MOBILE TRANSPORT SYSTEM

Abstract

A mobile transport system includes a drive unit having a first drive wheel rotatable about a first drive axis and a second drive wheel rotatable about a second drive axis, the drive axes extending in a transverse direction. The drive unit includes a swivel and a drive frame. The drive frame is pivotable about a steering axis relative to the swivel. The drive unit includes a marking carrier that is disposed in a stationary manner relative to the drive frame, and on which optically detectable markings are applied. The drive unit includes a camera for detecting the markings and is disposed in a stationary manner relative to the swivel.

Claims

1-15. (canceled)

16. A mobile transport system, comprising: a drive unit including: a first drive wheel rotatable about a first drive axis extending in a transverse direction; a second drive wheel rotatable about a second drive axis extending in the transverse direction; a swivel; a drive frame pivotable about a steering axis relative to the swivel; a marking carrier arranged in a stationary manner relative to the drive frame and including optically detectable markings; and a camera adapted to detect the markings arranged in a stationary manner relative to the swivel.

17. The mobile transport system according to claim 16, wherein the mobile transport system is adapted to transport objects in a technical system.

18. The mobile transport system according to claim 16, wherein the markings include information from which it is possible to determine a pivot angle of the drive frame relative to the swivel about the steering axis.

19. The mobile transport system according to claim 16, wherein the markings include a barcode, a two-dimensional barcode, and/or a QR code.

20. The mobile transport system according to claim 16, wherein the markings are arranged on a surface of the marking carrier that faces away from the steering axis.

21. The mobile transport system according to claim 16, wherein the marking carrier is disposed, at least in part, between the steering axis and the camera.

22. The mobile transport system according to claim 16, wherein the marking carrier is at least approximately rotationally symmetrical to the steering axis.

23. The mobile transport system according to claim 16, wherein the marking carrier surrounds the drive frame at least approximately concentrically.

24. The mobile transport system according to claim 22, wherein the marking carrier surrounds the drive frame at least approximately concentrically.

25. The mobile transport system according to claim 16, wherein the steering axis extends vertically, perpendicular to the transverse direction.

26. The mobile transport system according to claim 16, wherein the drive unit includes an actuator motor adapted to drive the drive frame relative to the swivel about the steering axis.

27. The mobile transport system according to claim 16, wherein the first drive wheel is rotatably supported on a first swing arm pivotable about a first swing axis relative to the drive frame, and the second drive wheel is rotatably supported on a second swing arm pivotable about a second swing axis relative to the drive frame.

28. The mobile transport system according to claim 27, wherein the drive unit includes a first drive motor adapted to drive the first drive wheel and a second drive motor adapted to drive the second drive wheel, the first drive motor being disposed on the first swing arm, the second drive motor being disposed on the second swing arm.

29. The mobile transport system according to claim 27, wherein the first swing arm extends in the transverse direction, the second swing axis extends in the transverse direction, and/or the first swing axis and the second swing axis are aligned with each other.

30. The mobile transport system according to claim 16, further comprising: a vehicle frame; a swing frame pivotable about a swing axis relative the vehicle frame; a pair of first support wheels disposed on the vehicle frame; and a pair of second support wheels disposed on the swing frame; wherein the drive unit is disposed on the swing frame, and the swing axis extends perpendicular to a vertical direction extending perpendicular to the transverse direction.

31. The mobile transport system according to claim 30, wherein the swivel is attached in a stationary manner to the swing frame.

32. The mobile transport system according to claim 30, wherein the drive unit includes a rotary transmitter adapted to transmit electrical energy and data between the drive frame and the swing frame.

33. The mobile transport system according to claim 30, wherein the drive unit includes a rotary transmitter adapted to transmit electrical energy and data from the drive frame to the swing frame and from the swing frame to the drive frame.

34. The mobile transport system according to claim 30, wherein each first support wheels is supported relative to the vehicle frame rotatably about a first axis of rotation extending in a horizontal direction and relative to the vehicle frame pivotably about a first pivot axis extending in a vertical direction that extends perpendicular to the transverse direction.

