TRANSMISSION FOR THE POWERTRAIN OF A RAIL VEHICLE

Abstract

A transmission for the power-train of a rail vehicle, in which the transmission (3) includes an input shaft (4), an intermediate shaft (5) and a drive output shaft (6). The input shaft (4) can be connected so as to be driven by a drive motor (2), and the drive output shaft (6) forms a wheelset shaft of the rail vehicle. The transmission (3) has at least two selectively shiftable transmission stages with different transmission ratios for the same travel direction, and a shifting device (7) for engaging the transmission stages. Furthermore, a power-train for a rail vehicle having a transmission of such type is proposed.

Claims

1-14. (canceled)

15. A wheelset transmission for a power-train (1) of a rail vehicle, the wheelset transmission (3) comprising: an input shaft (4), an intermediate shaft (5), a drive output shaft (6), the input shaft (4) being connectable so as to be driven by a drive motor (2), the wheelset transmission (3) having at least two selectively shiftable transmission stages with different transmission ratios for a same travel direction, and a shifting device (7) for engaging the transmission stages, the two transmission stages being formed of a first spur gear pair (8), including a first spur gear (11) and a third spur gear (13), and a second spur gear pair (9), including a second spur gear (12) and a fourth spur gear (14), the first and the second spur gears (11, 12) each being arranged in a rotationally fixed manner on the input shaft (4) whereas the third and the fourth spur gears (13, 14) each being arranged so as to rotate about an intermediate shaft axis (17), and the third and the fourth spur gears (13, 14) being mounted to rotate in a housing (20) of the wheelset transmission (3) in each case on a bearing support stud (21, 22) fixed to the housing.

16. The wheelset transmission according to claim 15, wherein the shifting device (7) comprises a shifting member (18) which is rotationally fixedly mounted and axially movably relative to the intermediate shaft (5), the shifting member is axially movable by an actuator (19) of the shifting device (7) such that either the third spur gear (13) or the fourth spur gear (14) is selectively connectable to the intermediate shaft (5) in a rotationally fixed manner.

17. The wheelset transmission according to claim 15, wherein the shifting device (7) has a neutral position in which the third and the fourth spur gears (13, 14) are freely rotatable relative to the intermediate shaft (5) so that a force flow, between the input shaft (4) and the drive output shaft (6), is interrupted.

18. The wheelset transmission according to claim 16, wherein the intermediate shaft (5) is a hollow shaft with an axial bore (23), and the shifting member (18) is actuatable through the bore (23).

19. The wheelset transmission according to claim 18, wherein the actuator (19) is fixed to the housing (20) and is connected to the shifting member (18) via an axially movable shift-rod (24) that passes through the bore (23).

20. The wheelset transmission according to claim 19, wherein the actuator (19) is a cylinder-piston unit which has a movable piston that is connected to the shift-rod.

21. The wheelset transmission according to claim 18, wherein the actuator is solidly connected to the intermediate shaft (5) and is arranged at least partially inside the bore (23) of the intermediate shaft (5).

22. The wheelset transmission according to claim 15, wherein a drive output stage forms a third spur gear pair (10) which has a fifth spur gear (15) arranged rotationally fixed on the intermediate shaft (5) and a sixth spur gear (16) arranged rotationally fixed on the drive output shaft (6), and the third spur gear pair (10) is arranged, relative to the first and the second spur gear pairs (8, 9), on a side of the transmission (3) facing toward the drive motor (2).

23. A power-train for a rail vehicle, having an electric drive motor (2) connected by a shaft coupling (33) so as to drive an input shaft (4) of a wheelset transmission (3), wherein the wheelset transmission (3) comprises the input shaft (4), an intermediate shaft (5) and a drive output shaft (6), the drive output shaft (6) is either formed as a wheelset shaft or is connected via a sprung component to the wheelset shaft, the wheelset transmission (3) comprises at least two selectively shiftable transmission stages with different transmission ratios for a same travel direction, and a shifting device (7) for engaging the transmission stages, the actuator (19) of the shifting device (7) is arranged close to the shaft coupling (33) in such manner os that, during operation, the rotating shaft coupling (33) produces an airflow in the area of the actuator (19) such that the actuator (19) is cooled by the airflow.

24. The power-train according to claim 23, wherein the sprung component comprises a cardan coupling.

25. The power-train according to claim 23, wherein a wheel-disk brake (28) is arranged in an area of a wheel disk (27) and is arranged in an axial and a radial direction at least partially in an area of a maximum projected dimension of a housing (20) of the transmission (3).

