The present invention relates to components of a railway rail fastening assembly.
Generally railway rail fastening assemblies for fastening railway rails comprise two anchoring devices secured to a concrete railway rail sleeper or tie such that there is an anchoring device on each side of the rail seat area. The anchoring devices may be configured to retain respective resilient railway rail fastening clips in a configuration in which the clips bear on a foot of the railway rail when the rail is located adjacent to the anchoring device. In such cases, plastic sidepost insulators, for electrically insulating the anchoring devices from the rail, may be provided on each anchoring device so that a load bearing face of the sidepost insulator lies between the anchoring device and the rail foot.
Plastic sidepost insulators are subject to wear, and the rate of wear in areas where the track curves tightly may be higher than is desirable. However, these tight curves may constitute only a very small percentage of the areas where sleepers are used, so it is desirable to provide a solution to the wear problem which does not add significant extra cost into the assembly used in other areas of the track. For example, it is undesirable to provide a wider bearing area for the sidepost insulator by making the anchoring device bigger and wider overall, because of the additional cost of the anchoring devices. In addition, new patterns would be needed to make such anchoring devices and significant modification would be required to existing concrete sleeper moulds to accommodate anchoring devices with a bigger “footprint”.
One way of providing a wider bearing area was proposed by the present applicants in WO2010/116118, where it is suggested that concrete upstands are built up on either side of the rail seat area to give an additional face against which lateral loads can be reacted, but this proposal requires a modification of existing sleeper moulds and in particular a more complex mould shape, making moulding sleepers more difficult.
According to an embodiment of a first aspect of the present invention there is provided an anchoring device, for use in a railway rail fastening assembly which employs a resilient railway rail fastening clip to fasten a railway rail, the device being configured to retain such a resilient railway rail fastening clip in a configuration in which the clip bears on a foot of the railway rail when located adjacent to the anchoring device when the device is in use, the device comprising a body having a front portion, which is configured to provide a first load bearing surface which extends alongside the rail foot when the device is in use, and first and second side faces respectively located on opposite sides of the body and configured to extend transversely away from the first portion, wherein the device further comprises first and second projecting portions, the first projecting portion extending outwardly from the first side face of the body, the first projecting portion providing a first additional load bearing surface which is set back from the first load bearing surface, and the second projecting portion extending outwardly from the second side face of the body, the second projecting portion providing a second additional load bearing surface which is set back from the first load bearing surface.
In an anchoring device embodying the present invention each of the first and second projecting portions may extend to the uppermost edge of the side face from which it extends.
An anchoring device embodying the present invention preferably further comprises first and second ledge portions, the first ledge portion extending outwardly from the first side face of the body and the second ledge portion extending outwardly from the second side face of the body, the first ledge portion extending from the first additional load bearing surface towards the first load bearing surface and providing a first support surface, and the second ledge portion extending from the second additional load bearing surface towards the first load bearing surface and providing a second support surface.
In such an anchoring device, one or each of the first and second ledge portions may extend to the first load bearing surface.
In such an anchoring device, one or each of the first and second ledge portions may extend from its associated additional load bearing surface at a lowermost edge thereof.
Such an anchoring device may further comprise additional ledge portions which extend around, and project outwardly from the lowermost edge of, at least part of the first ledge portion and the second ledge portion.
In an anchoring device embodying the present invention the first load bearing surface, the first additional load bearing surface and the second additional load bearing surface may be substantially parallel to one another.
In an anchoring device embodying the present invention each of the first and second projecting portions may further comprise a face, on the opposite side of the projecting portion to the additional load bearing surface, which provides an abutment surface.
In an anchoring device embodying the present invention the first and second additional load bearing surfaces may be configured to interact with corresponding surfaces on another component of the rail fastening assembly.
In an anchoring device embodying the present invention the first and second projecting portions may be configured to interlock with mating features on the said component. In such an anchoring device the first and second ledge portions may be configured to support the said component and, if provided, the additional ledge portions may also be configured to support the said component.
