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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
89/686/EEC directive - PPE - annex II health and safety requirements
ANNEX II : BASIC HEALTH AND SAFETY REQUIREMENTS
1. GENERAL REQUIREMENTS APPLICABLE TO ALL PPE
PPE must provide adequate protection against all risks encountered.
1.1. Design principles
1.1.1. Ergonomics
PPE must be so designed and manufactured that in the foreseeable conditions of use for which it is intended the user can perform the risk-related activity normally whilst enjoying appropriate protection of the highest possible level.
1.1.2. Levels and classes of protection
1.1.2.1. Highest level of protection possible
The optimum level of protection to be taken into account in the design is that beyond which the constraints imposed by the wearing of the PPE would prevent its effective use during the period of exposure to the risk or normal performance of the activity.
1.1.2.2. Classes of protection appropriate to different levels of risk
Where differing foreseeable conditions of use are such that several levels of the same risk can be distinguished, appropriate classes of protection must be taken into account in the design of the PPE.
1.2. Innocuousness of PPE
1.2.1. Absence of risks and other ‘inherent’nuisance factors
PPE must be so designed and manufactured as to preclude risks and other nuisance factors under foreseeable conditions of use.
1.2.1.1. Suitable constituent materials
PPE materials and parts, including any of their decomposition products, must not adversely affect user hygiene or health.
1.2.1.2. Satisfactory surface condition of all PPE parts in contact with the user
Any PPE part in contact or in potential contact with the user when such equipment is worn must be free of roughness, sharp edges, projections and the like which could cause excessive irritation or injuries.
1.2.1.3. Maximum permissible user impediment
Any impediment caused by PPE to movements to be made, postures to be adopted and sensory perception must be minimized; nor must PPE cause movements which endanger the user or other persons.
1.3. Comfort and efficiency
1.3.1. Adaptation of PPE to user morphology
PPE must be so designed and manufactured as to facilitate correct positioning on the user and to remain in place for the foreseeable period of use, bearing in mind ambient factors, movements to be made and postures to be adopted. For this purpose, it must be possible to optimize PPE adaptation to user morphology by all appropriate means, such as adequate adjustment and attachment systems or the provision of an adequate size range.
1.3.2. Lightness and design strength
PPE must be as light as possible without prejudicing design strength and efficiency.
Apart from the specific additional requirements which they must satisfy in order to provide adequate protection against the risks in question (see 3), PPE must be capable of withstanding the effects of ambient phenomena inherent under the foreseeable conditions of use.
1.3.3. Compatibility of different classes or types of PPE designed for simultaneous use
If the same manufacturer markets several PPE models of different classes or types in order to ensure the simultaneous protection of adjacent parts of the body against combined risks, these must be compatible.
1.4. Information supplied by the manufacturer
In addition to the name and address of the manufacturer and/or his authorized representative established in the Community, the notes that must be drawn up by the former and supplied when PPE is placed on the market must contain all relevant information on:
(a) storage, use, cleaning, maintenance, servicing and disinfection. Cleaning, maintenance or disinfectant products recommended by manufacturers must have no adverse effect on PPE or users when applied in accordance with the relevant instructions;
(b) performance as recorded during technical tests to check the levels or classes of protection provided by the PPE in question;
(c) suitable PPE accessories and the characteristics of appropriate spare parts;
(d) the classes of protection appropriate to different levels of risk and the corresponding limits of use;
(e) the obsolescence deadline or period of obsolescence of PPE or certain of its components;
(f) the type of packaging suitable for transport;
(g) the significance of any markings (see 2.12).
(M1 : texte ajouté :)
(h) where appropriate, the references of the Directives applied in accordance with Article 5 (6) (b);
(i) the name, address and identification number of the notified body involved in the design stage of the PPE.
These notes, which must be precise and comprehensible, must be provided at least in the official language(s) of the Member State of destination.
