ITTO960591A1 - CERRELLO FOR RAILWAY VEHICLES. - Google Patents

Abstract

A railway vehicle bogie including a frame (1), two axles (6, 7) connected to the frame (1) through respective journal boxes (12, 13), secondary suspension springs (17) interposed between the frame and a load bearing transom (16) intended to be fixed to vehicle body, and hunting absorbers arranged at the opposite sides of the bogie. The hunting absorbers comprise, at each bogie side, a pair of juxtaposed telescopic dampers (21, 22) placed between the load bearing transom (16) and the journal boxes (12, 13) of the two axles (6, 7). The hunting dampers (21, 22) are inclined both in the vertical plane and in the horizontal plane, and may also act as vertical and/or lateral shock absorbers. <IMAGE>

Description

DESCRIPTION of the industrial invention entitled:

"Trolley for railway vehicles"

TEXT OF THE DESCRIPTION

The present invention refers to bogies for railway vehicles, of the type comprising a frame, two axles whose axles are connected to the frame through respective end bushings, a load crossbar arranged above the median area of the frame and intended to be fixed to a railway vehicle body, elastic suspension means interposed between the median zone of the frame and the load beam, vertical shock absorber means and transverse shock absorber means operatively associated with said elastic suspension means, and anti-kerf shock absorber means arranged substantially longitudinally on opposite sides of the trolley.

Traditionally, in known bogies for railway vehicles of the type defined above, the anti-worsening shock absorber means comprise, for each side of the bogie, a single shock absorber interposed, substantially horizontally, between the chassis of the bogie and the corresponding end of the load beam fixed to the vehicle body. railway.

This arrangement, in addition to involving a high energy to be dissipated, has functional limits deriving from the fact that the intervention of the anti-worsening shock absorbers to dampen the instability of the rooms is indirect, since * as explained above, these shock absorbers act between the body and the frame of the trolley. ; The purpose of the present invention is to obviate the aforementioned drawbacks, and to produce a bogie for railway vehicles of the type defined at the beginning, which is endowed with a greater functional efficiency in relation to the damping of the instabilities at meandering, and therefore having an improved dynamic behavior. . A further object of the invention is to simplify the construction of the trolley, with particular reference to the arrangement of the vertical shock-absorbing means and / or of the lateral shock-absorbing means. In order to achieve this object, the invention relates to a bogie for railway vehicles of the type defined at the beginning, the essential feature of which lies in the fact that the aforesaid anti-wasting shock-absorbing means comprise, for each side of the bogie, a pair of opposed telescopic shock absorbers each having one end articulated to the load beam and the opposite end articulated to the corresponding bushing of a respective axle. Thanks to this solution idea, the anti-worming characteristics of the trolley according to the invention are significantly improved, since the two pairs of anti-worming shock absorbers act directly on the halls, avoiding that the instabilities of these are transmitted to the frame of the trolley and from this to the case of the railway vehicle. Improving the stability of the bogie is equivalent to a reduction in the meandering oscillations transmitted by it to the body, and therefore translates into a better ride comfort for the passengers of the railway vehicle equipped with bogies according to the invention. Furthermore, the energy that must be dissipated by the anti-wasting shock absorbers is lower than in the case of traditional trolleys. ; A further advantage of the arrangement according to the invention, appreciable in the case of railway vehicles not equipped with body rotation systems tending to balance the uncompensated centrifugal acceleration when cornering, lies in the fact that the two pairs of anti-kerf shock absorbers exert on the halls steering forces along the inlet and outlet junctions of curves. According to a preferred embodiment of the invention, the telescopic anti-wasting shock absorbers of each pair are arranged obliquely: more particularly, they have an inclination in the vertical plane of the order of 10-202, conveniently between 12 and 152, and a inclination in the horizontal plane of the order of 4-62. ; This arrangement, in addition to improving the aforementioned self-steering effect of the halls, also allows the two pairs of anti-wasting shock absorbers to be used, possibly also to integrate or replace the function of the vertical shock absorbers and / or the function of the side shock absorbers. In the optimal case, the vertical shock absorbers and / or the lateral shock absorbers used in traditional railway bogies can be eliminated, with obvious advantages in terms of greater simplicity of construction and a reduction in weight, bulk and costs. The invention will now be described in detail with reference to the attached drawings, provided purely by way of non-limiting example, in which: Figure 1 is a schematic side elevation view of a trolley for railway vehicles according to the first embodiment of the 1 invention,; figure 2 is a top plan view of figure 1,; figure 3 is a view similar to figure 1 showing a second embodiment of the railway trolley according to the invention, and; figure 4 is a top plan view of Figure 3. Referring initially to Figures 1 and 2, a bogie for railway vehicles according to the invention comprises a frame 1 formed by two longitudinal elements 2,3 connected by two transverse elements 4,5 and bearing two rooms 6,7 near their respective ends. Each hall 6,7 is formed in a conventional way by an axle 8,9 carrying a pair of wheels 10,11 and whose ends are connected to the longitudinal elements 2,3 of the frame 1 by means of respective bushings 12,13 of the conventional type. ; Primary suspension members are also provided between the frame 1 of the trolley and the rooms 6,7, also of a conventional type, indicated generically with 14,15 in figure 1; Reference 16 indicates a load crossbar arranged above the median zone of the frame 1, parallel to the transverse elements 4,5, which is intended to be rigidly fixed to the bottom of a railway vehicle body. Between the load crosspiece 16 and the frame 1 are interposed, also in a conventional manner, primary vertical and lateral suspension springs 17, through which the necessary rotations of the trolley with respect to the body around the vertical axis are also allowed. In the example shown in Figure 1, vertical shock absorbers 18 are also provided, arranged alongside the suspension springs 17 between the central areas of the longitudinal elements 2,3 and the load crosspiece 16, and lateral shock absorbers 19 arranged transversely with one end articulated to a respective longitudinal element 2,3 and the opposite end intended to be articulated to a corresponding attachment fixed to the bottom of the body of the railway vehicle. In Figure 2, 20 schematically indicates two linear actuators, normally hydraulic, arranged transversely and forming part of an active lateral suspension system operating, in a per se known manner, during the curving of the vehicle. The trolley can also be equipped with a system for rotating the body around the longitudinal axis in the curve, also of a per se known type, to balance the uncompensated centrifugal force. ; The trolley is equipped with an anti-worsening damping system which, according to the invention, comprises two pairs of opposed telescopic shock absorbers 21,22 arranged on opposite sides of the frame 1. In particular, each anti-worming shock absorber 21,22 has an articulated end to a bracket 23,24 integral with the bushing 12,13 of the corresponding room 6,7, and the other end articulated to the loading crosspiece 16. In the example shown in Figures 1 and 2, each end of the crosspiece 16 bears a lower attachment central 25,26 for the articulation of the corresponding anti-wasting shock absorbers 21 and 22 respectively. The shock absorbers 21 and 22 of each pair are arranged obliquely both in the vertical plane and in the horizontal plane. As shown in Figure 1, the inclination in the vertical plane is of the order of 10-202, and preferably between 12 and 152. As it is instead shown in Figure 2, the inclination in the horizontal plane is of the order of 4- 62. Thanks to the above described arrangement of the anti-wasting shock absorbers 21 and 22, the trolley according to the invention exhibits a significantly improved dynamic behavior. More in detail, the following advantages are obtained:; - greater stabilization efficiency of the trolley, thanks to the direct intervention of the shock absorbers 21,22 on the swinging motion of the halls 6,7. This allows both to reduce the energy to be dissipated and to increase the intervention speed and the damping effectiveness compared to conventional embodiments in which the anti-kink shock absorbers are interposed between the vehicle body and the chassis of the trolley; ; the symmetries in the vertical plane determine the cancellation of the vertical forces for the movements in the horizontal plane, and consequently the excitations of vertical vibrations of the vehicle body are canceled; ; for normal vehicles (without body rotation), steering forces are exerted on the wheelbases 6,7 during the entrance and exit phases of the curves. A further and important advantage which can be achieved through the invention consists in the fact that the shock absorbers 21, 22, in addition to the anti-worsening function, can also perform the function of vertical shock absorbers and / or lateral shock absorbers. Figures 3 and 4 show a second embodiment of the invention, in which the vertical 18 and lateral 19 shock absorbers of the previously described embodiment are suppressed, and their function is performed by the two pairs of shock absorbers 21,22 . In Figures 2 and 3, in which identical parts similar to those described above with reference to Figures 1 and 2 are indicated with the same numerical references, the shock absorbers 21 and 22 have a greater inclination in the vertical plane than in the previous case: this it is accomplished by moving the articulation points of these shock absorbers 21,22 with respect to the load crosspiece 16 to positions closest to the rooms 6,7, that is, in correspondence with attachments 27,28 close to the edges of said load crosspiece 16.

