The SAFEC project
- Safety components in Machinery
- STSARCES - Standards for Safety Related Complex Electronic Systems
- STSARCES project - final report
- STSARCES - Annex 1 : Software engineering tasks - Case tools
- STSARCES - Annex 2 : tools for Software - fault avoidance
- STSARCES - Annex 3 : Guide to evaluating software quality and safety requirements
- STSARCES - Annex 4 : Guide for the construction of software tests
- STSARCES - Annex 5 : Common mode faults in safety systems
- STSARCES - Annex 6 : Quantitative Analysis of Complex Electronic Systems using Fault Tree Analysis and Markov Modelling
- STSARCES - Annex 7 : Methods for fault detection
- STSARCES - Annex 8 : Safety Validation of Complex Components - Validation by Analysis
- STSARCES - Annex 9 : safety Validation of complex component
- STSARCES - Annex 10 : Safety Validation of Complex Components - Validation Tests
- STSARCES - Annex 11 : Applicability of IEC 61508 - EN 954
- STSARCES - Annex 12 : Task 2 : Machine Validation Exercise
- STSARCES - Annex 13 : Task 3 : Design Process Analysis
- STSARCES - Annex 14 : ASIC development and validation in safety components
- Functional safety in machinery - EN 13849-1 - Safety-related parts of control systems
- STSARCES - Standards for Safety Related Complex Electronic Systems
- History of standards for functional safety in machinery
- Basic safety principles - Well-tried safety principles - well tried components
- Functional safety - detection error codes - CRC and Hamming codes
- Functional safety - error codes detection - parity and chechsum
- Functional safety and safety fieldbus
- ISO 13849-1 and SISTEMA
- Prevention of unexpected start-up and machinery directive
- Self tests for micro-controllers
- Validation by analysis of complex safety systems
- basic safety principles - safety relays for machinery
- Download center
- New machinery regulation
- Revision of machinery directive 2006/42/EC
- security for machines
Annex 2 of the ATEX 2014/34/UE directive
ANNEX II : ESSENTIAL HEALTH AND SAFETY REQUIREMENTS RELATING TO THE DESIGN AND CONSTRUCTION OF EQUIPMENT AND PROTECTIVE SYSTEMS INTENDED FOR USE IN POTENTIALLY EXPLOSIVE ATMOSPHERES
Preliminary observations
A. Technological knowledge, which can change rapidly, must be taken into account as far as possible and be utilised immediately.
B. For the devices referred to in point (b) of Article 1(1), the essential health and safety requirements shall apply only in so far as they are necessary for the safe and reliable functioning and operation of those devices with respect to the risks of explosion.
1. Common requirements for Equipment and protective systems
1.0. General requirements
1.0.1. Principles of integrated explosion safety
Equipment and protective systems intended for use in potentially explosive atmospheres must be designed from the point of view of integrated explosion safety.
In this connection, the manufacturer must take measures:
— above all, if possible, to prevent the formation of explosive atmospheres which may be produced or released by equipment and by protective systems themselves,
— to prevent the ignition of explosive atmospheres, taking into account the nature of every electrical and non-electrical source of ignition,
— should an explosion nevertheless occur which could directly or indirectly endanger persons and, as the case may be, domestic animals or property, to halt it immediately and/or to limit the range of explosion flames and explosion pressures to a sufficient level of safety.
1.0.2. Equipment and protective systems must be designed and manufactured after due analysis of possible operating faults in order as far as possible to preclude dangerous situations.
Any misuse which can reasonably be anticipated must be taken into account.
1.0.3. Special checking and maintenance conditions
Equipment and protective systems subject to special checking and maintenance conditions must be designed and constructed with such conditions in mind.
1.0.4. Surrounding area conditions
Equipment and protective systems must be so designed and constructed as to be capable of coping with actual or foreseeable surrounding area conditions.
1.0.5. Marking
All equipment and protective systems must be marked legibly and indelibly with the following minimum particulars:
— name, registered trade name or registered trade mark, and address of the manufacturer,
— CE marking (see Annex II to Regulation (EC) No 765/2008),
— designation of series or type,
— batch or serial number, if any,
— year of construction,
— the specific marking of explosion protection followed by the symbol of the equipment-group and category,
— for equipment-group II, the letter ‘G’ (concerning explosive atmospheres caused by gases, vapours or mists),
and/or
— the letter ‘D’ (concerning explosive atmospheres caused by dust).