2. ADDITIONAL REQUIREMENTS COMMON TO SEVERAL CLASSES OR TYPES OF PPE
2.1. PPE incorporating adjustment systems
If PPE incorporates adjustment systems, the latter must be so designed and manufactured as not to become incorrectly adjusted without the user's knowledge under the foreseeable conditions of use.
2.2. PPE ‘enclosing’ the parts of the body to be protected
As far as possible, PPE ‘enclosing’ the parts of the body to be protected must be sufficiently ventilated to limit perspiration resulting from use; if this is not the case, it must if possible be equipped with devices which absorb perspiration.
2.3. PPE for the face, eyes and respiratory tracts
Any restriction of the user's field of vision or sight by PPE for the face, eyes or respiratory tract must be minimized.
The degree of optical neutrality of the vision systems of these PPE classes must be compatible with the type of relatively meticulous and/or prolonged activities of the user.
If necessary, they must be treated or provided with facilities to prevent moisture formation.
PPE models intended for users requiring sight correction must be compatible with the wearing of spectacles or contact lenses.
2.4. PPE subject to ageing
If it is known that the design performances of new PPE may be significantly affected by ageing, the date of manufacture and/or, if possible, the date of obsolescence, must be indelibly inscribed on every PPE item or interchangeable component placed on the market in such a way as to preclude any misinterpretation; this information must also be indelibly inscribed on the packaging.
If a manufacturer is unable to give an undertaking with regard to the useful life of PPE, his notes must provide all the information necessary to enable the purchaser or user to establish a reasonable obsolescence date, bearing in mind the quality level of the model and the effective conditions of storage, use, cleaning, servicing and maintenance.
Where appreciable and rapid deterioration in PPE performance is likely to be caused by ageing resulting from the periodic use of a cleaning process recommended by the manufacturer, the latter must, if possible, affix a mark to each item of PPE placed on the market indicating the maximum number of cleaning operations that may be carried out before the equipment needs to be inspected or discarded; failing that, the manufacturer must give this information in his notes.
2.5. PPE which may be caught up during use
Where the foreseeable conditions of use include in particular the risk of the PPE being caught up by a moving object thereby creating a danger for the user, the PPE must possess an appropriate resistance threshold above which a constituent part will break and eliminate the danger.
2.6. PPE for use in explosive atmospheres
PPE intended for use in explosive atmospheres must be so designed and manufactured that it cannot be the source of an electric, electrostatic or impact-induced arc or spark likely to cause an explosive mixture to ignite.
2.7. PPE intended for emergency use or rapid installation and/or removal
These PPE classes must be so designed and manufactured as to minimize the time required for attachment and (or) removal.
Any integral systems permitting correct positioning on, or removal from, the user must be susceptible of rapid and easy operation.
2.8. PPE for use in very dangerous situations
The information notes supplied by the manufacturer together with PPE for use in the very dangerous situations referred to in Article 8 (4) (a) must include, in particular, data intended for the exclusive use of competent trained individuals who are qualified to interpret them and ensure their application by the user.
They must also describe the procedure to be adopted in order to verify that PPE is correctly adjusted and functional when worn by the user.
If PPE incorporates an alarm which is activated in the absence of the level of protection normally provided, this must be so designed and accommodated as to be perceived by the user in the conditions of use for which the PPE is marketed.
2.9. PPE incorporating components which can be adjusted or removed by the user
Any PPE components which can be adjusted or removed by the user for the purpose of replacement must be so designed and manufactured as to facilitate adjustment, attachment and removal without tools.
2.10. PPE for connection to another, external complementary device
If PPE incorporates a system permitting connection to another, complementary, device, the attachment mechanism must be so designed and manufactured as to enable it to be mounted only on appropriate equipment.
2.11. PPE incorporating a fluid circulation system
If PPE incorporates a fluid circulation system, the latter must be so chosen, or designed, and incorporated as to permit adequate fluid renewal in the vicinity of the entire part of the body to be protected, irrespective of user gestures, posture or movement under the foreseeable conditions of use.
