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CEN

EN 15302:2008

(Main)

Railway applications - Method for determining the equivalent conicity

Railway applications - Method for determining the equivalent conicity

This European Standard establishes an evaluation procedure for determining equivalent conicity. A benchmark calculation is specified to achieve comparable results on a consistent basis for the equivalent conicity, which may be calculated by different methods not given in this European Standard. This European Standard also proposes possible calculation methods. Informative examples of the use of the Klingel formula (see Annex B) and linear regression of the r-function (see Annex C) are included in this European Standard.
This European Standard includes reference profiles, profile combinations, tolerances and reference results with tolerance limits, which allow the user to assess the acceptability of a measuring and calculation system including random- and grid- errors of the measuring system. It sets down the principles of calculation that need to be followed but does not impose any particular numerical calculation method.
This European Standard does not define limits for the equivalent conicity and gives no tolerances for the rail profile and the wheel profile to achieve acceptable results for the conicity.
For purposes outside the scope of this European Standard (e.g. simulation of vehicle behaviour) it can be useful or necessary to use more sophisticated theories. These methods are not within the scope of this European Standard.
For the application of this European Standard some general recommendations are given in Annex I.

Bahnanwendungen - Verfahren zur Bestimmung der äquivalenten Konizität

Die Kontaktgeometrie zwischen Rad und Schiene ist von grundlegender Bedeutung für das dynamische Fahrverhalten eines Schienenfahrzeugs. Dabei ist der Parameter der „äquivalenten Konizität“ von besonderer Bedeutung bei der Beschreibung der Kontaktgeometrie im geraden Gleis und in Gleisbögen mit großen Halbmessern.
Zur Bestimmung der äquivalenten Konizität ist ein eindeutiges Verfahren erforderlich, welches sowohl in Europäischen und nationalen Normen als auch anderen Dokumenten (rechtlicher und technischer Natur) verwendet wird. Um zu erreichen, dass die Ergebnisse vergleichbar sind, wird in dieser Norm eine Vergleichsrechnung festgelegt. Diese Europäische Norm beinhaltet außerdem einen Vorschlag für ein mögliches Berechnungsverfahren, welches jedoch nicht ausdrücklich empfohlen wird.
Dieses Verfahren beinhaltet Referenzprofile, Profilkombinationen, Toleranzen und Referenzergebnisse mit Toleranzgrenzen und ermöglicht so die Beurteilung der Zulässigkeit eines Mess- und Berechnungssystems, unter Berücksichtigung von Zufalls- und Gitterfehlern des Meßsystems.
Es legt keinen Grenzwert für die äquivalente Konizität fest und gibt keine Toleranzen für das Schienenkopfprofil und das Radprofil an, um akzeptable Konizitätswerte zu erhalten.
Für andere Anwendungszwecke kann es nützlich oder erforderlich sein, weitergehende Verfahren zu verwenden, z. B. durch die Berücksichtigung einer elastischen Kontaktfläche oder des Wankwinkels des Radsatzes in Folge seiner Querverschiebung. Diese Verfahren liegen außerhalb des Anwendungsbereiches dieser Europäischen Norm.

Applications ferroviaires - Méthode de détermination de la conicité équivalente

La présente Norme Européenne établit une procédure d'évaluation pour la détermination de la conicité équivalente. Un calcul de comparaison est spécifié pour l'obtention de résultats comparables sur une base cohérente pour la conicité équivalente, laquelle peut être calculée par différentes méthodes qui ne sont pas données dans la présente Norme Européenne. La présente Norme Européenne propose aussi des méthodes de calcul possibles. Des exemples de l'utilisation de la formule de Klingel (voir Annexe B) et d'une régression linéaire de la fonction r (voir Annexe C) sont inclus à titre informatif dans la présente Norme Européenne.
La présente Norme Européenne inclut des profils de référence, des combinaisons de profils, des tolérances et des résultats de référence avec des limites de tolérance, permettant à l’utilisateur d’évaluer l’acceptabilité d'un système de mesure et de calcul, en incluant les erreurs aléatoires et de grille inhérentes au système. Elle établit des principes de calcul qui doivent être suivis, mais n’impose aucune méthode de calcul particulière.
La présente Norme Européenne ne définit pas de limite pour la conicité équivalente et ne donne aucune tolérance pour les profils de rail et de roue, pour obtenir des résultats acceptables pour la conicité.
Pour les usages sortant du champ de la présente Norme Européenne (par exemple la simulation du comportement d'un véhicule), il peut être utile ou nécessaire d'utiliser des théories plus élaborées. Ces méthodes ne relèvent pas du domaine d'application de la présente Norme Européenne.
Pour l’application de la présente Norme Européenne, des recommandations générales sont données en Annexe I.