Furthermore, where necessary, they must also be marked with all information essential to their safe use.
1.0.6. Instructions
(a) All equipment and protective systems must be accompanied by instructions, including at least the following particulars:
— a recapitulation of the information with which the equipment or protective system is marked, except for the batch or serial number (see point 1.0.5), together with any appropriate additional information to facilitate maintenance (e.g. address of the repairer, etc.);
— instructions for safe:
— putting into service,
— use,
— assembling and dismantling,
— maintenance (servicing and emergency repair),
— installation,
— adjustment;
— where necessary, an indication of the danger areas in front of pressure-relief devices;
— where necessary, training instructions;
— details which allow a decision to be taken beyond any doubt as to whether an item of equipment in a specific category or a protective system can be used safely in the intended area under the expected operating conditions;
— electrical and pressure parameters, maximum surface temperatures and other limit values;
— where necessary, special conditions of use, including particulars of possible misuse which experience has shown might occur;
— where necessary, the essential characteristics of tools which may be fitted to the equipment or protective system.
(b) The instructions must contain the drawings and diagrams necessary for the putting into service, maintenance, inspection, checking of correct operation and, where appropriate, repair of the equipment or protective system, together with all useful instructions, in particular with regard to safety.
(c) Literature describing the equipment or protective system must not contradict the instructions with regard to safety aspects.
1.1. Selection of materials
1.1.1. The materials used for the construction of equipment and protective systems must not trigger off an explosion, taking into account foreseeable operational stresses.
1.1.2. Within the limits of the operating conditions laid down by the manufacturer, it must not be possible for a reaction to take place between the materials used and the constituents of the potentially explosive atmosphere which could impair explosion protection.
1.1.3. Materials must be so selected that predictable changes in their characteristics and their compatibility in combination with other materials will not lead to a reduction in the protection afforded; in particular, due account must be taken of the material’s corrosion and wear resistance, electrical conductivity, mechanical strength, ageing resistance and the effects of temperature variations.
1.2. Design and construction
1.2.1. Equipment and protective systems must be designed and constructed with due regard to technological knowledge of explosion protection so that they can be safely operated throughout their foreseeable lifetime.
1.2.2. Components to be incorporated into or used as replacements in equipment and protective systems must be so designed and constructed that they function safely for their intended purpose of explosion protection when they are installed in accordance with the manufacturer’s instructions.
1.2.3. Enclosed structures and prevention of leaks
Equipment which may release flammable gases or dusts must wherever possible employ enclosed structures only.
If equipment contains openings or non-tight joints, these must as far as possible be designed in such a way that releases of gases or dusts cannot give rise to explosive atmospheres outside the equipment.
Points where materials are introduced or drawn off must, as far as possible, be designed and equipped so as to limit releases of flammable materials during filling or draining.
1.2.4. Dust deposits
Equipment and protective systems which are intended to be used in areas exposed to dust must be so designed that deposit dust on their surfaces is not ignited.
In general, dust deposits must be limited where possible. Equipment and protective systems must be easily cleanable.
The surface temperatures of equipment parts must be kept well below the glow temperature of the deposit dust.
The thickness of deposit dust must be taken into consideration and, if appropriate, means must be taken to limit the temperature in order to prevent a heat build up.
1.2.5. Additional means of protection
Equipment and protective systems which may be exposed to certain types of external stresses must be equipped, where necessary, with additional means of protection.
Equipment must withstand relevant stresses, without adverse effect on explosion protection.
1.2.6. Safe opening
If equipment and protective systems are in a housing or a locked container forming part of the explosion protection itself, it must be possible to open such housing or container only with a special tool or by means of appropriate protection measures.
1.2.7. Protection against other hazards
Equipment and protective systems must be so designed and manufactured as to:
(a) avoid physical injury or other harm which might be caused by direct or indirect contact;
(b) assure that surface temperatures of accessible parts or radiation which would cause a danger, are not produced;
(c) eliminate non-electrical dangers which are revealed by experience;
(d) assure that foreseeable conditions of overload do not give rise to dangerous situations.
Where, for equipment and protective systems, the risks referred to in this point are wholly or partly covered by other Union legislation, this Directive shall not apply or shall cease to apply in the case of such equipment and protective systems and of such risks upon application of that specific Union legislation.