According to an embodiment of a second aspect of the present invention there is provided a component for use in a railway rail fastening assembly which employs an anchoring device for retaining a railway rail fastening clip, the component comprising first and second sections providing respective first and second auxiliary load bearing surfaces, and a third section interconnecting respective parts of the first and second sections so that the first and second sections are spaced apart whereby the component can be mounted on such an anchoring device such that the first and second sections are on opposite sides thereof, the front parts of each of the first and second sections having respective rear contact faces, opposite to the auxiliary load bearing surface thereof, for contacting a load bearing face of the anchoring device when mounted thereon
In a component embodying the present invention the front parts of each of the first and second sections may further comprise respective bottom contact faces for contacting a support surface on the anchoring device.
In a component embodying the present invention the third section may be connected to the first and second sections at parts thereof which are spaced from the auxiliary load bearing surfaces.
In a component embodying the present invention, in each of the first and second sections, the rear contact face may define one wall of a slot provided in that section for engaging a mating feature on the anchoring device. Uppermost ends of the slots may be closed, in order to strengthen the component.
In a component embodying the present invention the thickness of the first and second sections may be greater at the auxiliary load bearing surface thereof than at the parts connected to the third section.
According to an embodiment of a third aspect of the present invention there is provided apparatus for use in a railway rail fastening assembly, the apparatus comprising an anchoring device configured to retain a resilient railway rail fastening clip in a configuration in which the clip bears on a foot of the railway rail when located adjacent to the anchoring device when the device is in use, wherein the anchoring device is a device embodying the first aspect of the present invention and the assembly further comprises a component embodying the second aspect of the present invention, wherein the component is configured so as to be mountable on the said anchoring device such that the first and second sections of the component lie respectively on opposite sides of the body of the device alongside respective side faces thereof, and the rear contact faces of the first and second auxiliary load bearing surfaces contact the first and second additional load bearing surfaces of the device respectively.
In apparatus embodying the third aspect of the present invention, when the component embodying the second aspect of the present invention has bottom contact faces, the component may be configured so as to be mountable on the said anchoring device such that the bottom contact faces of the first and second sections of the component are preferably in contact with the first and second support surfaces of the device.
In apparatus embodying the third aspect of the present invention, when the component embodying the second aspect of the present invention is provided with slots, the slots of the first and second sections may be shaped and arranged to receive therein the first and second projecting portions of the anchoring device respectively. An uppermost face of the anchoring device body and an uppermost face of the component preferably lie in approximately the same plane. In this case, if uppermost ends of the slots are closed, the first and second projecting portions do not extend to the uppermost edges of the side faces from which they extend.
In such apparatus, the anchoring device and component are preferably shaped and arranged such that, when the component is mounted on the anchoring device the first load bearing surface of the anchoring device and the first and second auxiliary load bearing surfaces of the component lie substantially in the same plane.
By virtue of the component mounted on the anchoring device, the first load bearing surface of the anchoring device is effectively elongated by the length of the first and second auxiliary load bearing surfaces, which are arranged to transfer load into the anchoring device through contact with the additional load bearing surfaces on the anchoring device against which they press when loaded by the rail edge.
It is therefore envisaged that anchoring devices embodying the first aspect of the present invention will be provided at every anchoring position on all sleepers to be supplied to a particular location, but only anchoring devices on the field side of the sleeper at tight curves which require a longer load bearing face will be provided with a component embodying the second aspect of the present invention and an elongate sidepost insulator which sits between the anchoring device/component and the rail foot and has a much wider load bearing face than the standard side post insulators used elsewhere on the track.
A benefit of this idea is that it is relatively easy to implement and does not require significant modification of the moulds used to make the concrete sleepers. Moreover, as the extra component and wider sidepost insulator will only need to be fitted on sleepers destined for curves, or will be retrofitted on site on curves if necessary, there is no significant cost impact on the majority of sleepers.
Preferably, but not necessarily, the anchoring device of the present invention has the same ‘footprint’ when viewed from above as a prior art anchoring device, so that it will still fit into existing unmodified sleeper mould pockets.
Optionally, the size of the first and second projecting portions can be increased by removing material from the outer edges of the front face of the shoulder. This increases the bearing where the component is used, at the expense of reducing it where it is not.
If the sleeper is slightly skewed, as is often the case, such that one side of the component will be loaded preferentially over the other, then the component will tend to rotate relative to the anchoring device and lock off against it, transferring load into the side wall of the anchoring device.