26. A wheelset transmission for a power-train of a rail vehicle, the wheelset transmission comprising: an input shaft, an intermediate shaft, a drive output shaft, the input shaft being drivably connectable to a drive motor; at least first and second spur gear pairs having different transmission ratios for a common travel direction and a shifting device for selectively engaging the first and the second spur gear pairs; the first spur gear pair having a first spur gear and a third spur gear; the second spur gear pair having a second spur gear and a fourth spur gear; the first and the second spur gears being connected to the input shaft in a rotationally fixed manner so as to rotate with the input shaft; and the third and the fourth spur gears being rotatably supported on a respective bearing support stud which being fixed to a housing of the wheelset transmission such that the third and the fourth spur gears are rotatable about an intermediate shaft axis.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0032] Below, an example of the invention is described in more detail with reference to the attached figures, which show:

[0033] FIG. 1: A schematic representation of a power-train according to the invention,

[0034] FIG. 2: A side view from the drive input side of an embodiment of a transmission according to the invention,

[0035] FIG. 3: A sectioned view of the transmission along the section line 3-3 in FIG. 2, and

[0036] FIG. 4: A perspective view of a transmission according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0037] The power-train 1 of a rail vehicle shown in FIG. 1 consists essentially of an electric drive motor 2, whose motor output shaft 32 is connected by means of a cardan shaft coupling 33 to the input shaft 4 of the transmission 3. In addition, the drive output shaft 6 of the transmission 3 is part of the power-train 1, the drive output shaft 6 being in the form of a wheelset shaft at the two ends of which in each case a wheel disk 27 is attached. For the sake of clarity only one wheel disk 27 is shown in FIG. 1.

[0038] The drive motor can for example be designed as an asynchronous motor and is connected solidly by a motor bracket 34 to a vehicle frame 30 of the rail vehicle. The vehicle frame 30 can for example be a chassis. Suitable as the cardan coupling 33 are, besides the symbolically illustrated curved-tooth coupling, also shaft couplings with elastic elements such as reinforced rubber strips or rubber disks, which allow a certain amount of angular, radial and/or axial movement of the ends of the shafts to be connected. The input shaft 4 is mounted in a housing 20 of the transmission 3 by means of two roller bearings 35 and 36.

[0039] On one side, the transmission 3 is supported on the wheelset shaft or drive output shaft 6 by way of two roller bearings 41 and 42. In addition the transmission 3 is supported and able to move relative to the vehicle frame 30 by a torque support 31. Such an arrangement or suspension of the power-train in the rail vehicle is also called a partially sprung drive, because part of the mass of the power-train, namely the drive motor 2, is connected fixed to the sprung vehicle frame 30, while another part of the mass of the power-train, namely the transmission 3, is supported essentially on the unsprung wheelset shaft.

[0040] On the wheel disk 27 is arranged a wheel-disk brake 28. The arrangement of the drive output stage in the form of the third spur gear pair 10 on the motor side allows room for a recess 29 on the outside of the transmission 3, in which the wheel-disk brake 28 is at least partially accommodated. In other words, the wheel-disk brake 28 is arranged in the axial and radial direction partly in the area of the maximum projected dimensions of the housing 20 of the transmission 3. In this way the restricted space in the substructure of the rail vehicle is used very advantageously.

[0041] Three spur gear pairs 8, 9 and 10 are arranged in the housing 20 of the transmission 3. The first spur gear pair 8 consists of a first spur gear 11 and a third spur gear 13. The first spur gear 11 is arranged as a fixed wheel rotationally fixed on the input shaft 4. The third spur gear 13 is permanently engaged with the first spur gear 11. The third spur gear 13 is a loose wheel and is mounted to rotate by virtue of a roller bearing 38 about an intermediate shaft axis 17 on a bearing support 22 of the housing 20.

[0042] The second spur gear pair 9 consists of a second spur gear 12 and a fourth spur gear 14. The second spur gear 12 is a fixed wheel arranged rotationally fixed on the input shaft 4. The fourth spur gear 14 is permanently engaged with the second spur gear 12. The fourth spur gear 14 is a loose wheel, and is mounted to rotate by virtue of a roller bearing 37 about an intermediate shaft axis 17 on a bearing support 21 of the housing 20.

[0043] The first spur gear pair 8 forms a first transmission stage, which can be used as a starting gear. The second spur gear pair 9 forms a second transmission stage, which is used at higher speeds.

[0044] An intermediate shaft 5 is mounted to rotate in the transmission housing 20, about the intermediate shaft axis 17, by virtue of two further roller bearings 39 and 40. The intermediate shaft 5 is a hollow shaft with a bore 23. The bore 23 is coaxial with the intermediate shaft axis 17 and passes completely through the intermediate shaft 5.