Of course, intermediate configurations are possible between the solution represented in Figures 1 and 2 and the solution represented in Figures 3 and 4, in which only the vertical shock absorbers 18 or only the lateral shock absorbers 19 are suppressed. In this case the shock absorbers 21,22 will perform, in addition to the specific anti-wasting function, only also the damping function in the vertical plane or only also the damping function in the horizontal plane.

Naturally, the details of construction and the embodiments may be widely varied with respect to what has been described and illustrated, without thereby departing from the scope of the present invention, as defined in the following claims.

Claims (7)

CLAIMS 1. Trolley for railway vehicles including a frame (1), two axles (6,7) whose axles (8,9) are connected to the frame (1) through respective end bushings (12,13), a load beam (16) arranged above the middle area of the frame (1) and intended to be fixed to a railway vehicle body, elastic suspension means (17) interposed between said middle area of the frame (1) and said load crossbar ( 16), vertical shock-absorbing means (18) and lateral shock-absorbing means (19) operatively associated with said elastic suspension means (17), and anti-weeding shock-absorbing means (21,22) arranged substantially longitudinally on opposite sides of the trolley, characterized in that said anti-wasting shock absorbers comprise, for each side of the carriage, a pair of opposed telescopic shock absorbers (21,22) each having one end articulated to said load crossbar (16) and the opposite end articulated to the corresponding nte bushing (12,13) of a respective axle (8,9). 2. Trolley according to claim 1, characterized in that said telescopic anti-wasting shock absorbers (21,22) of each pair are arranged obliquely. 3. Trolley according to claim 2, characterized in that the telescopic anti-wasting shock absorbers (21,22) of each pair have an inclination in the vertical plane of the order of 10-202, preferably between 12 and 152. 4. Trolley according to claim 2, characterized by the fact that the telescopic anti-wasting shock absorbers (21,22) of each pair are arranged with an inclination in the horizontal plane of the order of 4-62. 5. Trolley according to any one of claims 1 to 4, characterized in that said telescopic anti-wasting shock absorbers (21,22) also constitute said vertical shock absorbing means. 6. Trolley according to any one of claims 1 to 4, characterized in that said telescopic anti-wasting shock absorbers (21,22) also constitute said lateral shock absorbing means. 7. Trolley substantially as described and illustrated for the specified purposes.