Reference will now be made, by way of example, to the accompanying drawings, in which:
In this embodiment, in which the anchoring device 1 is of the type designed to retain a resilient rail fastening clip formed of a metal plate bent so as to have a C-shaped profile, the anchoring device 1 has a cavity 16 (see
The first and second additional load bearing surfaces 130A, 130B are configured to interact with corresponding surfaces on another component, a collar 2, described below. The first and second projecting portions 13A, 13B are configured to interlock with mating features on collar 2, the first and second ledge portions 14A,14B are configured to support the collar 2, and the additional ledge portions 15A, 15B are configured to support the collar 2.
As shown in
The width of the collar 2 decreases from the front to the rear of the collar 2, i.e. from the auxiliary load bearing surfaces 210A, 220A at the front of the first and second sections 21, 22 to the third section 23. The thickness of the web of material 212, 222 of the first and second sections 21, 22 is greater at the front than at the rear of the collar 2, the thickness of the material tapering gradually from the auxiliary load bearing surface 210A, 220A to the rear part 214, 224 connected to the third section 23.
As shown in
By virtue of the collar 2 mounted on the anchoring device 1, the first load bearing surface 11 of the anchoring device is effectively elongated by the length of the first and second auxiliary load bearing surfaces 210A, 220B, which are arranged to transfer load into the anchoring device 1 through contact with the additional load bearing surfaces 130A, 130B on the anchoring device 1.
This permits the use of a longer sidepost insulator with the anchoring device 1, as shown in
The abutment surfaces 135A, 135B on the anchoring device are provided to cooperate with corresponding features on a standard-length sidepost insulator (not shown) which is fitted to the anchoring device 1 when an extended sidepost insulator is not required and hence a collar 2 is not mounted on the device 1.
A second collar 2′ embodying the second aspect of the present invention is shown in
The collar 2′, which is preferably made from cast metal, comprises first and second sections 21, 22 each having a front part 210, 220, the front parts 210, 220 providing respective first and second auxiliary load bearing surfaces 210A, 220A, and a third section 23 interconnecting respective parts of the first and second sections 21, 22 so that the first and second sections 21, 22 are spaced apart, whereby the collar 2 can be mounted on an anchoring device 1 (see
Although not shown in the Figures, a third collar could be provided which is reduced in height, compared to the collar 2′, to approximately that of the collar 2 whilst still having material over the top of the slots which receive an anchoring device. In this case the slots in the collar may be shorter as compared to the first collar 2 and if so it will also be necessary to provide an anchoring device embodying the present invention in which the height of the first and second projecting portions which project from the side faces of the anchoring device is reduced as compared to the first anchoring device 1, i.e. to provide a second anchoring device in which the first and second projecting portions of the second anchoring device do not extend to the uppermost edges of the side faces.
Although the embodiments have been described with reference to an anchoring device of the type designed to retain a resilient rail fastening clip formed of a metal plate bent so as to have a C-shaped profile, the invention can be applied to other forms of anchoring device designed for fastening assemblies in which the clip is driven onto the rail in a direction substantially perpendicular to the rail or to anchoring devices designed for fastening assemblies in which the clip is driven onto the rail in a direction substantially parallel to the rail.
Number | Date | Country | Kind |
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1111907.0 | Jul 2011 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB2012/051504 | 6/27/2012 | WO | 00 | 11/18/2013 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2013/007980 | 1/17/2013 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
6343748 | Pilesi et al. | Feb 2002 | B1 |
6367704 | Mediavilla | Apr 2002 | B1 |
20030080195 | Mediavilla | May 2003 | A1 |
20070138311 | Young | Jun 2007 | A1 |
20080203181 | Young | Aug 2008 | A1 |
20120031992 | Mediavilla | Feb 2012 | A1 |
20120187203 | Cox | Jul 2012 | A1 |
Number | Date | Country |
---|---|---|
WO 2009004274 | Jan 2009 | WO |
WO 2010089668 | Aug 2010 | WO |
Entry |
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Great Britain's Intellectual Property Office's Search Report under Section 17, dated Oct. 24, 2011, corresponding to Application No. GB1111907.0. |
European Patent Office's International Search Report, dated Nov. 13, 2012, corresponding to International Application No. PCT/GB2012/051504. |
Number | Date | Country | |
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20140061323 A1 | Mar 2014 | US |