[0045] A fifth spur gear 15 is connected to the intermediate shaft 5 in rotationally fixed manner. This fifth spur gear 15 is continuously engaged with a sixth spur gear 16, which is fixed to the drive output shaft 6 in a rotationally fixed manner. Together, the fifth and sixth spur gears 15 and 16 form a third spur gear pair 10, which in turn forms the drive output stage of the transmission 3. Thus, the sixth spur gear 16 can be regarded as part of the wheelset, which consists essentially of the drive output or wheelset shaft 6, the wheel disks 27 and the sixth spur gear 16. The drive output shaft 6 or wheelset shaft is mounted in the housing 20 by means of roller bearings 41 and 42.

[0046] To shift the transmission from the first transmission stage to the second transmission stage and vice-versa, a shifting device 7 is provided. With the shifting device 7 a neutral position can also be engaged, in which the second and fourth spur gears are arranged to rotate freely relative to the intermediate shaft, so that the force flow between the input shaft and the drive output shaft is interrupted. In FIG. 1 the shifting device 7 is shown in its neutral position.

[0047] The shifting device 7 comprises a shifting member 18, which can be actuated through the bore 23 in the intermediate shaft 5. The shifting member 18 is in the form of a sliding sleeve which is rotationally fixed relative to the intermediate shaft 5 but can be moved axially on the intermediate shaft 5. To move the shifting member 18 on the intermediate shaft 5, the shifting member 18 has in its radially inner area, inner teeth which can slide back and forth on outer teeth of the intermediate shaft 5. On its outer circumference the shifting member 18 has outer teeth which can be brought into engagement by axial displacement, either with the inner teeth of the third spur gear 13 or with the inner teeth of the fourth spur gear 14, whereby the force flow is transmitted with the respectively appropriate transmission ratio. In the neutral position shown in FIG. 1 the shifting member 18 is in a central position in which the outer teeth of the shifting member 18 are not engaged with either of the inner teeth of the two loose wheels or spur gears 13 or 14, whereby the force flow from the input shaft 4 to the drive output shaft 6 is interrupted.

[0048] The axial shifting movements of the shifting member 18 can be controlled by an actuator 19, which is attached for example to the transmission housing 20. The actuator 19 is connected to the shifting member 18 by way of a shift-rod 24 which passes through and is able to move axially within the bore 23. At its end remote from the actuator, the shift-rod 24 is connected by way of an axial bearing 25 to the shifting member 18. The axial bearing 25 is needed in order to decouple the shift-rod 24 from the rotational movement of the shifting member 18. During operation the shifting member 18 rotates together with the intermediate shaft 5, whereas in contrast the shift-rod 24 is connected in a rotationally fixed manner to the axially movable part of the actuator 19 fixed on the housing.

[0049] In the present embodiment the actuator 19 is in the form of a compressed-air-actuated cylinder-piston unit. The movable piston 26 is connected to the shift-rod 24. It is also conceivable to make the piston 26 and the shift-rod 24 integrally, as one piece.

[0050] The actuator 19 is arranged close to the shaft coupling 33 in such a position that during operation the rotating shaft coupling 33 produces an airflow in the area of the actuator 19 such that the actuator 19 is cooled by the airflow.

[0051] The transmission 3 shown in FIGS. 2 and 3 corresponds to the transmission 3 in FIG. 1 except for the arrangement of the actuator 19 and the consequent modifications of the shifting device 7. Accordingly, in the figures the same components are denoted by the same indexes. In what follows, above all the features in FIGS. 2 and 3 that differ from the embodiment in FIG. 1 are described.

[0052] In the side view of the transmission 3 shown in FIG. 2, the shaft coupling 33 on the drive input side is shown schematically in the upper area of the transmission 3. Under it can be seen the elements of the shifting device 7 which are arranged outside the housing 20.

[0053] In the lower part of the transmission 3 is arranged the sectioned drive output shaft 6. Using broken lines in each case, the fifth spur gear 15 is arranged in a rotationally fixed manner to the intermediate shaft 5 and the sixth spur gear 16 arranged in a rotationally fixed manner to the drive output shaft 6 are shown.

[0054] Furthermore, of the shifting device 7 the actuator 19 and a tilt-lever 43 can be seen, the latter arranged to pivot about a pivot axis 45. Below, the function of the tilt-level 43 will be explained in more detail with reference to FIG. 3.

