The invention relates to a bearing for a section of a track having, along the track section, profile sections which deviate from one another, in particular in the form of switch points, comprising a plurality of supporting points respectively provided with a base plate such as a ribbed plate, tongue heel plate, ribbed plate with sliding bedplate or with a support frame in addition to an intermediate plate made of an elastic material disposed between the base plate and an associated support such as a railway sleeper or concrete plate.
To ensure defined elasticities for the roadbed and at the same time obtain a reduction of body sound, elastic intermediate plates are disposed between the the base plates, such as ribbed plates, housing the track and the support, such as sleepers or concrete plates, it being used both in macadam construction and also in a solid roadway. The elastic intermediate plates used may consist of cellular elastomers such as PU foams which have a spring rigidity which is approximately linearly dependent on the bearing surface of the base plate. The support points extending along a track, in particular in the area of a point, have various rigidities, depending on whether or not they are situated at the start of the point or at the end of the point.
A deflection curve results in the rail for a wheel passing through a track, said deflection curve being essentially dependent on the moment or resistance or inertia of the rail section over which the wheel load is being cleared, as well as the spring rigidity of the supporting point which, in turn, can be influenced by the elasticity of the intermediate plate. The base plate, such as a ribbed plate, of the supporting point is thereby usually dimensioned in such a way that a wheel load is transmitted without deformation of the base plate.
Consequently, the spring rigidity of a track, which results from the quotient consisting of wheel load and subsidence, deviates in the track from that of a point or a crossing.
A rail arrangement having an elastic intermediate plate can be found in DE 198 23 812 A1 which consists of a one-piece vulcanizate and has an essentially even surface as well as an underside divided into zones with different properties.
DE 32 30 565 A1 relates to a rail base for switch construction which consists of sections of individual plates connected by welding.
A bearing for a section of track is known from DE 298 07 791 U1 which has projections cut out at the support end which extend at a distance from the supporting surface during the normal introduction of force.
The object of the present invention is to improve a bearing of the aforementioned type for a section of track which has rail sections that deviate from one another in their profile sections, in particular in the form of a point in such a way that track-like conditions result, i.e. the deflection curve in the area e.g. of a point or crossing corresponds to that in the normal track.
According to the invention, the object is solved essentially thereby that each or essentially each supporting point of the track section has the same maximum subsidence, taking the rail section or sections cleared from it into consideration. This means that the intermediate plate is disigned with respect to the moment of resistance which is essentially determined by the rail section supported on the base plate or the rail sections supported thereon, in such a way that the same or essentially the same maximum subsidence results along the track section in each supporting point when a wheel travels through the track section.
In particular, it is provided that the respective intermediate plate has a surface extension clearing the base plate which is independent of the load-clearing base surface of the base plate facing the intermediate plate for supporting points intended for rail sections having the same moment of resistance. In other words, an elastic intermediate plate which always has the same clearing surface extends below the base plate independent of its surface extension.
In a further embodiment of the invention, it is provided that the intermediate plate braces the base plate essentially in its front end area vis-à-vis the support when there is no wheel load.
The intermediate plate itself should have bone-shaped recesses extending along each longitudinal edge in the central area which extend at least symmetrically to the transverse axis, in particular, also symmetrically to the longitudinal axis of the intermediate plate.
The geometry of the recesses is preferably selected in such a way that each recess has a length 1a parallel to the transverse axis of the base and that two recesses disposed in a row extending parallel to the transverse axis have a distance 1z, with 1.1×1a≦1z≦1.5×1a. The recesses are thereby limited by a continuous section of the intermediate plate which extend in a set back manner during usual, i.e. not inadmissible wheel loads relative to the free outer surface of the sections of the intermediate plate extending at the front end and supporting the base plate. This also ensures a secure support of the base plate directly below the rail section proceeding from the base plate, so that inadmissible stresses are excluded.
Furthermore, it is provided that a U-shaped further recess is made in the intermediate plate in the respective transverse edge area adjoining the recesses having a bone-shaped geometry, the longitudinal side of said recess having a maximum width which corresponds to the length of the respective peripheral recess.
