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EP 1 986 905 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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07.09.2011 Bulletin 2011/36 |
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Date of filing: 26.02.2007 |
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International Patent Classification (IPC):
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International application number: |
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PCT/GB2007/000666 |
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International publication number: |
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WO 2007/096655 (30.08.2007 Gazette 2007/35) |
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SIDE BEARER
GLEITSTÜCK
GALET DE GLISSOIR
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Designated Contracting States: |
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AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IS IT LI LT LU LV MC NL PL PT RO SE
SI SK TR |
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Priority: |
24.02.2006 GB 0603703 13.03.2006 US 781693 P
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Date of publication of application: |
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05.11.2008 Bulletin 2008/45 |
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Proprietor: SCT Europe Limited |
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Kirkcaldy
Fife KY1 3UF (GB) |
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Inventors: |
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- AITKEN, Alan, John
Fife KY8 5PS (GB)
- TAYLOR, David
Fife KY12 3AR (GB)
- JAMIESON, Wayne
Fife KY8 3AH (GB)
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Representative: Dunlop, Brian Kenneth Charles |
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Wynne-Jones, Lainé & James LLP
Essex Place
22 Rodney Road Cheltenham
Gloucestershire GL50 1JJ Cheltenham
Gloucestershire GL50 1JJ (GB) |
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References cited: :
EP-A- 1 186 503 EP-A- 1 488 978 US-A- 2 285 140 US-A- 5 086 707 US-A1- 2005 183 626
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EP-A- 1 484 227 WO-A-03/072413 US-A- 3 712 691 US-A- 5 315 934
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] This invention relates to a side bearer for use on a railway vehicle.
[0002] It is usual to mount side bearers between a rallway bogie and the associated vehicle
under-frame to restrict or damp movement between the under-frame and the bogie, A
typical side bearer comprises a lower component secured to the bolster of the bogie,
compression springs seated on the lower component and the upper component seated onto
the springs. The upper component carries a bearing plate arranged to engage a surface
of the vehicle under-frame, and allow free movement between the surfaces in the horizontal
plane. This movement is sliding movement and is controlled by friction.
[0003] In use, two such side bearers are used on each bogie, the side bearers being located
symmetrically each side of the bogie central pivot. The side bearers serve to control
sideways tilting movement of the vehicle whilst at the same time allow the vehicle
to pass around rail curves.
[0004] In curving movement of the vehicle, the resultant angular movement between the under-frame
and the bogie may not be friction damped initially, in the longitudinal direction.
This is due to slack resulting from air spaces in the side bearer arrangement. This
is undesirable,
EP1488978 shows a side bearer having a resiliently mounted friction pad and inclined mounting
surfaces.
[0005] The present invention consists in a side bearer for a railway bogie having a longitudinal
axis, Including a lower component for attachment to the bogie, an upper component
carrying a friction bearing plate for receiving a part of a vehicle to be supported
on the bogie and having a pair of divergent lower surfaces and including a mounting
for mounting the upper component on the lower component for relative vertical movement,
the mounting including first and second elements having respective inclined surfaces
for receiving respective lower surfaces of the upper component, spring means for supporting
the first and second elements and guide means for guiding the first and second elements
for vertical movement characterised in that the first and second elements are horizontally
separable by a downward vertical movement of the upper component for thereby urging
them against the guide means for generating a substantially constant vertical damping
force between the first and second elements and the guide means.
[0006] It will be appreciated that such an arrangement provides a constant longitudinal
friction damping of movement between a bogie and vehicle under-frame even when the
angular motion is small.
[0007] The upper component may have a first pair of surfaces extending in opposite longitudinal
directions and the spring means may include a pair of springs and each may have an
element for a respective first surface mounted thereon.
[0008] The guide means may include an upstanding wall or walls on the lower components.
[0009] In arrangements where the vehicle underframe is likely to experience forces high
enough to induce a breakout, it may be desirable to provide limited longitudinal resilience
so that the transition to break out is progressive. For example, the guide means may
include at least one resiliently mounted shoe and preferably there are respective
shoes for the first and second elements. In either case there may be a fixed abutment
for the or each shoe for limiting longitudinal movement of the shoe.