1.2.8. Overloading of equipment
Dangerous overloading of equipment must be prevented at the design stage by means of integrated measurement, regulation and control devices, such as over-current cut-off switches, temperature limiters, differential pressure switches, flowmeters, time-lag relays, overspeed monitors and/or similar types of monitoring devices.
1.2.9. Flameproof enclosure systems
If parts which can ignite an explosive atmosphere are placed in an enclosure, measures must be taken to ensure that the enclosure withstands the pressure developed during an internal explosion of an explosive mixture and prevents the transmission of the explosion to the explosive atmosphere surrounding the enclosure.
1.3. Potential ignition sources
1.3.1. Hazards arising from different ignition sources
Potential ignition sources such as sparks, flames, electric arcs, high surface temperatures, acoustic energy, optical radiation, electromagnetic waves and other ignition sources must not occur.
1.3.2. Hazards arising from static electricity
Electrostatic charges capable of resulting in dangerous discharges must be prevented by means of appropriate measures.
1.3.3. Hazards arising from stray electric and leakage currents
Stray electric and leakage currents in conductive equipment parts which could result in, for example, the occurrence of dangerous corrosion, overheating of surfaces or sparks capable of provoking an ignition must be prevented.
1.3.4. Hazards arising from overheating
Overheating caused by friction or impacts occurring, for example, between materials and parts in contact with each other while rotating or through the intrusion of foreign bodies must, as far as possible, be prevented at the design stage.
1.3.5. Hazards arising from pressure compensation operations
Equipment and protective systems must be so designed or fitted with integrated measuring, control and regulation devices that pressure compensations arising from them do not generate shock waves or compressions which may cause ignition.
1.4. Hazards arising from external effects
1.4.1. Equipment and protective systems must be so designed and constructed as to be capable of performing their intended function in full safety, even in changing environmental conditions and in the presence of extraneous voltages, humidity, vibrations, contamination and other external effects, taking into account the limits of the operating conditions established by the manufacturer.
1.4.2. Equipment parts used must be appropriate to the intended mechanical and thermal stresses and capable of withstanding attack by existing or foreseeable aggressive substances.
1.5. Requirements in respect of safety-related devices
1.5.1. Safety devices must function independently of any measurement and/or control devices required for operation.
As far as possible, failure of a safety device must be detected sufficiently rapidly by appropriate technical means to ensure that there is only very little likelihood that dangerous situations will occur.
The fail-safe principle is to be applied in general.
Safety-related switching must in general directly actuate the relevant control devices without intermediate software command.
1.5.2. In the event of a safety device failure, equipment and/or protective systems shall, wherever possible, be secured.
1.5.3. Emergency stop controls of safety devices must, as far as possible, be fitted with restart lockouts. A new start command may take effect on normal operation only after the restart lockouts have been intentionally reset.
1.5.4. Control and display units
Where control and display units are used, they must be designed in accordance with ergonomic principles in order to achieve the highest possible level of operating safety with regard to the risk of explosion.
1.5.5. Requirements in respect of devices with a measuring function for explosion protection
In so far as they relate to equipment used in explosive atmospheres, devices with a measuring function must be designed and constructed so that they can cope with foreseeable operating requirements and special conditions of use.
1.5.6. Where necessary, it must be possible to check the reading accuracy and serviceability of devices with a measuring function.
1.5.7. The design of devices with a measuring function must incorporate a safety factor which ensures that the alarm threshold lies far enough outside the explosion and/or ignition limits of the atmospheres to be registered, taking into account, in particular, the operating conditions of the installation and possible aberrations in the measuring system.
1.5.8. Risks arising from software
In the design of software-controlled equipment, protective systems and safety devices, special account must be taken of the risks arising from faults in the programme.
1.6. Integration of safety requirements relating to the system
1.6.1. Manual override must be possible in order to shut down the equipment and protective systems incorporated within automatic processes which deviate from the intended operating conditions, provided that this does not compromise safety.
1.6.2. When the emergency shutdown system is actuated, accumulated energy must be dispersed as quickly and as safely as possible or isolated so that it no longer constitutes a hazard.
This does not apply to electrochemically-stored energy.
1.6.3. Hazards arising from power failure
Where equipment and protective systems can give rise to a spread of additional risks in the event of a power failure, it must be possible to maintain them in a safe state of operation independently of the rest of the installation.