Further details, advantages and features of the invention can be found not only in the claims, the features that can be found therein—alone or in combination—but also in the following description of preferred embodiments that can be found in the drawings, showing
Elements of supporting points along a switch point can be found in the figures, without these restricting the teaching according to the invention. Rather, this applies quite generally to track sections in which the supporting points with the rail sections supported thereon having moments of resistance that deviate from one another. Based on the teaching of the invention, however, the same maximum subsidence results in each support point when a wheel with the same load travels through it. According to the invention, this is accomplished by placing an elastic intermediate plate between the respective ribbed plate and the support, such as a sleeper or concrete plate, which is primarily designed on the basis of the moment of resistance of the rail section supported on the ribbed plate or the supported rail sections such as stock rail and tongue rail to ensure the same maximum subsidence. It is thereby assumed that the ribbed plate is dimensioned in such a way that the wheel load is passed through without deformation of the ribbed plate. Otherwise, the moment of resistance would also be taken into consideration when designing the intermediate plate for carrying out the teaching of the invention.
A ribbed plate 10 is shown in
On the bottom, the ribbed plate 10 is provided with an elastic intermediate plate 24. The intermediate plate 24 can thereby completely surround the ribbed plate 10 both on the bottom and also on the ends, as illustrated in the sectional representations of
As can be seen in
The section 32 itself is composed of a central section 36 as well as sections 46, 48, 50, 52, 54, 56 extending between recesses 38, 40, 42, 44 which together form the section 32. Furthermore, an additional recess 60, 62, rectangular in a top view, extends diagonally to the longitudinal axis 58 of the intermediate plate 24 between section 32 and the front end regions 30, 28, respectively.
The recesses 38, 40, 42, 44 extending in the longitudinal end region have a bone shape and are disposed symmetrically, both to the longitudinal axis 58 and to the transverse axis 64 of the intermediate plate 24.
The recesses 38, 40, 42, 44, 60, 62 produce an overall support surface of the intermediate plate 24 and thus a rigidity, such that the maximum subsidence of a supporting point given by the ribbed plate 10 attains a desired value which is also predetermined by other supports in the area of the point as characteristic quantity, even if the moment of resistance or inertia of the rail sections supported thereon deviate from the arrangement according to
In other words, according to the invention, it is provided that the intermediate plate is made softer with increasing moment of resistance of the supporting rail section or sections.
In
According to the embodiment of
Just as the recesses 38, 40, 42, 44 of
The recesses 78, 80, 82, 84 having a bone-shaped geometry or the sides 104, 106, 108, 110 extending parallel to the transverse axis 88 have a length 1a which is less than the distance 1z between the recesses 78, 82 or 80, 84, respectively. This distance 1z is about 20-50% greater than the length of the recesses 1a.
Due to the greater moments of resistance of the rail sections supported on the ribbed plate 66 with sliding bedplate 68, i.e. stock rail and tongue rail, in comparison to the moment of resistance of the stock rail fixed to the ribbed plate 10, the intermediate plate 72 has a lower rigidity than the intermediate plate 24 of FIG. 2.
If the moment of resistance of a rail section in a supporting point is even greater, then the rigidity of the intermediate plate is even further reduced accordingly, as is going to be shown with reference to
Independent hereof, however, the rigidity of the intermediate plate 116 is selected in such a way that the maximum subsidence of a wheel passing through the supporting point predetermined by the ribbed plate 112 corresponds to the supporting point comprising the ribbed plates 10 and 66.
Number | Date | Country | Kind |
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100 48 787 | Sep 2000 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCTEP01/11046 | 9/25/2001 | WO | 00 | 3/25/2003 |
Publishing Document | Publishing Date | Country | Kind |
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WO0227099 | 4/4/2002 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3831842 | Tamura | Aug 1974 | A |
4155507 | Chierici et al. | May 1979 | A |
4266719 | Ortwein et al. | May 1981 | A |
4618093 | Young et al. | Oct 1986 | A |
Number | Date | Country |
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3230565 | Mar 1983 | DE |
29807791 | Sep 1998 | DE |
19823812 | Dec 1998 | DE |
Number | Date | Country | |
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20040035946 A1 | Feb 2004 | US |