oSIST prEN 1366-3:2018
(Main)Fire resistance tests for service installations - Part 3: Penetration seals
Fire resistance tests for service installations - Part 3: Penetration seals
This part of the EN 1366 series specifies a method of test and criteria for the evaluation (including field of direct application rules) of the ability of a penetration seal to maintain the fire resistance of a separating element at the position at which it has been penetrated by a service or services. Penetration seals used to seal gaps around chimneys, air ventilation systems, fire rated ventilation ducts, fire rated service ducts, shafts and smoke extraction ducts as well as combined penetration seals are excluded from this part of the EN 1366 series. Supporting constructions are used in this part of the EN 1366 series to represent separating elements such as walls or floors. These simulate the interaction between the test specimen and the separating element into which the sealing system is to be installed in practice.
This part of the EN 1366 series is used in conjunction with EN 1363-1.
The purpose of a test described in this part of the EN 1366 series is to assess the integrity and insulation performance of the penetration seal, of the penetrating service or services and of the separating element in the surrounding area of the penetration seal.
No information can be implied by the test concerning the influence of the inclusion of such penetrations and penetration seals on the loadbearing capacity of the separating element.
It is assumed that in each case the lintel above a penetration seal in the wall is designed in hot and cold state in a way that it does not apply any additional vertical load on the penetration seal.
It is not the intention of this test to provide quantitative information on the rate of leakage of smoke and/or hot gases or on the transmission or generation of fumes. Such phenomena are only to be noted in the test report in describing the general behaviour of test specimens during the test.
Tests in accordance with this part of the EN 1366 series are not intended to supply any information on the ability of the penetration seal to withstand stress caused by movements or displacements of the penetrating services.
The risk of spread of fire downwards caused by burning material, which drips through a pipe downwards to floors below, cannot be assessed with this test.
Tests in accordance with this part of the EN 1366 series do not address any risks associated with leakage of dangerous liquids or gases caused by failure of the pipe(s) in case of fire.
Tests in accordance with this part of the EN 1366 series of pipe penetration seals for pipes of pneumatic dispatch systems, pressurised air systems etc. simulate a situation where the systems are shut off in case of fire.
Explanatory notes to this test method are given in Annex H.
All values given without tolerances in this Standard are nominal ones unless otherwise specified.
Feuerwiderstandsprüfungen für Installationen - Teil 3: Abschottungen
Dieser Teil der Normenreihe EN 1366 legt eine Prüfmethode und Kriterien zur Beurteilung (inklusive Regeln zum direkten Anwendungsbereich) der Fähigkeit einer Abschottung fest, den Feuerwiderstand eines raumabschließenden Bauteils an der Stelle, wo durch dieses eine oder mehrere Leitungen durchgeführt werden, aufrechtzuerhalten. Abschottungen für Zwischenräume und Öffnungen um Kamine, Lüftungs¬systeme, Lüftungsleitungen, Installationskanäle und -schächte sowie Entrauchungsleitungen und Combined Penetration Seals mit definierter Feuerwiderstandsdauer sind von diesem Teil der Normenreihe EN 1366 ausgenommen. In diesem Teil der Normenreihe EN 1366 werden Tragkonstruktionen stellvertretend für raumabschließende Bauteile, wie zum Beispiel Wände und Decken, verwendet. Diese stellen die Wechsel¬wirkungen zwischen Prüfkörper und dem raumabschließenden Bauteil, in welchen die Abschottung in der Praxis eingebaut werden soll, nach.
Dieser Teil der Normenreihe EN 1366 ist für die Verwendung in Verbindung mit EN 1363 1 vorgesehen.
Die in diesem Teil der Normenreihe EN 1366 beschriebene Prüfung dient der Beurteilung des Raum-abschlusses und Wärmedämmverhaltens der Abschottung, der durchlaufenden Leitung(en) und des raumabschließenden Bauteils um die Abschottung.
Die Prüfung ermöglicht keine Aussagen darüber, inwieweit das Vorhandensein derartiger Durchführungen und Abschottungen einen Einfluss auf die Tragfähigkeit des raumabschließenden Bauteils ausübt.
Es wird angenommen, dass der Sturz über einer Abschottung in der Wand auf jeden Fall im warmen und kalten Zustand so ausgelegt ist, dass er die Abschottung nicht zusätzlich vertikal belastet.
Der Zweck dieser Prüfung besteht nicht darin, quantitative Angaben über die Leckrate von Rauch und/oder heißen Gasen oder die Übertragung bzw. Erzeugung von Rauchgasen zu ermitteln. Derartige Beobachtungen sollten nur bei der Beschreibung des allgemeinen Verhaltens der Probekörper während der Prüfung im Prüfbericht festgehalten werden.
