Door drive device for a door of a wagon

Abstract

A door drive device for a door of a wagon, including at least one door panel mount displaceable along a first spatial axis substantially vertical to the plane of a door panel mounted on the at least one door panel mount and along a second spatial axis extending substantially horizontal in use and substantially vertical to the first spatial axis, a drive motor and a spindle which may be rotated by means of the drive motor. It is provided, that a displacement of the at least one door panel mount along the first and/or second spatial axis is effected by means of a guide fork being displaceable by an associated spindle nut slidably engaged with the guide fork, wherein the spindle nut is driven by rotation of a spindle and wherein the spindle and the drive motor are fixed with respect to the wagon.

Claims

1. A door drive device for a door of a vehicle, comprising: at least one door panel mount displaceable along a first spatial axis substantially perpendicular to a plane of a door panel mounted on the at least one door panel mount and along a second spatial axis extending substantially horizontal in use and substantially perpendicular to the first spatial axis; a drive motor; and a spindle configured to be rotated by means of the drive motor, wherein a displacement of the at least one door panel mount along the first spatial axis, the second spatial axis, or both the first and second spatial axes is effected by means of a guide fork being displaceable by an associated spindle nut slidably engaged with the guide fork, wherein the spindle nut is driven by rotation of the spindle and wherein the spindle and the drive motor are mounted to the vehicle, and the door panel is displaceable along the first spatial axis from a retracted position to an extended position, and the guide fork is configured to be displaceable with respect to the spindle nut along the first spatial axis from the retracted position to the extended position without disengaging from the spindle nut.

2. The door drive device according to claim 1, wherein the guide fork is attached to the at least one door panel mount.

3. The door drive device according to claim 2, wherein the door drive device comprises each two door panel mounts, drive carriages, guide forks and spindle nuts, which are displaceable in the second spatial axis simultaneously but in opposite directions.

4. The door drive device according to claim 2, wherein the at least one guide fork is pivotably mounted.

5. The door drive device according to claim 1, wherein the at least one door panel mount is slidably attached to an associated drive carriage slidably attached to a guide rail, wherein a relative displacement between the drive carriage and the guide rail along the second spatial axis causes a relative displacement between the drive carriage and the door panel mount substantially in the same direction, wherein the guide fork is attached to the drive carriage.

6. The door drive device according to claim 5, wherein at least one pinion is rotatable on the at least one drive carriage and engages a gear rack of the guide rail and a gear rack of the door panel mount associated to the at least one drive carriage.

7. The door drive device according to claim 6, wherein a displacement of the at least one guide fork in a direction along the second spatial axis results in a displacement of the associated door panel mount in substantially the same direction along the second spatial axis as the displacement of the at least one guide fork, and wherein a distance of the displacement of the associated door panel mount is substantially twice a distance of the displacement of the at least one guide fork.

8. The door drive device according to claim 5, wherein a displacement of the at least one guide fork in a direction along the second spatial axis results in a displacement of the associated door panel mount in substantially the same direction along the second spatial axis as the displacement of the at least one guide fork, and wherein a distance of the displacement of the associated door panel mount is substantially twice a distance of the displacement of the at least one guide fork.

9. The door drive device according to claim 5, wherein the guide rail is guided along the first spatial axis by guiding means designed as roller guiding, linear guiding or recirculating ball bearing guide.

10. The door drive device according to claim 5, wherein the at least one door panel mount is displaceable along the first spatial axis by displacing the guide rail along the first spatial axis.

11. The door drive device according to claim 5, wherein the door drive device comprises each two door panel mounts, drive carriages, guide forks and spindle nuts, which are displaceable in the second spatial axis simultaneously but in opposite directions.

12. The door drive device according to claim 5, wherein the at least one guide fork is pivotably mounted.

13. The door drive device according to claim 1, wherein the door drive device comprises each two door panel mounts, drive carriages, guide forks and spindle nuts, which are displaceable in the second spatial axis simultaneously but in opposite directions.

14. The door drive device according to claim 1, wherein the at least one guide fork has an elongate upper portion slidably engaging in an upper recess of the associated spindle nut and an elongate lower portion slidably engaging in a lower recess of the associated spindle nut, wherein the upper portion and the lower portion are only connected with one another on one side of the spindle nut.

15. The door drive device according to claim 14, wherein the upper and lower portions of the at least one guide fork are arranged substantially perpendicular to the spindle.

16. The door drive device according to claim 1, wherein a displacement of the at least one door panel mount along the first spatial axis is at least partially effected by means of the guide fork.