35. The mobile transport system according to claim 30, wherein each second support wheel is supported relative to the swing frame rotatably about a second axis of rotation extending in a horizontal direction and relative to the swing frame pivotably about a second pivot axis extending in a vertical direction that extends perpendicular to the transverse direction.

36. The mobile transport system according to claim 34, wherein each second support wheel is supported relative to the swing frame rotatably about a second axis of rotation extending in a horizontal direction and relative to the swing frame pivotably about a second pivot axis extending in the vertical direction.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] FIG. 1 is a schematic side view of a mobile transport system.

[0031] FIG. 2 is a schematic side view of a drive unit.

[0032] FIG. 3 is a schematic perspective view of a drive unit.

DETAILED DESCRIPTION

[0033] FIG. 1 is a schematic side view of a mobile transport system 10. The mobile transport system 10 is arranged for transporting objects in a technical plant. The technical plant is an industrial application, such as a production plant. The transport system 10 is also arranged, for example, for supplying goods to a residence of a private recipient in a city or in a residential region. For example, the mobile transport system 10 is an automated guided vehicle. For example, the mobile transport system 10 is present on a flat ground within a technical plant.

[0034] The mobile transport system 10 includes a vehicle frame 12 and a swing frame 14. The swing frame 14 is pivotable about a swing axis 13 relative to the vehicle frame 12. The swing axis 13 extends in the lateral direction S. The vehicle frame 12 includes an approximately rectangular cross section and extends predominantly in a base direction T and in the transverse direction S.

[0035] The base direction T corresponds at least approximately to the usual travel direction of the mobile transport system 10. The lateral direction S extends perpendicular to the base direction T. The base direction T and the lateral direction S are horizontal directions and extend parallel to the flat ground on which the mobile transport system 10 is present. A vertical direction Z stands perpendicular on the flat ground and thus extends perpendicular to the base direction T and perpendicular to the lateral direction S. Each direction perpendicular to the vertical direction Z is a horizontal direction.

[0036] Two first support wheels 41 are disposed on the vehicle frame 12 and are rotatable relative to the vehicle frame 12. The first support wheels 41 are disposed offset to each other in the lateral direction S. Two second support wheels 42 are disposed on the swing frame 14 and rotatable relative to the swing frame 14. The second support wheels 42 are disposed offset to each other in the lateral direction S.

[0037] The first support wheels 41 are each pivotable relative to the vehicle frame 12 about a first pivot axis 61 extending in a vertical direction Z. The first support wheels 41 are each further supported rotatably relative to the vehicle frame 12 about a first axis of rotation 51 extending in a horizontal direction. For example, the first axes of rotation 51 extend in the lateral direction S. Depending on a pivoting of the first support wheels 41 about the first pivot axis 61, the first axes of rotation 51 extend in the base direction T, for example, or in a different horizontal direction. The first pivot axis 61 and the first axis of rotation 51 of a first support wheel 41 do not intersect.

[0038] The second support wheels 42 are each pivotable relative to the swing frame 14 about a second pivot axis 62 extending in the vertical direction Z. The second support wheels 42 are each further supported rotatably relative to the swing frame 14 about a second axis of rotation 52 extending in a horizontal direction. For example, the second axes of rotation 52 extend in the lateral direction S. Depending on a pivoting of the second support wheels 42 about the second pivot axis 62, the second axes of rotation 52 extend in the base direction T, for example, or in a different horizontal direction. The second pivot axis 62 and the second axis of rotation 52 of a second support wheel 42 do not intersect.

[0039] The mobile transport system 10 includes a drive unit 70 disposed on the swing frame 14. The drive unit 70 includes a drive frame 75 and a swivel 88. The drive frame 75 is pivotable relative to the swivel 88 about a steering axis 95. The swivel 88 is attached to the swing frame 14. The drive frame 75 is thus pivotable relative to the swing frame 14 about a steering axis 95. The drive unit 70 is disposed between the first support wheels 41 and the second support wheels 42 in the base direction T.