[0010] Preferably the or each element is in the form of a wedge, in which case the vertical
face of the wedge may engage the guide means and in particular, the upstanding wall.
As these elements are effectively mounted fore and aft on the bogie, this engagement
prevents the longitudinal movement whilst allowing vertical movement.
[0011] Although the invention has been defined above it is to be understood it includes
any inventive combination of the features set out above or in the following description.
[0012] The invention may be performed in various ways and a specific embodiment will now
be described, by way of example, with reference to the accompanying drawings in which:
Figure 1 is a perspective view of a bogie bolster carrying two side bearers;
Figure 2 is a front view of the bolster of Figure 1;
Figure 3 is a section along the line III-III;
Figure 4 is a view along the line IV-IV, partly in section, illustrating the side
bearer in more detail;
Figure 5 is a plan view of the arrangement of Figure 4;
Figure 6 is a scrap sectional view showing alternative guide means.
[0013] The side bearer 10, which is illustrated in the accompanying drawings, has a lower
component 11, which is bolted to a bogie bolster 12 as can be seen in. Figures 1 to
3. It will be understood other securing means could be used. The lower component 11
carries an upstanding, generally rectangular wall 13, which as will be set out below,
acts as the guide means. Located within the wall 13 are a pair of fore and aft stops
14, which are themselves secured to the bolster 11, as can best be seen in Figure
3. Encircling each stop, and located thereby, are respective springs 15 that in turn
support an upper component 16, in a manner described below. The upper component 16
can move vertically on the springs 15 and this vertical movement is limited, in a
downward direction, by the stops 14. The upper component carries a bearing plate or
friction pad 17, which is designed to engage against an associated surface mounted
upon or forming part of a vehicle under frame (not shown) of the associated wagon
body.
[0014] As can be seen in Figures 3 and 4 the upper component 16 has a downward projection
18 that defines a pair of inclined surfaces 19 which extend in opposite longitudinal
directions. Separate wedge elements 20 are disposed intermediate the respective surfaces
19 and springs 15 to transmit the vertical load, imposed by the wagon body, to their
respective spring 18.
[0015] Each wedge 20 has an inclined surface 21 and a vertical surface 22. The interaction
between the respective engaging inclined surfaces 19 and 21 urges the vertical surface
22 against the wall 13, which thereby guides the surface 22 for vertical movement,
but prevents any outward longitudinal movement of the wedge 20 and hence of the upper
component 16.
[0016] The springs 15 thus hold the friction pads 17 in constant contact with the friction
surface provided on the vehicle under frame. Any vertical movement occurring as a
result of pitch or roll of the vehicle is thus accommodated by the springs 15 compressing
and forces the wedges 20 apart into constant contact with the respective portions
of the inner vertical surface of the wall 13 resulting in constant vertical clamping
of the wedges 20. Thus constant damping between the bogie and the vehicle under frame
is maintained in the longitudinal direction of the vehicle. In the event that relative
vertical movement between the bogie and the vehicle under frame reaches a predetermined
level then the wedges 20 will contact the stops 14 preventing any further vertical
movement.
[0017] It can be seen from Fig.4 that the upper component 16 can move away from the horizontal
orientation by differential vertical compression of the springs 15, whilst maintaining
the wedges 20 in vertical contact with the wall 13, so as to accommodate tilt of the
vehicle caused by the rails.
[0018] Figure 6 illustrates an alternative embodiment wherein the guide means is constituted
by a shoe 23 resiliently mounted on a fixed upstanding abutment 24. The shoe 23 may
be in the form of a ring with at least two longitudinal disposed opposed resilient
mountings 25 or there may be a pair of shoes 23, one for each wedge element 20.
[0019] It will be seen that the shoe 23 is C shaped in section and the upright part 26 of
the C provides the vertical guide surface 27 which is engaged by the vertical surface
22 of the respective wedge 20. In normal use, the arrangement functions exactly as
in the previous embodiment. However, when the vehicle underframe experiences a force,
which will overcome the frictional force generated at the bearing plate 17, instead
of a stepped break out occurring the resilient mounting or mountings 25 will allow
sufficient longitudinal movement of the shoe or shoes 23 to provide a progressive
transition to break out, thus avoiding a sudden jolt. It will be noted that the vertical
frictional engagement between the wedges 20 and shoes 23 will be maintained throughout.