17. The door drive device according to claim 1, wherein the at least one guide fork is displaceable with respect to the associated spindle nut along the first spatial axis.

18. A door comprising: a door drive device according to claim 1; and at least one door panel.

19. A vehicle comprising at least one door, said at least one door comprising: at least one door panel mount displaceable along a first spatial axis substantially perpendicular to a plane of a door panel mounted on the at least one door panel mount and along a second spatial axis extending substantially horizontal in use and substantially perpendicular to the first spatial axis, a drive motor; and a spindle configured to be rotated by means of the drive motor, wherein: a displacement of the at least one door panel mount along the first spatial axis, the second spatial axis, or both the first and second spatial axes is effected by means of a guide fork being displaceable by an associated spindle nut slidably engaged with the guide fork, wherein the spindle nut is driven by rotation of the spindle and wherein the spindle and the drive motor are mounted to the vehicle; the at least one guide fork has an elongate upper portion slidably engaging in an upper recess of the associated spindle nut and an elongate lower portion slidably engaging in a lower recess of the associated spindle nut, wherein the upper portion and the lower portion are only connected with one another on one side of the spindle nut; wherein the upper and lower portions of the at least one guide fork are arranged substantially perpendicular to the spindle; and the door panel is displaceable along the first spatial axis from a retracted position to an extended position, and the guide fork is configured to be displaceable with respect to the spindle nut along the first spatial axis from the retracted position to the extended position without disengaging from the spindle nut.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Additional features and aspects of the invention will be explained in more detail in the following description of exemplary embodiments with reference to the accompanying figures, wherein:

(2) FIG. 1 shows a wagon of a mass transportation vehicle;

(3) FIG. 2 shows the door drive device together with upper parts of two door panels connected with the door drive device in a closed state;

(4) FIG. 3 shows a part of a door panel mounted on a door panel mount to which a guide fork is attached;

(5) FIG. 4 shows the part of a door panel of FIG. 3 being slidably attached to a drive carriage to which a guide fork is attached; and

(6) FIG. 5 shows the door drive device of FIG. 2 together with upper parts of two door panels connected with the door drive device in an opened state.

DETAILED DESCRIPTION OF THE INVENTION

(7) FIG. 1 shows a wagon 3 of a mass transportation vehicle comprising a wagon body 31, wagon windows 32 and several doors 2. Each door 2 comprises two door panels 20A, 20B. To open and close the door panels 20A, 20B, the doors 2 are equipped with door drive devices 1 (not shown in FIG. 1). The door drive devices 1 will be described in more detail with reference to the following figures.

(8) The wagon 3 of FIG. 1 is a wagon 3 of a mass transportation vehicle, in particular of a metro train, and serves as an example for all other mass transportation vehicles, such as railway trains, busses, airplanes, cable cars, street cars, and others.

(9) Mass transportation vehicles, such as the mass transportation vehicle having a wagon 3 as shown in FIG. 1, are boarded and alighted through doors. Mostly, sliding plug doors are used for such vehicles, such as the doors 2 shown in FIG. 1.

(10) When being in a closed position, as shown in FIG. 1, sliding plug doors of mass transportation vehicle wagons, as the doors 2 in FIG. 1, do not or only slightly project from the side surface of the wagon body 31. When the door panels 20A, 20B are moved in an opened position, this movement may be mainly divided in two components: first the door panels 20A, 20B are moved outwards, i.e. in a direction substantially vertical to the surfaces of the door panels 20A, 20B. Then, the door panels 20A, 20B are shifted sideways in an opened position to clear the doorframe. When the door panels 20A, 20B are being closed, they are moved back from an opened position into a closed position, wherein the same movements are executed, just in reversed order and direction. The two components of the movement of the door panels 20A, 20B may either be executed one after another or at least party superimposed.

(11) There are wagons that only comprise one door 2. However, usually, wagons 3 of mass transportation vehicles comprise more than one door 2. For example, a wagon 3 may comprise two, three, four or more doors 2 on either side of the wagon 3. Often, doors of wagons of mass transportation vehicles are constructed as double doors, such as or similar to the doors 2 shown in FIG. 1. Eventually, the wagons may comprise one or more additional doors for a driver. In some wagons, there are also doors inside the wagon. In some types of mass transportation vehicles, one or more doors connect each two wagons of the vehicles. For all such doors, doors 2 equipped with a door drive device 1 may be used.

(12) FIG. 2 shows the door drive device 1 together with upper parts of two door panels 20A, 20B as seen from the inside of a wagon 3. In FIG. 2, the door drive device 1 and the door panels 20A, 20B are shown in a closed state of the door 2.