[0040] The drive unit 70 furthermore includes a marking carrier 78 disposed on the drive frame 75 in a stationary manner. Optically detectable markings are applied to the marking carrier 78. The markings applied to the marking carrier 78 contain information from which a pivot angle of the drive frame 75 relative to the swivel 88 about the steering axis 95 can be determined. The drive unit 70 also includes a camera 31 for detecting the markings. The camera 31 is disposed in a stationary manner relative to the swivel 88 and is attached to the swing frame 14.

[0041] The drive unit 70 includes a first drive wheel 71 and a second drive wheel 72, both rotatably supported. The drive wheels 71, 72 are disposed between the first support wheels 41 and the second support wheels 42 in the base direction T. A distance between the second support wheels 42 and the swing axis 13 in a base direction T is at least approximately equal to a distance between the steering axis 95 and the swing axis 13 in the base direction T. The distance between the second support wheels 42 and the swing axis 13 in the base direction T thereby corresponds to the distance between the second pivot axes 62 and the swing axis 13 in the base direction T.

[0042] FIG. 2 is a side view of the drive unit 70. The marking carrier 78 is disposed partially between the steering axis 95 and the camera 31. The camera 31 is disposed spaced apart from the marking carrier 78. The markings are applied to a surface of the marking carrier 78 facing away from the steering axis 95. The surface faces the camera 31. Part of the marking carrier 78 is disposed in a detection cone 33 of the camera 31. Markings on the marking carrier 78 that are located in the detection cone 33 can be detected by the camera 31.

[0043] The drive unit 70 includes a first swing arm 81 pivotable relative to the drive frame 75 about a first swing axis 91 and a second swing arm 82 pivotable relative to the drive frame 75 about a second swing axis 92. The first swing axis 91 and the second swing axis 92 extend in a transverse direction Y and are aligned to each other. The swing arms 81, 82 are each pivotable relative to the drive frame 75 in a first pivot direction A and in a second pivot direction B aligned opposite the first pivot direction A about the swing axes 91, 92.

[0044] The transverse direction Y extends perpendicular to the vertical direction Z. A longitudinal direction X extends perpendicular to the vertical direction Z and perpendicular to the transverse direction Y. The longitudinal direction X and the transverse direction Y are horizontal directions. Each direction perpendicular to the vertical direction Z is a horizontal direction. As previously mentioned, the drive frame 75 of the drive unit 70 is pivotable relative to the swivel 88 and to the swing frame 14 of the mobile transport system 10 about the steering axis 95. Depending on a pivot motion of the drive frame 75 about the steering axis 95, an alignment of the drive frame 75 changes relative to the vehicle frame 12 and relative to the swing frame 14. For example, the longitudinal direction X corresponds to the base direction T, and the transverse direction Y corresponds to the lateral direction S.

[0045] The first drive wheel 71 is rotatably supported on the first swing arm 81 about a first drive axis 73 extending in the transverse direction Y. The second drive wheel 72 is rotatably supported on the second swing arm 82 about a second drive axis 74 extending in the transverse direction Y. The drive axes 73, 74 thus extend parallel to the swing axes 91, 92 but are offset parallel relative to the same. Due to pivot motions of the swing arms 81, 82 about the swing axes 91, 92, the drive axes 73, 74 are displaceable relative to each other perpendicular to the transverse direction Y. The drive axes 73, 74 intersect the steering axis 95, at least approximately.

[0046] The drive unit 70 includes a receiving unit 20 disposed on the drive frame 75 and to which energy can be transmitted inductively from a charging unit. The charging unit is implemented as a linear conductor or as a coil, for example. The energy inductively transmitted from the charging unit to the receiving unit 20 serves, for example, for charging an electrical energy store of the mobile transport system 10.

[0047] The drive unit 70 further includes an inductive sensor 21 disposed on the drive frame 75. The inductive sensor 21 serves for detecting a magnetic field. When the magnetic field is generated by a linear conductor arranged in the ground, for example, the inductive sensor 21 provides for following the linear conductor in order to reach a particular destination.

[0048] The drive unit 70 also includes a rotary transmitter 94. The rotary transmitter 94 includes slip rings, for example, by which electrical energy and data can be transmitted from the drive frame 75 to the swivel 88 and to the swing frame 14. Electrical energy and data can also be transmitted from the swivel 88 and from the swing frame 14 to the drive frame 75 by the slip rings.