2.12. PPE bearing one or more identification or recognition marks directly or indirectly relating to health and safety
The identification or recognition marks directly or indirectly relating to health and safety affixed to these types or classes of PPE must preferably take the form of harmonized pictograms or ideograms and must remain perfectly legible throughout the foreseeable useful life of the PPE. In addition, these marks must be complete, precise and comprehensible so as to prevent any misinterpretation; in particular, when such marks incorporate words or sentences, the latter must appear in the official language(s) of the Member State where the equipment is to be used.
If PPE (or a PPE component) is too small to allow all or part of the necessary marking to be affixed, the relevant information must be mentioned on the packing and in the manufacturer's notes.
2.13. PPE in the form of clothing capable of signalling the user's presence visually
PPE in the form of clothing intended for foreseeable conditions of use in which the user's presence must be visibly and individually signalled must have one (or more) judiciously positioned means of or devices for emitting direct or reflected visible radiation of appropriate luminous intensity and photometric and colorimetric properties.
2.14. ‘Multi-risk’ PPE
All PPE designed to protect the user against several potentially simultaneous risks must be so designed and manufactured as to satisfy, in particular, the basic requirements specific to each of those risks (see 3).
3. ADDITIONAL REQUIREMENTS SPECIFIC TO PARTICULAR RISKS
3.1. Protection against mechanical impact
3.1.1. Impact caused by falling or projecting objects and collision of parts of the body with an obstacle
Suitable PPE for this type of risk must be sufficiently shock-absorbent to prevent injury resulting, in particular, from the crushing or penetration of the protected part, at least up to an impact-energy level above which the excessive dimensions or mass of the absorbing device would preclude effective use of the PPE for the foreseeable period of wear.
3.1.2. Falls
3.1.2.1. Prevention of falls due to slipping
The outsoles for footwear designed to prevent slipping must be so designed, manufactured or equipped with added elements as to ensure satisfactory adhesion by grip and friction having regard to the nature or state of the surface.
3.1.2.2. Prevention of falls from a height
PPE designed to prevent falls from a height or their effects must incorporate a body harness and an attachment system which can be connected to a reliable anchorage point. It must be designed so that under the foreseeable conditions of use the vertical drop of the user is minimized to prevent collision with obstacles and the braking force does not, however, attain the threshold value at which physical injury or the tearing or rupture of any PPE component which might cause the user to fall can be expected to occur.
It must also ensure that after braking the user is maintained in a correct position in which he may await help if necessary.
The manufacturer's notes must specify in particular all relevant information relating to:
— the characteristics required for the reliable anchorage point and the necessary minimum clearance below the user,
— the proper way of putting on the body harness and of connecting the attachment system to the reliable anchorage point.
3.1.3. Mechanical vibration
PPE designed to prevent the effects of mechanical vibrations must be capable of ensuring adequate attenuation of harmful vibration components for the part of the body at risk.
Under no circumstances must the effective value of the accelerations transmitted to the user by those vibrations exceed the limit values recommended in the light of the maximum foreseeable daily exposure of the part of the body at risk.
3.2. Protection against (static) compression of part of the body
PPE designed to protect part of the body against (static) compressive stress must be sufficiently capable of attenuating its effects to prevent serious injury or chronic complaints.
3.3. Protection against physical injury (abrasion, perforation, cuts, bites)
PPE constituent materials and other components designed to protect all or part of the body against superficial injury caused by machinery, such as abrasion, perforation, cuts or bites, must be so chosen or designed and incorporated as to ensure that these PPE classes provide sufficient resistance to abrasion, perforation and gashing (see also 3. 1) under the foreseeable conditions of use.
3.4. Prevention of drowning (lifejackets, armbands and lifesaving suits)
PPE designed to prevent drowning must be capable of returning to the surface as quickly as possible, without danger to his health, a user who may be exhausted or unconscious after falling into a liquid medium, and of keeping him afloat in a position which permits breathing while awaiting help.