(13) The door drive device 1 includes a support frame 11 fixable to the wagon 3 and carrying other components of the door drive device 1. The support frame 11 comprises a top panel 110, two side panels 111A, 111B and a cover 112 (not shown in FIG. 2). The top panel 110 carries a drive motor 14, which is connected to a spindle 15 and a rod 19 by means of pinions 140, 151 and pinions 141, 190, respectively. The spindle 15 extends between both side panels 111A, 111B and is rotatably supported in corresponding bearings 152A, 152B. The pinion 151 is fixed to the spindle 15 approximately in the middle between the two side panels 111A, 111B and divides the spindle 15 in two portions 150A, 150B, wherein both portions 150A, 150B have an outer thread 153A, 153B on at least parts of their surfaces with the outer threads 153A, 153B being of opposite sense of rotation, i.e. helicity.

(14) On each side of the pinion 151 a spindle nut 16A, 16B each having an inner thread 162A, 162B (not visible in the figures) engaging the outer thread 153A, 153B of the respective portion 150A, 150B of the spindle 15 is mounted. The spindle nuts 16A, 16B each have an upper recess 160A, 160B and a lower recess 161A, 161B serving as a guide means for a guide fork 13A, 13B. Each guide fork 13A, 13B engages with the upper recess 160A, 160B and the lower recess 161A, 161B of the respective spindle nut 16A, 16B with an upper portion 130A, 130B and a lower portion 131A, 131B. By this engagement each guide fork 13A, 13B prevents a rotation of the respective spindle nut 16A, 16B. Hence, when the spindle 15 is being rotated, the two spindle nuts 16A, 16B travel along the spindle 15 in opposite direction. By the engagement with the corresponding spindle nuts 16A, 16B the guide forks 13A, 13B are carried along the spindle 15 together with the spindle nuts 16A, 16B. The spindle 15 extends along a second spatial axis X which is substantially vertical with respect to a first spatial axis Y, the first spatial axis Y being substantially perpendicular to the plane of the door panels 20A, 20B.

(15) The guide forks 13A, 13B serve for driving the door panels 20A, 20B from an opened state into a closed state and vice versa, depending on the sense of rotation of the spindle 15, as will be described with reference to the following figures.

(16) The rod 19 may be rotated by the drive motor 14 by means of the pinions 141, 190. The rod 19 extends between supports 114A, 114B fixed to the top panel 110 close to the side panels 111A, 111B. Adjacent to each of its supports 114A, 114B the rod 19 is fixedly connected to an eccentric 191A, 191B being pivotably connected to an end of a lever 172A, 172B via a hinge joint 173A, 173B, wherein said hinge joint 173A, 173B is arranged radially spaced from the rod 19. The other end of the lever 172A, 172B is pivotably connected with a bearing 175A, 175B fixed to a carrier 171A, 171B via another hinge joint 174A, 174B. A rotation of the rod 19 thus urges the carriers 171A, 171B each one being guided on a pair of guide means 113A, 113B on the side panels 111A, 111B to move along the first spatial axis Y. Each guide means 113A, 113B may be designed e.g. as a roller guiding, a linear guiding or a recirculating ball bearing guide. The direction of the movement of the carriers 171A, 171B along the first spatial axis Y depends on the sense of rotation of the rod 19.

(17) The carriers 171A, 171B are fixed on opposite ends of a guide rail 17 which is therefore moved along the first spatial axis Y together with the carriers 171A, 171B. The guide rail 17 serves for slidably supporting the door panels 20A, 20Bas will be described with reference to the following figures.

(18) The drive motor 14 may be configured such that in the closed state at the beginning of an opening procedure first the rod 19 is rotated for shifting the carriers 171A, 171B and the guide rail 17 outwards along the first spatial axis Y and afterwards the spindle 15 is rotated for driving the guide forks 13A, 13B along the second spatial axis X in opposite orientation. The drive motor 14 may also be configured such that these two movements are at least partly superimposed and thus are at least partly executed simultaneously. To perform said operations the drive motor may comprise a suitable gearing and may itself at least partially be rotatable.

(19) In the closed state of the door 2, as shown in FIG. 2, the door panels 20A, 20B may flush with the surface of the wagon body 31 and therefore be located inside a wall of the wagon 3 which is not shown in FIG. 2.

(20) FIG. 3 shows an upper edge of the door panel 20B mounted on an associated door panel mount 12, to which an associated guide fork 13B is fixed. A roller carrier 102B is mounted on the opposite side of the door panel mount 12 with respect to the door panel 20B. This roller carrier 102B comprising a plurality of rollers 101 may be engaged with the guide rail 17 for a slidable connection therewith.