Železniške naprave - Metoda za ugotavljanje ustrezne koničnosti

General Information

Status
Withdrawn
Publication Date
11-Mar-2008
Withdrawal Date
02-Nov-2010
ICS
17.040.20 - Properties of surfaces
45.060.01 - Railway rolling stock in general
Technical Committee
CEN/TC 256 - Railway applications
Drafting Committee
CEN/TC 256/WG 10 - Vehicle/Track Interaction
Current Stage
9960 - Withdrawal effective - Withdrawal
Start Date
03-Nov-2010
Completion Date
03-Nov-2010
Directive
93/38/EEC - Procurement procedures of entities operating in the water, energy, transport and telecommunications sectors
96/48/EC - Interoperability of the trans-European high-speed rail system
Mandate
M/024 - Mandate to CEN/CENELEC/ETSI for programming and standardization in the field of railway equipment
M/275 - Mandate to CEN/CENELEC/ETSI for standardization in the field of railway equipment on the interoperability of the Trans-European high-speed rail system
Ref Project
SIST EN 15302:2008 - Railway applications - Method for determining the equivalent conicity

Relations

Merged Into
EN 15302:2008+A1:2010 - Railway applications - Method for determining the equivalent conicity
Effective Date
06-Sep-2010
Amended By
EN 15302:2008/FprA1 - Railway applications - Method for determining the equivalent conicity
Effective Date
15-Feb-2010

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Railway applications - Method for determining the equivalent conicityApplications ferroviaires - Méthode de détermination de la conicité équivalenteBahnanwendungen - Methode zur Bestimmung der äquivalenten Konizität45.060.01Železniška vozila na splošnoRailway rolling stock in generalICS:SIST EN 15302:2008enTa slovenski standard je istoveten z:EN 15302:200801-junij-2008SIST EN 15302:2008SLOVENSKI
STANDARD
EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN 15302March 2008ICS 17.040.20; 45.060.01 English VersionRailway applications - Method for determining the equivalentconicityApplications ferroviaires - Méthode de détermination de laconicité équivalenteBahnanwendungen - Verfahren zur Bestimmung deräquivalenten KonizitätThis European Standard was approved by CEN on 7 February 2008.CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this EuropeanStandard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such nationalstandards may be obtained on application to the CEN Management Centre or to any CEN member.This European Standard exists in three official versions (English, French, German). A version in any other language made by translationunder the responsibility of a CEN member into its own language and notified to the CEN Management Centre has the same status as theofficial versions.CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland,France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMITÉ EUROPÉEN DE NORMALISATIONEUROPÄISCHES KOMITEE FÜR NORMUNGManagement Centre: rue de Stassart, 36
B-1050 Brussels© 2008 CENAll rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 15302:2008: E

Example of presentation of ∆∆∆∆r function and conicity.21 Annex B (informative)
Example of method for determining the equivalent conicity by integration of the nonlinear differential equation.22 B.1 Principle.22 B.2 Steps of the procedure.25 B.3 Special cases.26 Annex C (informative)
Example of method for determining the equivalent conicity by linear regression of the ∆∆∆∆r function.28 C.1 Principles.28 C.2 Steps of the procedure.28 C.3 Particularities.28 Annex D (normative)
Reference profiles.29 D.1 Wheel A.29 D.1.1 Drawing.29 D.1.2 Analytic definition.29 D.1.3 Cartesian coordinates.30 D.2 Wheel B.31 D.2.1 Drawing.31 D.2.2 Analytic definition.31 D.2.3 Cartesian coordinates.32 D.3 Wheel H.33 D.3.1 Drawing.33 D.3.2 Analytic definition.33 D.3.3 Cartesian coordinates.34 D.4 Wheel I.35 D.4.1 Drawing.35 D.4.2 Analytic definition.35

Calculation results with reference profiles.39 E.1 Wheel A / Rail A.40 E.1.1 Diagram of ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.40 E.1.2 Representation of the curves of kinematic rolling movement of the wheelset on track.41 E.1.3 Numerical values for ∆∆∆∆r function.42 E.1.4 Numerical values for tanγγγγe function.43 E.2 Wheel B / Rail A.44 E.2.1 Diagram ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.44 E.2.2 Representation of the curves of kinematic rolling movement of the wheelset on track.45 E.2.3 Numerical values for ∆∆∆∆r function.46 E.2.4 Numerical values for tanγγγγe function.47 E.3 Wheel H / Rail A.48 E.3.1 Diagram of ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.48 E.3.2 Representation of the curves of kinematic rolling movement of the wheelset on track.49 E.3.3 Numerical values for ∆∆∆∆r function.50 E.3.4 Numerical values for tanγγγγe function.51 E.4 Wheel I / Rail A.52 E.4.1 Diagram of ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.52 E.4.2 Representation of the curves of kinematic rolling movement of the wheelset on track.53 E.4.3 Numerical values for ∆∆∆∆r function.54 E.4.4 Numerical values for tanγγγγe function.55 E.5 Modified Wheel A (-2 mm on left wheel diameter) / Rail A.56 E.5.1 Diagram of ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.56 E.5.2 Representation of the curves of kinematic rolling movement of the wheelset on track.57 E.5.3 Numerical values for ∆∆∆∆r function.58 E.5.4 Numerical values for tanγγγγe function.59 E.6 Modified Wheel B (-2 mm on left wheel diameter) / Rail A.60 E.6.1 Diagram of ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.60 E.6.2 Representation of the curves of kinematic rolling movement of the wheelset on track.61 E.6.3 Numerical values for ∆∆∆∆r function.62 E.6.4 Numerical values for tanγγγγe function.63 E.7 Modified Wheel H (-2 mm on left wheel diameter) / Rail A.64 E.7.1 Diagram of ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.64 E.7.2 Representation of the curves of kinematic rolling movement of the wheelset on track.65 E.7.3 Numerical values for ∆∆∆∆r function.66 E.7.4 Numerical values for tanγγγγe function.67 E.8 Modified Wheel I (-2 mm on left wheel diameter) / Rail A.67 E.8.1 Diagram of ∆∆∆∆r, tanγγγγa, tanγγγγe functions and representation of contact points.67 E.8.2 Representation of the curves of kinematic rolling movement of the wheelset on track.69 E.8.3 Numerical values for ∆∆∆∆r function.
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