PPE may be wholly or partially inherently buoyant or may be inflated either by gas which can be manually or automatically released or orally.
Under the foreseeable conditions of use:
— PPE must, without prejudice to its satisfactory operation, be capable of withstanding the effects of impact with the liquid medium and the environmental factors inherent in that medium,
— inflatable PPE must be capable of inflating rapidly and fully.
Where particular foreseeable conditions of use so require, certain types of PPE must also satisfy one or more of the following additional requirements:
— it must have all the inflation devices referred to in the second subparagraph, and/or a light or sound-signalling device,
— it must have a device for hitching and attaching the body so that the user may be lifted out of the liquid medium,
— it must be suitable for prolonged use throughout the period of activity exposing the user, possibly dressed, to the risk of falling into the liquid medium or requiring his immersion in it.
3.4.1. Buoyancy aids
Clothing which will ensure an effective degree of buoyancy, depending on its foreseeable use, which is safe when worn and which affords positive support in water. In foreseeable conditions of use, this PPE must not restrict the user's freedom of movement but must enable him, in particular, to swim or take action to escape from danger or rescue other persons.
3.5. Protection against the harmful effects of noise
PPE designed to prevent the harmful effects of noise must be capable of attenuating the latter to such an extent that the equivalent sound levels perceived by the user do not under any circumstances exceed the daily limit values laid down by Council Directive 86/188/EEC of 12 May 1986 on the protection of workers from the risks related to exposure to noise at work (1).
All PPE must bear labelling indicating the noise attenuation level and the value of the comfort index provided by the PPE; should this not be possible, the labelling must be fixed to the packaging.
3.6. Protection against heat and/or fire
PPE designed to protect all or part of the body against the effects of heat and/or fire must possess thermal insulation capacity and mechanical strength appropriate to foreseeable conditions of use.
3.6.1. PPE constituent materials and other components
Constituent materials and other components suitable for protection against radiant and convective heat must possess an appropriate coefficient of transmission of incident heat flux and be sufficiently incombustible to preclude any risk of spontaneous ignition under the foreseeable conditions of use.
Where the outside of these materials and components must be reflective, its reflective power must be appropriate to the intensity of the heat flux due to radiation in the infra-red range.
Materials and other components of equipment intended for brief use in high-temperature environments and of PPE which may be splashed by hot products such as large quantities of molten material must also possess sufficient thermal capacity to retain most of the stored heat until after the user has left the danger area and removed his PPE.
PPE materials and other components which may be splashed by large amounts of hot products must also possess sufficient mechanical-impact absorbency (see 3.1).
PPE materials and other components which may accidentally come into contact with flame and those used in the manufacture of fire-fighting equipment must also possess a degree of non-flammability corresponding to the risk class associated with the foreseeable conditions of use. They must not melt when exposed to flames nor contribute to flame propagation.
3.6.2. Complete PPE ready for use
Under the foreseeable conditions of use:
1. the quantity of heat transmitted by PPE to the user must be sufficiently low to prevent the heat accumulated during wear in the part of the body at risk from attaining, under any circumstances, the pain or health impairment threshold;
2. PPE must if necessary prevent liquid or steam penetration and must not cause burns resulting from contact between its protective integument and the user.
If PPE incorporates refrigeration devices for the absorption of incident heat by means of liquid evaporation or solid sublimation, their design must be such that any volatile substances released are discharged beyond the outer protective integument and not towards the user.
If PPE incorporates a breathing device, the latter must adequately fulfil the protective function assigned to it under the foreseeable conditions of use.
The manufacturer's notes accompanying each PPE model intended for brief use in high-temperature environments must in particular provide all relevant data for the determination of the maximum permissible user exposure to the heat transmitted by the equipment when used in accordance with its intended purpose.