(21) The guide fork 13B has an upper portion 130B and a lower portion 131B having surfaces facing each other extending parallel to one another. The upper portion 130B and the lower portion 131B end with tips 133B. Alternatively, instead of having tips 133B at their ends, the upper and lower portions 130B 131B may also be connected with each other by a vertical portion. The ends of the upper and lower portions 130B, 131B facing away from the tips 133B are connected with each other, forming a rear stop 134B on the guide fork 13B. Close to the rear stop 134B, the guide fork 13B further comprises a roll 132B which may be brought in contact with a stop bar not shown in FIG. 3 but described below with reference to FIG. 5.

(22) The door panel 20B may be opened and closed by driving the guide fork 13B along the second spatial axis X by means of the spindle nut 16B as shown in FIG. 2. A displacement of the spindle nut 16B over a given distance along the spindle 15 results in a displacement of the door panel 20B of substantially the same distance.

(23) The door panel 20B is provided with several rubber seals 21 for a tight closure with another door panel 20A and a frame 22 (both not shown in FIG. 3) of the door 2.

(24) E.g. for compensating production tolerances of parts of the door 2 or the door drive device 1, the guide fork 13B may be adjustable with respect to its position on the door panel mount 12 and/or its angle relative to said door panel mount. Moreover, the guide fork 13B may be pivotably connected with the door panel mount 12, in particular about a pivot axis being substantially parallel to the second spatial axis X.

(25) FIG. 4 shows the upper edge of the door panel 20B according to FIG. 3; however, in FIG. 4 the door panel 20B is mounted on a different embodiment of a door panel mount 12B, which is connected to an associated drive carriage 10B, wherein the associated guide fork 13B is fixed on said drive carriage 10B.

(26) The drive carriage 10B is connected to the door panel mount 12B by means of a linear roller bearing. Moreover, the drive carriage 10B is to be connected to the guide rail 17 which is not shown in FIG. 4 also by means of a linear roller bearing. Therefore, the drive carriage 10B comprises two roller carriers 102B on opposing sides carrying a plurality of rollers 101. One of the roller carriers 102B is visible in FIG. 4 while the other is hidden behind the drive carriage 10B and standing in engagement with a corresponding guiding 121B of the door panel mount 12B. Both for the connection of the door panel mount 12B to the drive carriage 10B and for the connection of the drive carriage 10B to the guide rail 17, also recirculating ball bearing guides or other types of guiding devices may be used.

(27) The guide fork 13B is driven by the associated spindle nut 16B (not shown in FIG. 4) resulting in a relative displacement between the guide rail 17 and the drive carriage 10B. A relative displacement between the drive carriage 10B and the door panel mount 12B may be effected by any suitable mechanism (not shown in FIG. 4). As an example for such a mechanism, at least one pinion may be rotatably mounted on the drive carriage 10B and engaged with a first gear rack mounted on the door panel mount 12B, wherein the first gear rack extends substantially along the second spatial axis X (along the axis of the relative displacement of the drive carriage 10B and the door panel mount 12B). When the roller carrier 102B is in engagement with a corresponding guiding of the guide rail 17, the pinion may then also be engaged with a second gear rack mounted on the guide rail 17, which second gear rack extends substantially in parallel to the first gear rack. Alternatively, the pinion may only be directly engaged with one of the two gear racks and be operatively connected with the other one of the two gear racks via one, two or more further pinions, the pinions having the same or, alternatively, a different number of teeth. Moreover, the two racks of course may also be operatively connected via more than one pinion (or group of connected pinions) in parallel. A relative displacement between the drive carriage 10B and the guide rail 17 along the second spatial axis X therefore causes a relative displacement between the drive carriage 10B and the door panel mount 12B in the same direction by means of the pinion resulting in a relative displacement between door panel mount 12B and the guide rail 17 over a distance corresponding to the sum of the two separate displacement components.

(28) As the guide fork 13B being mounted to the embodiment of the door panel mount 12 according to FIG. 3, the guide fork 13B may also be pivotably connected with the drive carriage 10B according to FIG. 4 or adjustably mounted therewith.

(29) The above description with reference to FIGS. 3 and 4 each is related to one door panel 20B of the two door panels 20A, 20B shown in FIGS. 1 and 2. Nevertheless, this description is likewise applicable to the other one door panel 20A of said two door panels 20A, 20B as well as for the corresponding other parts of the door drive device 1.