Prüfungen in Übereinstimmung mit diesem Teil der Normenreihe EN 1366 liefern keine Angaben über das Leistungsverhalten einer Abschottung, Spannungen zu widerstehen, die durch Bewegungen oder Verschiebungen der durchlaufenden Leitungen erzeugt werden.
Das Risiko einer Brandausbreitung nach unten, verursacht durch brennendes, durch ein Rohr nach unten ins darunterliegende Geschoss abtropfendes Material, kann mit diesem Test nicht beurteilt werden.
Die Prüfungen in Übereinstimmung mit diesem Teil der Normenreihe EN 1366 befassen sich nicht mit Risiken in Verbindung mit dem Austritt gefährlicher Flüssigkeiten oder Gase aufgrund des Versagens des Rohres/der Rohre im Brandfall.
Bei den Prüfungen in Übereinstimmung mit diesem Teil der Normenreihe EN 1366 von Rohrabschottungen für Rohre von Rohrpostsystemen, Druckluftsystemen usw. wird eine Situation nachgestellt, in der die Systeme im Brandfall abgeschaltet sind.
Erläuterungen zu diesem Prüfverfahren sind im Anhang H angegeben.
Alle Werte ohne vorgegebene Grenzabweichungen in dieser Norm sind Nennwerte, sofern nicht anders angegeben.
Essais de résistance au feu des installations techniques - Partie 3 : Calfeutrements de trémie
This part of the EN 1366 series specifies a method of test and criteria for the evaluation (including field of direct application rules) of the ability of a penetration seal to maintain the fire resistance of a separating element at the position at which it has been penetrated by a service or services. Penetration seals used to seal gaps around chimneys, air ventilation systems, fire rated ventilation ducts, fire rated service ducts, shafts and smoke extraction ducts as well as combined penetration seals are excluded from this part of the EN 1366 series. Supporting constructions are used in this part of the EN 1366 series to represent separating elements such as walls or floors. These simulate the interaction between the test specimen and the separating element into which the sealing system is to be installed in practice.
This part of the EN 1366 series is intended to be used in conjunction with EN 1363 1.
The purpose of a test described in this part of the EN 1366 series is to assess the integrity and insulation performance of the penetration seal, of the penetrating service or services and of the separating element in the surrounding area of the penetration seal.
No information can be implied by the test concerning the influence of the inclusion of such penetrations and penetration seals on the loadbearing capacity of the separating element.
It is assumed that in each case the lintel above a penetration seal in the wall is designed in hot and cold state in a way that it does not apply any additional vertical load on the penetration seal.
It is not the intention of this test to provide quantitative information on the rate of leakage of smoke and/or hot gases or on the transmission or generation of fumes. Such phenomena are only to be noted in the test report in describing the general behaviour of test specimens during the test.
Tests in accordance with this part of the EN 1366 series are not intended to supply any information on the ability of the penetration seal to withstand stress caused by movements or displacements of the penetrating services.
The risk of spread of fire downwards caused by burning material, which drips through a pipe downwards to floors below, cannot be assessed with this test.
Tests in accordance with this part of the EN 1366 series do not address any risks associated with leakage of dangerous liquids or gases caused by failure of the pipe(s) in case of fire.
Tests in accordance with this part of the EN 1366 series of pipe penetration seals for pipes of pneumatic dispatch systems, pressurized air systems etc. simulate a situation where the systems are shut off in case of fire.
Explanatory notes to this test method are given in Annex H.
All values given without tolerances in this Standard are nominal ones unless otherwise specified.
Preskusi požarne odpornosti servisnih inštalacij - 3. del: Tesnitve prebojev
General Information
Relations
Standards Content (Sample)
SLOVENSKI STANDARD
oSIST prEN 1366-3:2018
01-april-2018
Preskusi požarne odpornosti servisnih inštalacij - 3. del: Tesnitve prebojev
Fire resistance tests for service installations - Part 3: Penetration seals
Feuerwiderstandsprüfungen für Installationen - Teil 3: Abschottungen
Essais de résistance au feu des installations techniques - Partie 3 : Calfeutrements de
trémie
Ta slovenski standard je istoveten z: prEN 1366-3
ICS:
13.220.50 Požarna odpornost Fire-resistance of building
gradbenih materialov in materials and elements
elementov
oSIST prEN 1366-3:2018 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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oSIST prEN 1366-3:2018
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oSIST prEN 1366-3:2018
DRAFT
EUROPEAN STANDARD
prEN 1366-3
NORME EUROPÉENNE
EUROPÄISCHE NORM
February 2018
ICS 13.220.50 Will supersede EN 1366-3:2009
English Version
Fire resistance tests for service installations - Part 3:
Penetration seals
Essais de résistance au feu des installations techniques Feuerwiderstandsprüfungen für Installationen - Teil 3:
- Partie 3 : Calfeutrements de trémie Abschottungen
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee
CEN/TC 127.
