The present invention relates to devices for shifting the stops of the articulated railway cars or wagons when negotiating a curve.
The applicant has developed various mechanical systems relating to the wheels and cars of railway vehicles to improve their safety and comfort.
In fact, the applicant has developed guiding systems for the wheels of wagons for railway vehicles in several of his patents. Thus, for example, the zero angle guiding system is described in Spanish patent 200131 (“Sistema guiado de pares de ruedas” (Guiding System for Pairs of Wheels)), and the negative angle guiding system in Spanish patent 194612 (“Suspensión para trenes ligeros con rodal sencillo” (Suspension for Light Rails with a Simple Wheelset)). By means of these systems, the risk of derailing in curves is prevented, guiding the wheels such that when running on a curve at a high speed the outer wheels strike the track with a nil or negative angle of incidence which tends to hold the wheel in the rail.
In the zero angle guiding system, the wheel is parallel to the tangent to the curve in the point of contact, whereas in the negative angle guiding system, a small angle is formed in curves.
These guidance systems for the wheels are applied to articulated trains made up of cars or wagons pivoted to one another at their ends and which are supported at the ends by a pair of wheels or by a pair of bogies.
On the other hand, when mobile ones run on a curved path or track, they are in general naturally subjected to a lateral push toward the outside thereof (due to centrifugal force) which, in the case of railway vehicles, translates into a tendency to roll over toward the outside and into a turning of the cars in the same direction. With the antiroll-type suspension developed by the applicant for the Talgo Pendular family of trains (which is described, for example, in his Spanish patent 424615, “Sistema de suspension pendular” (Antiroll Suspension System)), the direction of this turning could be reversed such that in these trains, when the cars of the vehicles run on curves, they tilt naturally “toward the inside” of the curves. This allows considerably reducing the lateral force to which people who are inside the cars of the vehicles are inevitably subjected when traveling on curves.
The cars have a certain lateral clearance with respect to the wheelset comprising the wheels; in order to prevent them from coming out when movements due to lateral forces are experienced (for example, when traveling on a curve), side stops are placed which limit the lateral movement of the car, or relative movement with respect to its wheels.
In antiroll-type suspension, when running on a curve at a low speed, the centrifugal force is very small and does not compensate for the natural movement natural toward the inside of the curve which is typical of said suspension, therefore in practice the shifting of the car is toward the inside of the curve. The lateral shifting of the car toward the inside of the curve must be taken into account when designing the dimensions of the car, such that it can comply with the required outer gauge and thus enable its circulation without any interference. This means that for practical purposes, the width of the wagons can be reduced.
Thus, the object of the present invention is to provide devices for shifting the stops of articulated cars of a railway vehicle in curves which reduces the lateral shifting of the car toward the inside of the curve with respect to the wheel assembly and, therefore, which allows designing wider cars.
The invention provides a device for shifting the stops of articulated cars of railway vehicles in curves, which device is arranged between every two contiguous cars articulated by means of a transversely centered coupling or articulation, the cars having a protruding element protruding from their front part connected to the coupling or articulation projecting from the rear part of the preceding car, in which the preceding car has two supports fixed to its bed and close to its rear contour symmetrically with respect to the longitudinal axis of said car, from which corresponding ties emerge backwardly, which ties are articulated at one end on said supports and at the other end are connected to respective slides by means of respective articulations located at one end of each of said slides, the slides being able to shift on guides located in the respective lateral faces of the protruding element of the other car connected to the coupling or articulation; the following car has two supports fixed to its bed and close to its front contour symmetrically with respect to the longitudinal axis of said car, from which corresponding ties emerge forwardly, which ties are articulated at one end on said supports and at the other end are connected to respective support parts by means of respective articulations, each of the parts having a protruding stop on its outer face; and the support parts and the slides are wedge-shaped, such that the inclined plane corresponding to the inner face of each support part is coupled, such that it can shift, to a guide located in the inclined plane corresponding to the outer face of the corresponding slide.