[0055] FIG. 3 shows a sectioned view of the transmission 3 from FIG. 2, with the wheelset shaft or drive output shaft 6 and a wheel disk 27 fixed thereto. In this embodiment the actuator 19 is fixed on the outside of the housing 20 parallel to the shift-rod 24 in a space-saving manner. In this case too the actuator 19 is made as a cylinder-piston unit, wherein a piston rod 44 connected to the axially movable piston 26 of the cylinder-piston unit is connected to the shift-rod 24 by way of a tilt-lever 43. The tilt-lever 43 is arranged so that it can pivot about a pivot point 45 fixed relative to the housing. With this arrangement the cylinder of the cylinder-piston unit 19 can also be integrated in the housing 20 or made integrally with the housing 20.

[0056] This arrangement of the actuator 19 is advantageously chosen when the distance between the transmission 3 and the drive motor 2 is very small, so that there is no room for an arrangement of the actuator 19 as in FIG. 1.

[0057] Finally, FIG. 4 shows a design of the transmission 3 shown schematically in FIG. 1. In the perspective view of FIG. 4, the compact, space-saving structure of the transmission 3 can be recognized. The transmission 3, designed as a shiftable wheelset transmission, needs no more fitting space than a non-shiftable wheelset transmission with two transmission stages as described at the beginning, so that the transmission 3 according to the invention can be exchanged for a conventional transmission even in existing rail vehicles, without much effort.

[0058] The transmission 3 is supported at the drive input side end of the housing 20 by the torque support 31 on a vehicle frame or on the bogie of the rail vehicle. In addition, the transmission 3 is supported by the bearing of the drive output shaft 6 directly on the wheelset shaft. Accordingly, such a transmission is also called an axle-riding transmission.

[0059] From the shifting unit 7 there projects outward from the housing 20 only the cylinder of the actuator 19 made in the form of a cylinder-piston unit. The cylinder is arranged parallel to the shaft coupling 33 and close to it, so that when the shaft coupling 33 is rotating, an airflow is produced by the shaft coupling, which cools the nearby cylinder of the actuator 19. On the actuator 19 is arranged a path sensor 47. During operation this path sensor 47 detects the current position of the piston of the cylinder-piston unit 19 and hence also the position of the shifting member 18. Particularly in combination with a claw-shifted shifting unit it is important to know the exact position of the shifting member 18 during a shifting process, in order to enable as jerk-free and speedy a shift as possible. The signals from the position sensor 47 are passed on by way of a connection 46 to a transmission control unit (not shown) and/or to the train control unit that controls the shifting processes of the transmission 3. The connection 46 can for example be a plug connector.

[0060] The transmission 3 also comprises respective sensors for detecting the rotational speeds of the input shaft 4 and the intermediate shaft 5. The signals from the rotational speed sensors are passed on via the connections 48 and 49 to the transmission control unit and/or the train control unit, and are therefore available for controlling the shifting processes of the transmission 3. The connections 48 and 49 too can for example be in the form of plug connectors.

[0061] To supply the actuator 19 made in the form of a cylinder-piston unit with compressed air, the actuator 19 has two compressed air connections 50 and 51. By way of these compressed air connections 50 and 51, the actuator 19 is for example connected to a valve block, which can in turn be actuated by the transmission control unit and/or the train control unit for the purpose of controlling the shifting processes in the transmission 3.

INDEXES

[0062] 1 Power-train [0063] 2 Drive motor [0064] 3 Transmission [0065] 4 Input shaft [0066] 5 Intermediate shaft [0067] 6 Drive output shaft [0068] 7 Shifting device [0069] 8 First spur gear pair [0070] 9 Second spur gear pair [0071] 10 Third spur gear pair [0072] 11 First spur gear [0073] 12 Second spur gear [0074] 13 Third spur gear [0075] 14 Fourth spur gear [0076] 15 Fifth spur gear [0077] 16 Sixth spur gear [0078] 17 Intermediate shaft axis [0079] 18 Shifting member [0080] 19 Actuator [0081] 20 Housing [0082] 21 Bearing support [0083] 22 Bearing support [0084] 23 Bore [0085] 24 Shift-rod [0086] 25 Axial bearing [0087] 26 Piston [0088] 27 Wheel disk [0089] 28 Wheel disk brake [0090] 29 Recess [0091] 30 Vehicle frame [0092] 31 Torque support [0093] 32 Motor drive output shaft [0094] 33 Shaft coupling [0095] 34 Motor support [0096] 35 Roller bearing [0097] 36 Roller bearing [0098] 37 Roller bearing [0099] 38 Roller bearing [0100] 39 Roller bearing [0101] 40 Roller bearing [0102] 41 Roller bearing [0103] 42 Roller bearing [0104] 43 Tilt-lever [0105] 44 Piston rod [0106] 45 Pivot point [0107] 46 Connection [0108] 47 Position sensor [0109] 48 Connection [0110] 49 Connection [0111] 50 Compressed air connection [0112] 51 Compressed air connection