EP2061690A1

EP2061690A1 - Mount for a wheelset link of a rail vehicle

Info

Publication number: EP2061690A1
Application number: EP07818185A
Authority: EP
Inventors: Jörg WRITSCHAN; Leo S. E. Lang
Original assignee: Carl Freudenberg KG; Voith Turbo Lokomotivtechnik GmbH and Co KG
Current assignee: Carl Freudenberg KG
Priority date: 2006-09-15
Filing date: 2007-09-17
Publication date: 2009-05-27
Anticipated expiration: 2027-09-17
Also published as: CN101605686B; ATE553017T1; DE102006044162A1; PL2061690T3; WO2008031624A1; EP2061690B1; CN101605686A; ES2385411T3

Abstract

The invention relates to a mount (1) for a wheelset link (6) on the bearing housing (4) of a wheelset (2) or the frame of a rail vehicle, comprising an articulation bolt (11) which is arranged essentially perpendicularly, a mounting element (14) which is detachably connected to the wheelset bearing or the frame and has a receptacle for the articulation bolt, wherein the articulation bolt (11) projects with a first end (11.1) and a second end (11.2) beyond the receptacle, and the first end and the second end of the articulation bolt are respectively connected to an upper end piece (6.1) and a lower end piece (6.2) of the wheelset link.

Description

Attachment for a wheel set link of a rail vehicle

The invention relates to an attachment for a Radsatzlenker a rail vehicle, in particular for attachment of the Radsatzlenkers to a Radsatzlagergehäuse or a frame of the bogie of the rail vehicle.

Wheel sets of rail vehicles are usually connected by means of Radsatzfedern, which are oriented substantially vertically, with a vehicle frame or a bogie frame of the rail car. The essential spring and stabilizing direction of this Radsatzfedern is the vertical, so usually provided for receiving longitudinal and transverse forces Radsatzlenker which connect to the other between the bearing housing for the wheel sets on the one hand and the vehicle frame, or the bogie frame. Here, the Radsatzlenker serve to guide the wheelset in the track direction and thus for transmitting driving and braking forces in the longitudinal direction of the rail vehicle. In addition, wheelset must also absorb lateral forces. For this purpose, in DE 39 35 319 A1 an oblique arrangement of the wheelset to the longitudinal axis of the bogie frame has been proposed. An alternative embodiment is known from DE 27 35 574 A1, in which an embodiment of a Radsatzlenkers is described with three hinge points, wherein the bogie frame two hinge points are assigned, one of which has a softer damping.

The stabilization of the wheel set generated by the Radsatzlenker serves different purposes. On the one hand, the wheelset is to stabilize when driving straight ahead in the axial direction, which is essential especially in high-speed driving and defective track bodies. By the lateral forces applied by the wheel set linkage vibrations on the wheel set can be suppressed and both the comfort and the driving safety of the rail vehicle can be improved. In addition, those from the prior art known Radsatzlenker to allow for cornering a rotational movement of the wheelset relative to the vehicle frame or the bogie frame, thus minimizing the angle of attack of the wheels relative to the rails. According to the arrangement disclosed in the above-mentioned publications, this is due to centrifugal forces in

Cornering triggered axial movement of the wheelset in the desired rotation and thus implemented a certain angle of the wheels to the frame. Also for this case, it is necessary that the lateral forces generated by the Radsatzlenker are transmitted to a sufficient extent via an attachment from the Radsatzlenker on the Radsatzlagergehäuse.

From DE 33 11 757 A1 a bearing for a Radsatzlenker has become known, which is characterized by transverse hinge pin with circular-sectional end surfaces configured, which in turn are recorded by open-edged recesses on the frame and covered with a screwed web. The disclosed attachment is structurally complex, it consists on the one hand of several individual components, which must be processed consuming to achieve a sufficient fit. On the other hand, the assembly and replacement of Radlenkersatzes consuming.