(30) FIG. 5 shows the door drive device 1 shown in FIG. 2 in an opened state of the door 2 together with upper parts of the two door panels 20A, 20B connected with door panel mounts 12A, 12B of the door drive device 1, wherein the door panel mounts 12A, 12B are connected to the guide rail 17 via drive carriages 10A, 10B corresponding to the drive carriage 10B according to FIG. 4. As compared to FIG. 2, the guide rail 17 with its carriers 171A, 171B is displaced along the first spatial axis Y in outward direction, i.e. towards the outside of the vehicle 3 from a retracted position as seen in FIG. 2 into an extended position by means of the drive motor 14. Since the drive carriages 10A, 10B are slidably supported on the guide rail 17 also those are situated in the extended position in FIG. 5. The latter also applies for door panel mounts 12A, 12B which are slidably supported on the drive carriages 10A, 10B as well as for the guide forks 13A, 13B which are fixed to the drive carriages 10A, 10B.

(31) When comparing the positions of the guide forks 13A, 13B in the closed state of the door 2 as shown in FIG. 2 with their positions in the opened state of the door 2 as shown in FIG. 5 it can be seen that both guide forks 13A, 13B have been displaced over the same distance and in the same direction along the first spatial axis Y as well as over the same distance and in opposite directions along the second spatial axis X. While in the closed state of the door 2 the spindle nuts 16A, 16B are located close to the rear stops 134A, 134B of the guide forks 13A, 13B, they are located close to the tips 133A, 133B of the guide forks 13A, 13B in the opened state of the door 2. Thus, the design of the guide forks 13A, 13B allows the guide forks 13A, 13B to be displaced along the first spatial axis Y maintaining the engagement with the spindle nuts 16A, 16B even though the latter may not be displaced along the first spatial axis Y with the spindle 15 being rotatably fixed with respect to the support frame 11 and thus with respect to the vehicle 3.

(32) The upper portions 130A, 130B and the lower portions 131A, 131B of the guide forks 13A, 13B, which serve as guides for the corresponding spindle nuts 16A, 16B, have an elongate form extending along the first spatial axis Y. The upper portions 130A, 130B and the lower portions 131A, 131B of the guide forks 13A, 13B are long enough to be moved from a retracted position to an extended position (referring to the first spatial axis Y) without disengaging from the spindle nuts 16A, 16B. From the closed to the opened state of the door 2 the guide forks 13A, 13B are displaced along the second spatial axis X by a given distance. This displacement results in a displacement of the door panel mounts 12A, 12B in the same direction and of the double of said distance. Due to this arrangement the spindle 15 does not necessarily have to be of the same length as the required width of the door opening between the door panels 20A, 20B. Therefore the total installation space required for the door drive device 1 may be reduced with respect to the prior art.

(33) As can be seen in FIG. 5, the guide forks 13A, 13B further comprise rolls 132A, 132B which are in contact with a stop bar 115 extending between the side panels 111A, 111B when the guide forks 13A, 13B are in an extended position. When the guide forks 13A, 13B are being displaced along the second spatial axis X the rolls 132A, 132B may roll off on the stop bar 115.

(34) It will be understood that a door 2 may particularly comprise either one or two door panels 20A, 20B. The above description has been given for a door 2 with two door panels 20A, 20B but is likewise applicable for doors with only one door panel 20A, 20B. It will also be understood that while the exemplary door panels 20A, 20B shown in the figures have a substantially flat outer surface, the above description also applies for door panels which may have a bent or curved form and/or have kinks or other shapes.

LIST OF REFERENCE NUMERALS

(35) 1 door drive device 10A, 10B drive carriage 101 rollers 102A, 102B roller carrier 11 support frame 110 top panel 111A, 111B side panel 112 cover 113A, 113B guide means 114A, 114B support 115 stop bar 12, 12A, 12B door panel mount 121A, 121B guiding 13A, 13B guide fork 130A, 130B upper portion 131A, 131B lower portion 132A, 132B roll 133A, 133B tip 134A, 134B rear stop 14 drive motor 140 pinion 141 pinion 15 spindle 150A, 150B portion 151 pinion 152A, 152B bearing 153A, 153B outer thread 16A, 16B spindle nut 160A, 160B upper recess 161A, 161B lower recess 162A, 162B inner thread 17 guide rail 171A, 171B carrier 172A, 172B lever 173A, 173B hinge joint 174A, 174B hinge joint 175A, 175B bearing 19 rod 190 pinion 191A, 191B eccentric 2 door 20A, 20B door panel 21 rubber seal 22 frame 3 wagon 31 wagon body 32 wagon window X second spatial axis Y first spatial axis