A device for shifting the stops of articulated cars of railway vehicles in curves is also provided, which device is arranged between every two contiguous cars articulated by means of a transversely centered coupling or articulation, the cars having a protruding element protruding from their front part connected to the coupling or articulation projecting from the rear part of the preceding car, in which the preceding car has two supports fixed to its bed and close to its rear contour symmetrically with respect to the longitudinal axis of said car, from which corresponding ties emerge backwardly, which ties are articulated at one end on said supports and at the other end are connected to respective slides by means of respective articulations located at one end of each of said slides, the slides being able to shift on guides located in the respective lateral faces of the protruding element of the other car connected to the coupling or articulation; in which the following car has two supports fixed to its bed and close to its front contour symmetrically with respect to the longitudinal axis of said car, from which corresponding ties emerge forwardly, which ties are articulated at one end on said supports and at the other end are connected to respective support parts by means of respective articulations, each of the parts having a protruding stop on its outer face and elastic means connecting each support part with the corresponding lateral face of the protrusion of the car; and in which the support parts have an inner face in the form of an inclined plane and the slides are wedge-shaped with their outer face having the same inclination as that of the inner face of the support part, such that the inclined plane corresponding to the inner face of each support part is coupled to a guide located in the inclined plane of the outer face of the corresponding slide, such that each slide can shift along the inclined plane of the inner face of the respective support part.
A device for shifting the stops of articulated cars of railway vehicles in curves is also provided, which device is arranged between every two contiguous cars articulated by means of a transversely centered coupling or articulation, the cars having a protruding element protruding from their front part connected to the coupling or articulation projecting from the rear part of the preceding car, in which the preceding car has two rods integral therewith and projecting from its rear part symmetrically with respect to its longitudinal axis; on the respective lateral faces of the protruding element there are respective wedge-shaped slides able to shift on guides located in said lateral faces, said lateral faces comprising an end stop for the slide, each slide being supported by one of its end surfaces on an elastic means which is connected to the front edge of the following car; on the respective lateral faces of the protruding element there are respective support parts fixed to said faces, each of said support parts with an opening on its outer face housing a stop able to shift transversely, the inner surface of the stop having an inclination corresponding to that of the inclined plane of the outer surface of the wedge-shaped slide, the slides being able to shift inside the corresponding support parts; and in which the rods have a length such that, when the preceding and following cars are aligned, said rods make contact on the corresponding end faces of the slides.
By means of these configurations, it is achieved that the stops can shift toward the inside of the curve when the preceding car enters a curve, thus limiting the lateral shifting of said car toward the inside of the curve when entering the curve at a low speed.
Another advantage of the device of the invention is that since it allows designing wider cars, the passenger has more space inside the inner compartment.
Other features and advantages of the present invention will be understood from the following detailed description of several illustrative embodiments of its object in relation to the attached figures.
The position of the car when, due to the antiroll-type suspension, the car has shifted toward the inside of the curve is depicted with a solid line. If the lateral contour of the wagon located in the inner part of the curve was similar to a chord with a circumference of radius R (that corresponding to the curve of the inner rail) the distance indicated as “a” in the figure would be the distance of the chord to the arc of circumference, called sagitta. This distance (sagitta) limits the width of the car on the inner part of the curve.
The position of the car when the device of the present invention has been implemented for shifting the stops of the articulated railway cars or wagons when it is entering a curve is depicted with a dotted line (similarly, said position has been exaggerated). As can be seen, the lateral contour of the wagon located in the inner part of the curve is maintained closer to the inner rail and the lateral contour of the wagon located in the outer part of the curve is somewhat separated from the outer rail. It is observed that in this case the new sagitta “b” is less than the sagitta “a” of the position in the solid line, since the distance “a” has been distributed on both the inner and outer sides of the curve. The outer gauge is thus reduced by the inner part of the curve, which in the previous situation was rather large
The cars 6, 6′ are connected by means of a centered articulation 12 with coupling located in the vertical plane containing the axes of the wheels 7, 7′. In the device of the invention, a pair of supports 4 is fixed to the bed of the car 6, close to its front contour symmetrically with respect to the longitudinal axis of said car 6. Ties 5 can be observed, which ties 5 are articulated at one end on said supports 4 and at the other end are connected to respective wedge-shaped support parts 1 by means of respective articulations located at the end of each of said support parts 1. The stops 3 are located on the outer face of these support parts 1, projecting from said outer faces (i.e., parts 1 serve as a support for the stops 3).