Simple embodiments of the attachment points for Radsatzlenker include at the end of the Radsatzlenkers a bore which serves to receive a joint bearing with a bearing shell and a hinge pin. Here, at least a part of this bearing shell is pressed into the receptacle or glued element. Also glands are conceivable. A disadvantage of this approach, however, is that the known compounds of the hinge pin with the bearing housing of the wheelset bearing either structurally complex and großbauend in the vertical direction or can not sufficiently initiate the transmitted from the Radsatzlenker shear forces on the housing of the wheelset bearing and corresponding to the frame, since the interference fit or the bonding of the bearing shell can not withstand these forces. The invention has for its object to overcome the disadvantages of the known fasteners for Radsatzlenker and provide a structurally simple in the manufacture and assembly simple attachment, which both longitudinal and lateral forces from Radsatzlenker on the bearing housing for the wheel or in the reverse direction of the bearing housing can transmit to the vehicle frame or the bogie frame.

To solve the inventors have recognized that starting from a generic spherical plain bearing for a Radsatzlenker with a pressed, glued or screwed bearing shell of the bearing pin must be aligned vertically perpendicular to shear forces directly on the bearing shells on the material of the recording and thus effectively from the housing or the Frame of the vehicle can be transferred to the Radsatzlenker.

According to the known embodiments were developed with a vertically positioned hinge pin so that that element which receives the elastic bearing shell and the inclusion of the hinge pin is not part of the wheel set itself, but a separate

Represents fastener, which is bolted to the bearing housing of the wheel or the vehicle frame. The connection between this fastener and the Radsatzlenker is then achieved via the hinge pin, which protrudes in both directions over the bearing shell, that is, it has a first end and a second end, which are each received by parts of the Radsatzlenkers. Here, a positive or non-positive connection or a screw connection of the first end or the second end of the hinge pin with the associated supporting components on the Radsatzlenker is possible. Particularly preferred is an embodiment of a Radsatzlenkers with a fork-shaped end, wherein in each case the legs of this fork have a connection to the first and the second end of the hinge pin.

According to a further development instead of the forked end to

Attaching the first end and the second end of the hinge pin used a two-piece wheelset, wherein a first upper part of the Radsatzlenkers the first end of the hinge pin, which protrudes up out of the bearing shell associated. Accordingly, a second, lower part of the Radsatzlenkers with the second, down from the bearing shell protruding end of the hinge pin is connected.

The inventive attachment of the Radsatzlenkers a vertical hinge pin and thus a sufficient lateral force transmission can be ensured. In addition, the attachment is characterized by its constructive simplicity, which makes it easy to mount the Radsatzlenker. This concerns both the initial assembly, as well as a replacement of the hinge pin or disassembly in connection with the maintenance of the wheelset.

The simple assembly is based on the inventive separation of the bearing shell receiving fastener from Radsatzlenker itself. In addition to the vertical position of the hinge pin such attachment of this fastener can be achieved in which the fasteners, such as screw on both sides of

Articulated are positioned. This results in the advantage that an initially completely assembled as a component element from the Radsatzlenker, the hinge pin and the connecting element with the bearing housing or the vehicle frame can be screwed, as the laterally next to the hinge pin and thus arranged on both sides of the Radsatzlenkers fastener accessible and thus manageable. The invention will be described in more detail below with reference to figures and by an embodiment. The following is shown in detail in the figures:

Figure 1 shows an axial section through an inventive attachment of a Radsatzlenkers and sections of the wheelset bearing housing

Figure 2 represents a figure 1 corresponding sectional view of a prior art attachment with a horizontally arranged hinge pin.

FIG. 3 shows, in a sectional illustration corresponding to FIG. 1, a prior art arrangement with a vertically positioned hinge pin.

FIG. 4 shows, in a schematically simplified three-dimensional illustration, a wheel set with a wheel set bearing in conjunction with wheelset links.