3.7. Protection against cold
PPE designed to protect all or part of the body against the effects of cold must possess thermal insulating capacity and mechanical strength appropriate to the foreseeable conditions of use for which it is marketed.
3.7.1. PPE constituent materials and other components
Constituent materials and other components suitable for protection against cold must possess a coefficient of transmission of incident thermal flux as low as required under the foreseeable conditions of use. Flexible materials and other components of PPE intended for use in a low-temperature environment must retain the degree of flexibility required for the necessary gestures and postures.
PPE materials and other components which may be splashed by large amounts of cold products must also possess sufficient mechanical-impact absorbency (see 3.1).
3.7.2. Complete PPE ready for use
Under the foreseeable conditions of use:
1. the flux transmitted by PPE to the user must be sufficiently low to prevent the cold accumulated during wear at any point on the part of the body being protected, including the tips of fingers and toes in the case of hands or feet, from attaining, under any circumstances, the pain or health-impairment threshold;
2. PPE must as far as possible prevent the penetration of such liquids as rain water and must not cause injuries resulting from contact between its cold protective integument and the user.
If PPE incorporates a breathing device, this must adequately fulfil the protective function assigned to it under the foreseeable conditions of use.
The manufacturer's notes accompanying each PPE model intended for brief use in low-temperature environments must provide all relevant data concerning the maximum permissible user exposure to the cold transmitted by the equipment.
3.8. Protection against electric shock
PPE designed to protect all or part of the body against the effects of electric current must be sufficiently insulated against the voltages to which the user is likely to be exposed under the most unfavourable foreseeable conditions.
To this end, the constituent materials and other components of these PPE classes must be so chosen or designed and incorporated as to ensure that the leakage current measured through the protective integument under test conditions at voltages correlated with those likely to be encountered in situ is minimized and, at all events, below a maximum conventional permissible value which correlates with the tolerance threshold.
Together with their packaging, PPE types intended exclusively for use during work or activities in electrical installations which are or may be under tension must bear markings indicating, in particular, their protection class and (or) corresponding operating voltage, their serial number and their date of manufacture; a space must also be provided outside the protective integument of such PPE for the subsequent inscription of the date of entry into service and those of the periodic tests or inspections to be conducted.
The manufacturer's notes must indicate, in particular, the exclusive use for which these PPE types are intended and the nature and frequency of the dielectric tests to which they are to be subjected during their useful life.
3.9. Radiation protection
3.9.1. Non-ionizing radiation
PPE designed to prevent acute or chronic eye-damage from sources of non-ionizing radiation must be capable of absorbing or reflecting the majority of the energy radiated in the harmful wavelengths without unduly affecting the transmission of the innocuous part of the visible spectrum, the perception of contrasts and the ability to distinguish colours where required by the foreseeable conditions of use.
To this end, protective glasses must be so designed and manufactured as to possess, for each harmful wave, a spectral transmission factor such that the radiant-energy illumination density capable of reaching the user's eye through the filter is minimized and, under no circumstances, exceeds the maximum permissible exposure value.
Furthermore, the glasses must not deteriorate or lose their properties as a result of the effects of radiation emitted under the foreseeable conditons of use and all marketed specimens must bear the protection-factor number corresponding to the spectral distribution curve of their transmission factor.
Glasses suitable for radiation sources of the same type must be classified in the ascending order of their protection factors and the manufacturer's notes must indicate, in particular, the transmission curves which make it possible to select the most appropriate PPE bearing in mind such inherent factors of the effective conditions of use as distance to source and the spectral distribution of the energy radiated at that distance.
The relevant protection-factor number must be marked on all specimens of filtering glasses by the manufacturer.
3.9.2. Ionizing radiation
3.9.2.1. Protection against external radioactive contamination
PPE constituent materials and other components designed to protect all or part of the body against radioactive dust, gases, liquids or mixtures thereof must be so chosen or designed and incorporated as to ensure that this equipment effectively prevents the penetration of the contaminants under the foreseeable conditions of use.