In the right half of
In the part of the device closest to the wheel 7′ located in the outer part of the curve, the distance between the articulations of the supports 4 and 4′ increases, whereby the slide 2 turns with respect to its articulation 10′ and shifts toward the right in the figure. In turn, the respective wedge-shaped support part 1 can also turn with respect to its articulation 10 and shift toward the left on the respective slide 2.
By arranging the articulations 10 (at the end of each of the support parts 1) and 10′ (at the end of each of the slides 2), the relative turning between cars 6, 6′ is not blocked when traveling on the curve.
As has been seen, in this embodiment both stops 3 shift. The shifting of the stop 3 located in the inner part of the curve is the necessary shifting to prevent the car 6′ from coming out of the gauge on the inside of the curve, since said stop 3 is integral with the support part 1 which can move on the guide of the slide 2, without being detached from it.
The embodiment depicted in
With regard to the differences between this embodiment and the preceding embodiment,
In the part of the device closest to the wheel 7′ located in the outer part of the curve, the distance between the articulations of the supports 4 and 4′ increases, whereby the slide 2 turns with respect to its articulation 10 and shifts toward the right in the figure; this makes the inclined inner surface of the support part 1 separate from the inclined outer surface of the wedge-shaped slide 2 (as depicted with the two inclined solid lines in
In this second embodiment, therefore, only the inner stop 3 separates from the lateral face of the protrusion 9 of the car 6, the outer stop 3 maintaining the same distance with respect to its respective lateral face of the protrusion 9 of the car 6.
The shifting of the stop 3 located in the inner part of the curve is the necessary shifting to prevent the car 6′ from coming out of the gauge on the inside of the curve, since said stop 3 is integral with the support part 1 which can separate from the corresponding lateral face of the protrusion 9 of the car 6, being bound to it by the elastic means 11.
It is observed in said figures that the support parts 1 are fixed on the respective lateral face of the protruding element 9 of the car 6. Each support part 1 is U-shaped, with a guiding opening in its outer face through which the stop 3 comes out. The stop 3 is guided in the opening of the support part 1 such that it can shift transversely (i.e., in the direction perpendicular to the respective lateral face of the protruding element 9 of the car 6).
The slides 2 can slide on guides located in the respective lateral faces of the protruding element 9 of the car 6, which in
In
The symmetrical arrangement of the elements of the device is also observed in this embodiment with respect to the longitudinal axes of the cars 6 and 6′.
Since the inner surface of the stop 3 has an inclination corresponding to that of the outer surface of the wedge-shaped slide 2, when the rod 14 shifts toward the left it pushes the slide 2, which makes the stop 3 protrude toward the inside of the curve, in the direction perpendicular to the respective lateral face of the protruding element 9 of the car 6.
The slides 2 shift inside the corresponding support parts 1, which in the embodiment shown in the figures are U-shaped.
The elastic means 13 protruding from the front edge of the car 6 in the part of the device closest to the wheel 7, and which is supported on the end face with a smaller surface area of the slide 2, is pushed and compressed by the slide 2 when it is traveling on the curve (as observed in
In the part of the device closest to the wheel 7′ located in the outer part of the curve, the corresponding rod 14 shifts toward the right when the railway vehicle travels on said curve, whereby separating from the slide 2. As in
The rods 14 have a length such that when the cars 6 and 6′ are aligned (i.e., in a straight path), said rods 14 make contact on the corresponding end faces of the slides 2 (i.e., at the height of the end stops 15 of the slides 2).
In all the embodiments, when the lateral shifting of the stops 3 toward the inside of the curve in the part of the device closest to the wheels 7 occurs, the lateral shifting of the car toward the inside of the curve is limited since said stops 3 will contact with the corresponding surface of the wheelset, stopping said lateral shifting of the car.
Obviously, if the layout is of a curve symmetrical to the one depicted, the working would be the same due to the symmetry of the assembly for all the embodiments.
In the articulated system to which the device of the invention is applied, the point of coupling 12 between cars 6, 6′ is centered in relation to the axis of the track (i.e., transversely centered).
Those modifications comprised within the scope defined by the following claims can be introduced in the preferred embodiments of the invention described above.
Number | Date | Country | Kind |
---|---|---|---|
P200802171 | Jul 2008 | ES | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/ES2009/070300 | 7/22/2009 | WO | 00 | 4/12/2011 |