FIG. 4 shows a wheel set 2 for a rail vehicle, which is supported by a wheel set bearing 3, which is surrounded by a wheel set bearing housing 4. About the substantially vertically arranged springs 5 is a support to the vehicle frame or a bogie frame. These vertical springs 5 absorb shocks from the track body on the vehicle body or on the bogie. Advantageously, they are tuned to this main task, that is, in particular lateral forces are absorbed by other components. According to the prior art serve at least partially the Radsatzlenker 6 this purpose, which according to the illustration shown in Figure 4 binary, that can be configured with two joints 7.1, 7.2. For a zweigelenkige training the Radsatzlenker 6 are preferably oriented obliquely to the longitudinal axis of the vehicle or the bogie frame to allow both a better lateral stabilization, as well as for cornering through Centrifugal forces caused axial movement of the wheelset in a rotation relative to the vehicle frame or the bogie frame and thus to allow adapted to the curve of the rail position of the wheelset.

In addition to the binary version of the Radsatzlenker 6 and Radsatzlenker 6 with multiple joints, in particular triangular arrangements are conceivable. In addition, deviating from Figure 4, the Radsatzlenker can also be arranged on both sides of a single wheel.

Figure 2 shows a prior art arrangement in which the Radsatzlenker 6 has a hinge with a horizontally arranged hinge pin 11. In the following, instead of the term "joint" is generalized by an attachment to the wheelset bearing housing or the frame of the vehicle or bogie, including both the elements of

Spherical bearing, comprising a hinge pin and the bearing shell, as well as the corresponding receptacles and fastening means are understood both to Radsatzlenker, as well as the housing or frame.

The schematic representation of Figure 2 shows in an axial section to the wheelset bearing a Radsatzlenker 6 with a bore at the pointing to the Radsatzlagergehäuse end. This serves as a receptacle 10 for a bearing shell 13, which in turn leads the bearing pin 11. The bearing shell 13 is preferably made of a wear-free ring made of an elastomeric material and allows to a certain extent a gimbal movement of the Radsatzlenkers 6 relative to the housing or the frame. Within the scope of skill in the art, the bearing shell 13 can also be deviating in design and, in particular, essentially comprise inelastic components, for example made of Teflon or steel, for example for the sliding surfaces. Accordingly, the required limited three-dimensional mobility of the joint bearing can also be effected by a corresponding shaping of the running surfaces over which the bearing pin 11 slides. The horizontal hinge pin 11 is connected via a fastening means 8, in particular a screw, with the bearing housing 4. Usually, in this case at least two attachment points are used, so that connection points arise on both sides of the bearing shell.

An assembly of this arrangement is simple, since each lying next to the wheelset mounting points are easily accessible and the height of the arrangement is determined essentially by the necessary size dimensioning of the bearing shell 13 and the receptacle 10.

A disadvantage of the known arrangement, however, is that the bearing shell 13, which is usually pressed or glued into the receptacle 10, can not absorb transverse forces to a sufficient extent, so that either from the vertical springs 5 on the wheelset 6 transverse forces must be taken or the Attachment 1 is designed to be large-building merely with regard to the transverse force direction.

Figure 3 shows a vertical arrangement of the hinge pin 11, which realizes the problem of a transversely rigid attachment 1. Transverse forces are not transmitted to the Radsatzlenker 6 via the press fit or the bond to the Radsatzlenker 6, but transversely to the hinge pin 11 and thus directly on the bearing shell 13 and the wall of the recess, which serves as a receptacle 10. A disadvantage of this known embodiment, however, is that due to the vertical arrangement of the hinge pin 11 and the fastening means 8 are arranged to the wheel bearing housing 4 above and below the bearing shell 13. This leads to the disadvantage that the installation space of the attachment in the vertical direction increases and in the assembly of the wheelset 6 access to the fastening means is difficult.

FIG. 1 shows an attachment 1 according to the invention of a wheelset link 6 to a wheelset bearing housing 4, which has the advantages of a vertical one Joint bolt 11 with a good mounting capability and a total of small unit connects. According to the invention, the bearing shell 13 is formed in a receptacle 10 of a separate to the Radsatzlenker 6 fastener 14. This makes it possible to connect a hinge pin 11 with fixing means 8 arranged on both sides of the wheel set bearing 3. At the same time limit only the protruding from the bearing shells 13 ends of the vertical hinge pin 11, which hereinafter referred to as the first end 11.1, which is above the bearing shell 13, and the second end 11.2, which is below the bearing shell 13, the size of the invention Attachment in the vertical direction.