[0020] The or each resilient mounting 25 is mounted on the fixed abutment 24, so as to define
a gap 29 between the legs 30 of the shoe 23 and the abutment 28. This gap, which will
normally be of the order of a few millimetres, allows the longitudinal movement to
take place before the legs 30 of shoe 23 lock up against the abutment 28. The resilient
mounting 25 typically includes an extremely stiff elastomeric bush 31. The stiffness
of the bush 31 is preferably selected such that resilient movement will only take
place under forces in the region of the breakout force. Typically it will have a stiffness
around half that of steel.
1. A side bearer (10) for a railway bogie (12) having a longitudinal axis, including
a lower component (11) for attachment to the bogie (12), an upper component (16) carrying
a friction bearing plate (17) for receiving a part of a vehicle to be supported on
the bogie and having a pair of divergent lower surfaces (19) and including a mounting
(13, 15, 20, 22/23, 24, 25, 30) for mounting the upper component (16) on the lower
component (11) for relative vertical movement, the mounting including first and second
elements (20) having respective inclined surfaces (21) for receiving respective said
lower surfaces (19) of the upper component (16), spring means (15) for supporting
the first and second elements (20) and guide means (13/23)four guiding the first and
second elements (20) for vertical movement characterised in that the first and second elements (20) are horizontally separable by a downward vertical
movement of the upper component (16) for thereby urging them against the guide means
(13/23) for generating a substantially constant vertical damping force between the
first and second elements (20) and the guide means (13/23).
2. A side bearer as claimed in claim 1 wherein the upper component (16) has a pair of
first surfaces extending in opposite longitudinal directions; the spring means (15)
includes a pair of springs (15) and an element for each first surface mounted on a
respective spring.
3. A side bearer as claimed in claim 1 or claim 2 wherein the guide means includes an
upstanding wall or walls (13) on the lower component (11).
4. A side bearer as claimed in claim 1 or claim 2 wherein the guide means includes at
least one resiliently mounted shoe (23).
5. A side bearer as claimed in claim 4 including a longitudinally resiliently mounted
shoe (23) for each of the first and second elements.
6. A side bearer as claimed in claim 4 or 5 further including an abutment for the or
each shoe for limiting longitudinal movement of the shoe.
7. A side bearer as claimed in any one of the preceding claims wherein the first or second
element, or each element is in the form of a wedge.
1. Gleitstück (10) für ein Eisenbahn-Drehgestell (12) mit einer Längsachse, das eine
untere Komponente (11) zur Anbringung des Drehgestells (12) und eine obere Komponente
(16) aufweist, die eine Reibungslagerplatte (17) zur Aufnahme eines Teils eines Fahrzeugs
trägt, das auf dem Drehgestell abgestützt ist und ein Paar divergierender unterer
Oberflächen (19) aufweist sowie ein Lager (13, 15, 20, 22 / 23, 24, 25, 30) zur Lagerung
der oberen Komponente (16) auf der unteren Komponente (11) zwecks relativer Vertikalbewegung,
wobei das Lager mit ersten und zweiten Elementen (20) versehen ist, die entsprechende
geneigte Oberflächen (21) zur Aufnahme der entsprechenden genannten unteren Oberflächen
(19) der oberen Komponente (16) besitzen sowie eine Federvorrichtung (15) zur Abstützung
der ersten und zweiten Elemente (20) und eine Führungsvorrichtung (13/23) zur Führung
der ersten und zweiten Elemente (20) bei vertikaler Bewegung, dadurch gekennzeichnet, daß die ersten und zweiten Elemente (20) durch eine vertikale Abwärtsbewegung der oberen
Komponente (16) waagerecht trennbar sind, um sie dadurch gegen die Führungsvorrichtung (13 / 23) zu drücken, um eine im wesentlichen konstante,
senkrechte Dämpfungskraft zwischen den ersten und zweiten Elementen (20) und der Führungsvorrichtung
(13 / 23) zu erzeugen.