Depending on the nature or condition of these contaminants, the necessary leak-tightness can be provided by the impermeability of the protective integument and/or by any other appropriate means, such as ventilation and pressurization systems designed to prevent the back-scattering of these contaminants.
Any decontamination measures to which PPE is subject must not prejudice its possible re-use during the foreseeable useful life of these classes of equipment.
3.9.2.2. Limited protection against external irradiation
PPE intended to provide complete user protection against external irradiation or, failing this, adequate attenuation thereof, must be designed to counter only weak electron (e. g. beta) or weak photon (e. g. X, gamma) radiation.
The constituent materials and other components of these PPE classes must be so chosen or designed and incorporated as to provide the degree of user protection required by the foreseeable conditions of use without leading to an increase in exposure time as a result of the impedance of user gestures, posture or movement (see 1.3.2).
PPE must bear a mark indicating the type and thickness of the constituent material(s) suitable for the foreseeable conditions of use.
3.10. Protection against dangerous substances and infective agents
3.10.1. Respiratory protection
PPE intended for the protection of the respiratory tract must make it possible to supply the user with breathable air when the latter is exposed to a polluted atmosphere and/or an atmosphere having inadequate oxygen concentration.
The breathable air supplied to the user by the PPE must be obtained by appropriate means, for example after filtration of the polluted air through the protective device or appliance or by a piped supply from an unpolluted source.
The constituent materials and other components of these PPE classes must be so chosen or designed and incorporated as to ensure appropriate user respiration and respiratory hygiene for the period of wear concerned under the foreseeable conditions of use.
The leak-tightness of the facepiece and the pressure drop on inspiration and, in the case of the filtering devices, purification capacity must be such as to keep contaminant penetration from a polluted atmosphere low enough not to be prejudicial to the health or hygiene of the user.
The PPE must bear the manufacturer's identification mark and details of the specific characteristics of that type of equipment which, in conjunction with the instructions for use, will enable a trained and qualified user to employ the PPE correctly.
The manufacturer's notes must also in the case of filtering devices, indicate the deadline for the storage of filters as new and kept in their original packaging.
3.10.2. Protection against cutaneous and ocular contact
PPE intended to prevent the surface contact of all or part of the body with dangerous substances and infective agents must be capable of preventing the penetration or diffusion of such substances through the protective integument under the foreseeable conditions of use for which the PPE is placed on the market.
To this end, the constituent materials and other components of these PPE classes must be so chosen, or designed and incorporated as to ensure, as far as possible, complete leak-tightness, which will allow where necessary prolonged daily use or, failing this, limited leak-tightness necessitating a restriction of the period of wear.
Where, by virtue of their nature and the foreseeable conditions of their use, certain dangerous substances or infective agents possess high penetrative power which limits the duration of the protection provided by the PPE in question, the latter must be subjected to standard tests with a view to their classification on the basis of effeciency. PPE which is considered to be in conformity with the test specifications must bear a mark indicating, in particular, the names or, failing this, the codes of the substances used in the tests and the corresponding standard period of protection. The manufacturer's notes must also contain, in particular, an explanation of the codes (if necessary), a detailed description of the standard tests and all appropriate information for the determination of the maximum permissible period of wear under the different foreseeable conditions of use.
3.11. Safety devices for diving equipment
1. Breathing equipment
The breathing equipment must make it possible to supply the user with a breathable gaseous mixture, under foreseeable conditions of use and taking account in particular of the maximum depth of immersion.
2. Where the foreseeable conditions of use so require, the equipment must comprise:
(a) a suit which protects the user against the pressure resulting from the depth of immersion (see 3.2) and/or against cold (see 3.7);
(b) an alarm designed to give the user prompt warning of an approaching failure in the supply of breathable gaseous mixture (see 2.8);
(c) a life-saving suit enabling the user to return to the surface (see 3.4.1).
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