1.6.4. Hazards arising from connections
Equipment and protective systems must be fitted with suitable cable and conduit entries.
When equipment and protective systems are intended for use in combination with other equipment and protective systems, the interface must be safe.
1.6.5. Placing of warning devices as parts of equipment
Where equipment or protective systems are fitted with detection or alarm devices for monitoring the occurrence of explosive atmospheres, the necessary instructions must be provided to enable them to be provided at the appropriate places.
2. Supplementary requirements in respect of equipment
2.0. Requirements applicable to equipment in equipment-group I
2.0.1. Requirements applicable to equipment category M 1 of equipment-group I
2.0.1.1. Equipment must be so designed and constructed that sources of ignition do not become active, even in the event of rare incidents relating to equipment.
Equipment must be equipped with means of protection such that:
— either, in the event of failure of one means of protection, at least an independent second means provides the requisite level of protection,
— or, the requisite level of protection is ensured in the event of two faults occurring independently of each other.
Where necessary, equipment must be equipped with additional special means of protection.
It must remain functional with an explosive atmosphere present.
2.0.1.2. Where necessary, equipment must be so constructed that no dust can penetrate it.
2.0.1.3. The surface temperatures of equipment parts must be kept clearly below the ignition temperature of the foreseeable air/dust mixtures in order to prevent the ignition of suspended dust.
2.0.1.4. Equipment must be so designed that the opening of equipment parts which may be sources of ignition is possible only under non-active or intrinsically safe conditions. Where it is not possible to render equipment non-active, the manufacturer must affix a warning label to the opening part of the equipment.
If necessary, equipment must be fitted with appropriate additional interlocking systems.
2.0.2. Requirements applicable to equipment category M 2 of equipment-group I
2.0.2.1. Equipment must be equipped with means of protection ensuring that sources of ignition do not become active during normal operation, even under more severe operating conditions, in particular those arising from rough handling and changing environmental conditions.
The equipment is intended to be de-energised in the event of an explosive atmosphere.
2.0.2.2. Equipment must be so designed that the opening of equipment parts which may be sources of ignition is possible only under non-active conditions or via appropriate interlocking systems. Where it is not possible to render equipment non-active, the manufacturer must affix a warning label to the opening part of the equipment.
2.0.2.3. The requirements regarding explosion hazards arising from dust applicable to equipment category M 1 must be applied.
2.1. Requirements applicable to equipment category 1 of equipment-group II
2.1.1. Explosive atmospheres caused by gases, vapours or mists
2.1.1.1. Equipment must be so designed and constructed that sources of ignition do not become active, even in event of rare incidents relating to equipment.
It must be equipped with means of protection such that:
— either, in the event of failure of one means of protection, at least an independent second means provides the requisite level of protection,
— or, the requisite level of protection is ensured in the event of two faults occurring independently of each other.
2.1.1.2. For equipment with surfaces which may heat up, measures must be taken to ensure that the stated maximum surface temperatures are not exceeded even in the most unfavourable circumstances.
Temperature rises caused by heat build-ups and chemical reactions must also be taken into account.
2.1.1.3. Equipment must be so designed that the opening of equipment parts which might be sources of ignition is possible only under non-active or intrinsically safe conditions. Where it is not possible to render equipment non-active, the manufacturer must affix a warning label to the opening part of the equipment.
If necessary, equipment must be fitted with appropriate additional interlocking systems.
2.1.2. Explosive atmospheres caused by air/dust mixtures
2.1.2.1. Equipment must be so designed and constructed that ignition of air/dust mixtures does not occur even in the event of rare incidents relating to equipment.
It must be equipped with means of protection such that
— either, in the event of failure of one means of protection, at least an independent second means provides the requisite level of protection,
— or, the requisite level of protection is ensured in the event of two faults occurring independently of each other.
2.1.2.2. Where necessary, equipment must be so designed that dust can enter or escape from the equipment only at specifically designated points.
This requirement must also be met by cable entries and connecting pieces.
2.1.2.3. The surface temperatures of equipment parts must be kept well below the ignition temperature of the foreseeable air/dust mixtures in order to prevent the ignition of suspended dust.