If this draft becomes a European Standard, CEN members are bound to comply with the CEN/CENELEC Internal Regulations
which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.
This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other
language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC
Management Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and United Kingdom.
Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are
aware and to provide supporting documentation.
Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without
notice and shall not be referred to as a European Standard.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2018 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 1366-3:2018 E
worldwide for CEN national Members.
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oSIST prEN 1366-3:2018
prEN 1366-3:2018 (E)
Contents Page
European foreword . 8
Introduction . 9
1 Scope . 10
2 Normative references . 10
3 Terms and definitions, symbols, units and abbreviations . 12
3.1 Terms and definitions . 12
3.2 Symbols, units and abbreviations . 22
3.2.1 Symbols . 22
3.2.2 Units . 22
3.2.3 Abbreviations . 22
4 Test equipment . 23
5 Test conditions . 23
5.1 Heating conditions . 23
5.2 Pressure conditions . 23
6 Test specimen . 24
6.1 Size and distances . 24
6.2 Number. 25
6.3 Design . 26
6.3.1 General . 26
6.3.2 Advice for designing test specimen(s) without standard configuration . 27
6.4 Construction . 27
6.5 Verification . 27
7 Installation of test specimen . 27
7.1 General . 27
7.2 Installation of the supporting construction including penetration(s) . 28
7.2.1 General . 28
7.2.2 Standard supporting constructions . 28
7.3 Installation of service(s) . 29
7.3.1 General . 29
7.3.2 Support conditions for penetrating services . 29
7.3.3 Ballast weights on cable carriers in standard configurations . 30
7.3.4 Pipe end configuration . 36
7.3.5 Capping of conduits . 37
7.3.6 Cable / waveguide / bus bar end configuration . 37
7.3.7 Subsequent addition/removal of services . 37
7.4 Installation of the penetration seal. 37
8 Conditioning . 37
9 Application of instrumentation . 37
9.1 Thermocouples . 37
9.1.1 Furnace thermocouples (plate thermometers). 37
9.1.2 Unexposed face thermocouples . 38
9.1.3 Roving thermocouple . 44
9.2 Pressure . 44
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10 Test procedure . 44
10.1 General . 44
10.2 Integrity . 44
10.3 Other observations . 45
11 Performance criteria . 45
11.1 Integrity . 45
11.2 Insulation . 45
11.3 Multiple and mixed penetration seals . 45
11.4 Multiple penetrations . 46
12 Test report . 46
13 Field of direct application of test results . 46
13.1 General . 46
13.2 Orientation . 46
13.3 Supporting construction . 46
13.3.1 Rigid floor and wall constructions . 46
13.3.2 Flexible wall constructions . 47
13.4 Services . 48
13.5 Service support construction . 49
13.6 Penetration seal size . 49
13.7 Distances . 49
Annex A (normative) Configuration and field of direct application for “cable
penetration seals — large” . 50
A.1 Purpose of Annex A . 50
A.2 Overview of options for test set up and the resulting field of direct application . 50
A.2.1 Standard configuration . 50
A.2.2 Non-standard configuration . 50
A.3 Designing the standard configuration test specimens . 50
A.3.1 Specimen size. 50
A.3.2 Services . 50
A.3.3 Service options . 50
A.3.4 Location of the services . 51
A.3.5 Installation of the services / test equipment . 53
A.4 Field of direct application . 57
A.4.1 General . 57
A.4.2 Cable type (construction characteristics) . 57
A.4.3 Cable size . 57
A.4.4 Cable carriers. 57
A.4.5 Distances . 58
A.4.6 Cable support . 58
Annex B (normative) Configuration and field of direct application for “cable
penetration seals — small”, modular systems and steel framed cable boxes . 59
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B.1 Configuration and field of direct application for “cable penetration seals —
small” . 59
B.1.1 Purpose of B.1 . 59
B.1.2 Overview of options for test set up and the resulting field of direct application . 59
B.1.3 Designing the standard configuration test specimens. 59
B.1.4 Field of direct application . 64
B.2 Configuration and field of direct application for modular systems . 66
B.2.1 Purpose of B.2 . 66
B.2.2 Overview of options for test set up and the resulting field of direct application . 67