2. Gleitstück nach Anspruch 1, dadurch gekennzeichnet, daß die obere Komponente (16) ein Paar erste Oberflächen aufweist, die sich in entgegengesetzte
Längsrichtungen erstrecken, und daß die Federvorrichtung (15) mit einem Paar Federn
(15) versehen ist sowie einem Element für jede erste Oberfläche, das auf einer entsprechenden
Feder gelagert ist.
3. Gleitstück nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß die Führungsvorrichtung eine oder mehrere auf der unteren Komponenten (11) stehende
Wände (13) aufweist.
4. Gleitstück nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß die Führungsvorrichtung wenigstens einen federnd gelagerten Schuh (23) aufweist.
5. Gleitstück nach Anspruch 4, gekennzeichnet durch einen in Längsrichtung federnd gelagerten Schuh (23) für jedes der ersten und zweiten
Elemente.
6. Gleitstück nach Anspruch 4 oder 5, ferner gekennzeichnet durch einen Anschlag für den oder jeden Schuh zur Begrenzung der Längsbewegung des Schuhs.
7. Gleitstück nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, daß das erste oder zweite Element oder jedes Element die Form eines Keils hat.
1. - Galet de glissoir (10) pour un bogie de chemin de fer (12) ayant un axe longitudinal,
comprenant un composant inférieur (11) destiné à être fixé au bogie (12), un composant
supérieur (16) portant une plaque de coussinet (17) pour recevoir une partie d'un
véhicule destiné à être supporté sur le bogie et ayant une paire de surfaces inférieures
divergentes (19) et comprenant un moyen de montage (13, 15, 20, 22/23, 24, 25, 30)
pour monter le composant supérieur (16) sur le composant inférieur (11) en vue d'un
mouvement vertical relatif, le moyen de montage comprenant des premier et second éléments
(20) ayant des surfaces inclinées respectives (21) pour recevoir lesdites surfaces
inférieures respectives (19) du composant supérieur (16), un moyen de ressort (15)
pour supporter les premier et second éléments (20) et un moyen de guidage (13/23)
pour guider les premier et second éléments (20) en vue d'un mouvement vertical, caractérisé par le fait que les premier et second éléments (20) sont séparables horizontalement par un mouvement
vertical descendant du composant supérieur (16), permettant ainsi de les solliciter
contre le moyen de guidage (13/23) pour générer une force d'amortissement verticale
sensiblement constante entre les premier et second éléments (20) et le moyen de guidage
(13/23).
2. - Galet de glissoir selon la revendication 1, dans lequel le composant supérieur (16)
a une paire de premières surfaces s'étendant dans des directions longitudinales opposées,
le moyen de ressort (15) comprend une paire de ressorts (15) et un élément pour chaque
première surface montée sur un ressort respectif.
3. - Galet de glissoir selon l'une des revendications 1 ou 2, dans lequel le moyen de
guidage comprend une ou des parois dressées (13) sur le composant inférieur (11).
4. - Galet de glissoir selon l'une des revendications 1 ou 2, dans lequel le moyen de
guidage comprend au moins un patin (23) monté de manière élastique.
5. - Galet de glissoir selon la revendication 4, comprenant un patin (23) monté longitudinalement
et de manière élastique pour chacun des premier et second éléments.
6. - Galet de glissoir selon l'une des revendications 4 ou 5, comprenant en outre une
butée pour le ou chaque patin afin de limiter un déplacement longitudinal du patin.
7. - Galet de glissoir selon l'une quelconque des revendications précédentes, dans lequel
le premier ou second élément ou chaque élément se présente sous la forme d'un coin.
REFERENCES CITED IN THE DESCRIPTION
This list of references cited by the applicant is for the reader's convenience only.
It does not form part of the European patent document. Even though great care has
been taken in compiling the references, errors or omissions cannot be excluded and
the EPO disclaims all liability in this regard.
Patent documents cited in the description