2.1.2.4. With regard to the safe opening of equipment parts, requirement 2.1.1.3 applies.
2.2. Requirements applicable to equipment category 2 of equipment-group II
2.2.1. Explosive atmospheres caused by gases, vapours or mists
2.2.1.1. Equipment must be so designed and constructed as to prevent ignition sources arising, even in the event of frequently occurring disturbances or equipment operating faults, which normally have to be taken into account.
2.2.1.2. Equipment parts must be so designed and constructed that their stated surface temperatures are not exceeded, even in the case of risks arising from abnormal situations anticipated by the manufacturer.
2.2.1.3. Equipment must be so designed that the opening of equipment parts which might be sources of ignition is possible only under non-active conditions or via appropriate interlocking systems. Where it is not possible to render equipment non-active, the manufacturer must affix a warning label to the opening part of the equipment.
2.2.2. Explosive atmospheres caused by air/dust mixtures
2.2.2.1. Equipment must be designed and constructed so that ignition of air/dust mixtures is prevented, even in the event of frequently occurring disturbances or equipment operating faults which normally have to be taken into account.
2.2.2.2. With regard to surface temperatures, requirement 2.1.2.3 applies.
2.2.2.3. With regard to protection against dust, requirement 2.1.2.2 applies.
2.2.2.4. With regard to the safe opening of equipment parts, requirement 2.2.1.3 applies.
2.3. Requirements applicable to equipment category 3 of equipment-group II
2.3.1. Explosive atmospheres caused by gases, vapours or mists
2.3.1.1. Equipment must be so designed and constructed as to prevent foreseeable ignition sources which can occur during normal operation.
2.3.1.2. Surface temperatures must not exceed the stated maximum surface temperatures under intended operating conditions. Higher temperatures in exceptional circumstances may be allowed only if the manufacturer adopts special additional protective measures.
2.3.2. Explosive atmospheres caused by air/dust mixtures
2.3.2.1. Equipment must be so designed and constructed that air/dust mixtures cannot be ignited by foreseeable ignition sources likely to exist during normal operation.
2.3.2.2. With regard to surface temperatures, requirement 2.1.2.3 applies.
2.3.2.3. Equipment, including cable entries and connecting pieces, must be so constructed that, taking into account the size of its particles, dust can neither develop explosive mixtures with air nor form dangerous accumulations inside the equipment.
3. Supplementary requirements in respect of protective systems
3.0. General requirements
3.0.1. Protective systems must be dimensioned in such a way as to reduce the effects of an explosion to a sufficient level of safety.
3.0.2. Protective systems must be designed and capable of being positioned in such a way that explosions are prevented from spreading through dangerous chain reactions or flashover and incipient explosions do not become detonations.
3.0.3. In the event of a power failure, protective systems must retain their capacity to function for a period sufficient to avoid a dangerous situation.
3.0.4. Protective systems must not fail due to outside interference.
3.1. Planning and design
3.1.1. Characteristics of materials
With regard to the characteristics of materials, the maximum pressure and temperature to be taken into consideration at the planning stage are the expected pressure during an explosion occurring under extreme operating conditions and the anticipated heating effect of the flame.
3.1.2. Protective systems designed to resist or contain explosions must be capable of withstanding the shock wave produced without losing system integrity.
3.1.3. Accessories connected to protective systems must be capable of withstanding the expected maximum explosion pressure without losing their capacity to function.
3.1.4. The reactions caused by pressure in peripheral equipment and connected pipe-work must be taken into consideration in the planning and design of protective systems.
3.1.5. Pressure-relief systems
If it is likely that stresses on protective systems will exceed their structural strength, provision must be made in the design for suitable pressure-relief devices which do not endanger persons in the vicinity.
3.1.6. Explosion suppression systems
Explosion suppression systems must be so planned and designed that they react to an incipient explosion at the earliest possible stage in the event of an incident and counteract it to best effect, with due regard to the maximum rate of pressure increase and the maximum explosion pressure.
3.1.7. Explosion decoupling systems
Decoupling systems intended to disconnect specific equipment as swiftly as possible in the event of incipient explosions by means of appropriate devices must be planned and designed so as to remain proof against the transmission of internal ignition and to retain their mechanical strength under operating conditions.
3.1.8. Protective systems must be capable of being integrated into a circuit with a suitable alarm threshold so that, if necessary, there is cessation of product feed and output and shutdown of equipment parts which can no longer function safely.
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