B.2.3 Designing the standard configuration test specimens. 68
B.2.4 Field of direct application . 69
B.3 Configuration and field of direct application for steel framed cable boxes . 72
B.3.1 Purpose of B.3 . 72
B.3.2 Overview of options for test set up and the resulting field of direct application . 72
B.3.3 Designing the standard configuration test specimens. 72
B.3.4 Field of direct application for steel framed cable boxes . 74
Annex C (normative) Test configuration and field of direct application for conduits and
trunkings for cables . 76
C.1 Conduits . 76
C.1.1 General . 76
C.1.2 Standard conduit configuration . 77
C.1.3 Field of direct application . 83
C.2 Trunkings . 86
C.2.1 General . 86
C.2.2 Standard trunking configuration . 86
C.2.3 Field of direct application . 87
Annex D (normative) Specimen design and field of direct application for bus bars / bus
bar trunking units . 88
D.1 Purpose of Annex D . 88
D.2 Test specimen . 88
D.3 Field of direct application . 88
Annex E (normative) Test specimen design, test procedure and field of direct
application for pipe penetration seals . 92
E.1 Purpose of Annex E . 92
E.2 Selection of pipes to be included in the test . 92
E.2.1 Metal pipes (hmp) in accordance with 3.1.37 . 92
E.2.2 Metal pipes (lmp) in accordance with 3.1.38 . 93
E.2.3 Coated metal pipes (hmp) in accordance with 3.1.39 . 93
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E.2.4 Coated metal pipes (lmp) in accordance with 3.1.40 . 93
E.2.5 Single layer plastic pipes . 93
E.2.6 Multilayer plastic pipes in accordance with 3.1.42 . 97
E.2.7 Composite pipes in accordance with 3.1.43 . 97
E.2.8 MLC pipes in accordance with 3.1.44 . 97
E.2.9 Pipes with the risk of fracture in accordance with 3.1.45 . 97
E.2.10 Small tubes . 97
E.2.11 Pipe-in-pipe systems . 98
E.2.12 Special installations . 98
E.3 Designing the test specimen . 98
E.3.1 Single arrangement (distance between pipes ≥ 100 mm) . 98
E.3.2 Linear arrangement or cluster arrangement (distance between pipes < 100 mm) . 99
E.4 Field of direct application . 102
E.4.1 General rules . 102
E.4.2 Metal pipes (hmp) in accordance with 3.1.37 . 104
E.4.3 Metal pipes (lmp) in accordance with 3.1.38 . 113
E.4.4 Coated metal pipes (hmp) in accordance with 3.1.39 . 113
E.4.5 Coated metal pipes (lmp) in accordance with 3.1.40 . 113
E.4.6 Single layer plastic pipes . 113
E.4.7 Multilayer plastic pipes in accordance with 3.1.42 . 122
E.4.8 Composite pipes in accordance with 3.1.43 . 123
E.4.9 MLC pipes in accordance with 3.1.44 . 123
E.4.10 Pipes with the risk of fracture in accordance 3.1.45 . 124
E.4.11 Small tubes . 124
E.4.12 Pipe-in-pipe-systems . 124
E.5 Floor penetrations ending at floor level (e.g. floor drain) . 124
Annex F (normative) Test specimen design, test procedure and field of direct
application for mixed penetration seals . 126
F.1 Purpose of Annex F . 126
F.2 Mixed penetration seals containing pipes of different pipe material groups . 126
F.2.1 Single arrangement (distance between pipes ≥ 100 mm) . 126
F.2.2 Linear arrangement or cluster arrangement (distance between pipes < 100 mm) . 128
F.3 Mixed penetration seals containing cables and other services . 133
F.3.1 General . 133
F.3.2 Intended mixed penetration seal size ≥ 600 mm x 600 mm . 133
F.3.3 Intended mixed penetration seal size ≥ 300 mm x 300 mm but < 600 mm x
600 mm . 138
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F.3.4 Intended mixed penetration seal size < 300 mm x 300 mm . 141
F.4 Mixed penetration seals containing pipes and other services . 144
F.5 Mixed penetration seals containing different services other than cables and
pipes . 144
F.6 Selection of previous test results (if available) for designing the test specimen . 144
F.7 Field of direct application . 144
F.7.1 General . 144
F.7.2 Services . 144
F.7.3 Distances. 145
Annex G (normative) Critical service approach . 146
G.1 General . 146
G.2 Criteria to identify the critical services . 146
G.3 Identification and selection of the most critical services . 147
G.3.1 Metal pipes (hmp) in accordance with 3.1.37 . 147
G.3.2 Metal pipes (lmp) in accordance with 3.1.38 . 147
G.3.3 Single layer Plastic pipes in accordance with 3.1.41 . 148
G.3.4 Multilayer plastic pipes in accordance with 3.1.42 . 148
G.3.5 Metal conduits (hmp) in accordance with 3.1.33. 148
G.3.6 Metal conduits (lmp) in accordance with 3.1.34 .
...
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