The first end of the hinge pin 11.1 is in communication with a first, upper end of the Radsatzlenkers 6.1. The second end of the hinge pin 11.2 is correspondingly connected to a second, lower end piece of the Radsatzlenkers 6.2. These connections can be made by a press fit, a

Bonding, a screw connection or done by positive locking. In addition, the first, upper end 6.1 and the second, lower end of the Radsatzlenkers 6 may be part of a yoke at the end of the Radsatzlenkers 6, which then represent the legs of the fork and are connected via a web connection with the remaining part of the Radsatzlenkers 6.

Also conceivable is an embodiment in which the first, upper end piece 6.1 and the second, upper end of the 6 6.2 Radsatzlenkers represent separate components, whereby the assembly is simplified because during assembly no alignment between the bearing shell 13 in the separate fastener 14 and the holes in the leg of the yoke must be made. Instead, first, the hinge pin 11 can be connected to the lower or the upper part of the Radsatzlenkers 6 and then attaching the bearing shell or the separate fastener 14 can be carried out. The mounting of a Radsatzlenkers 6 with an attachment 1 according to the invention is advantageously simple, since the two are arranged on both sides of the hinge pin 11 mounting points for Radsatzlagergehäuse 4 or to the frame easily accessible. The handling is further improved by the fact that these attachment points are arranged to extend substantially horizontally.

The invention has been described above with reference to an embodiment for attachment to the wheel set bearing housing 4. The other joints or attachments of the Radsatzlenkers 6 on the vehicle frame or the bogie frame can also according to an advantageous embodiment comprising a structure comprising a separate fastener 14 with a vertically disposed hinge pin, so that the corresponding advantages in terms of mounting capability and a space savings for these hinge points let realize.

LIST OF REFERENCE NUMBERS

1 attachment

2 wheelset 3 wheelset bearings

4 wheelset bearing housing

5 vertical springs

6 wheelset link

6.1 first, upper tail 6.2 second, upper tail

7.1, 7.2 joints

8 fasteners

10 recording

11 hinge pin 11.1 first end of the hinge pin

11.2 second end of the hinge pin

13 bearing shell

14 separate fastener

Claims

claims

1. attachment (1) for a Radsatzlenker (6) on the bearing housing (4) of a wheelset (2) or the frame of a rail vehicle, comprising 1.1 a hinge pin (11) which is arranged substantially vertically; 1.2 a releasably connected to the wheelset bearing (4) or the frame

Fastening element (14) with a receptacle (10) for the hinge pin (11), wherein the hinge pin (11) with a first end (11.1) and a second end (11.2) projects beyond the receptacle (10); 1.3 the first end (11.1) and the second end (11.2) of the hinge pin (11) are each connected to an upper end piece (6.1) and a lower end piece (6.2) of the Radsatzlenkers (6).

2. fastening for a Radsatzlenker (6) according to claim 1, characterized in that the fastening element (14) via at least two

Attachment points with the wheelset bearing housing (4) is connected, which are arranged substantially horizontally.

3. attachment for a Radsatzlenker (6) according to at least one of claims 1 or 2, characterized in that in the receptacle (10) of the fastener, a bearing shell (13) is inserted.

4. attachment for a Radsatzlenker (6) according to claim 3, characterized in that the bearing shell (13) are inserted from an elastomeric material.

5. attachment for a Radsatzlenker (6) according to at least one of claims 1 to 4, characterized in that the Radsatzlenker (6) is formed in two parts and comprises a first, upper part that is associated with the first end (11.1) of the hinge pin and a second, lower part, which is associated with the second end (11.2) of the hinge pin.

6. attachment for a Radsatzlenker (6) according to at least one of claims 1 to 4, characterized in that the end of the Radsatzlenkers (6) for receiving the first end and the second end (11.1, 11.2) of the hinge pin is fork-shaped.