[0049] FIG. 3 is a perspective view of the drive unit 70. The marking carrier 78 is arranged at least approximately rotationally symmetrical to the steering axis 95 and surrounds the drive frame 75 at least approximately concentrically. As mentioned above, the markings are applied to a surface of the marking carrier 78 facing away from the steering axis 95.

[0050] The drive unit 70 includes an actuator motor 89 for driving the drive frame 75 relative to the swivel 88 about the steering axis 95. The actuator motor 89 is disposed in a stationary manner on the drive frame 75 and operationally connected to a gearbox, by which the actuator motor 89 drives the drive frame 75 relative to the swivel 88. The gearbox includes a pinion 97 disposed on the drive frame 75 in a stationary manner and a crown gear 98. The crown gear 98 is disposed on the swivel 88 in a stationary manner. The pinion 97 meshes with the crown gear 98. The actuator motor 89 drives the pinion 97, which meshes with the crown gear 98.

[0051] The rotary transmitter 94 includes an approximately rotationally symmetrical, e.g., cylindrical, base body. A cylinder axis of the base body of the rotary transmitter 94 extends in the vertical direction Z and is aligned with the steering axis 95. The rotary transmitter 94 is disposed on the drive frame 75 in a stationary manner and is pivotable relative to the swivel 88 about the steering axis 95. It is also possible that the rotary transmitter 94 is disposed on the swivel 88 in a stationary manner and is pivotable relative to the drive frame 75 about the steering axis 95.

[0052] The drive unit 70 includes a coupling unit having a rocker 80 pivotable about a coupling axis relative to the drive frame 75, a first strut 85, and a second strut 86. The first swing arm 81 is connected to the rocker 80 by the first strut 85. The second swing arm 82 is connected to the rocker 80 by the second strut 86. The coupling axis extends in the longitudinal direction X. The first swing arm 81 and the second swing arm 82 are thus coupled to each other by the coupling unit.

[0053] When the first drive wheel 71 travels into a ground protrusion, for example, the first drive wheel 71 is displaced upward in the vertical direction Z. The first swing arm 81 is pivoted about the first swing axis 91 in the first pivot direction A. The first swing arm 81 brings about a pivot motion of the rocker 80 about the coupling axis by the first strut 85. The rocker 80 brings about a pivot motion of the second swing arm 82 about the second swing axis 92 in the second pivot direction B by the second strut 86. The second drive wheel 72 is displaced downward in the vertical direction Z.

[0054] For the described procedure, the drive wheels 71, 72 are not displaced exclusively in the vertical direction Z, but also slightly in the longitudinal direction X. Due to the geometric arrangement of the swing arms 81, 82 and the swing axes 91, 92, the motion of the drive wheels 71, 72 in the longitudinal direction is negligible, however, in comparison with the motion in the vertical direction Z.

[0055] The first swing arm 81 and the second swing arm 82 are thus coupled to each other by the coupling unit, such that a pivot motion of the first swing arm 81 about the first swing axis 91 in the first pivot direction A brings about a pivot motion of the second swing arm 82 about the second swing axis 92 in the second pivot direction B. The first swing arm 81 and the second swing arm 82 are also coupled to each other by the coupling unit, such that a motion of the first drive wheel 71 upward in the vertical direction Z brings about a motion of the second drive wheel 72 downward in the vertical direction Z, and vice versa.

[0056] The first strut 85 and the second strut 86 extend at least approximately in the vertical direction Z. The first strut 85 and the second strut 86 are each adjustable in length independently of each other. This means that an extent of the struts 85, 86 in the vertical direction Z is adjustable.

[0057] The drive unit 70 includes a tilt sensor for capturing a tilt of the rocker 80 relative to the drive frame 75 about the coupling axis. The drive unit 70 includes a tilt sensor for capturing a tilt of the first swing arm 81 relative to the drive frame 75 about the first swing axis 91. The drive unit 70 includes a tilt sensor for capturing a tilt of the second swing arm 82 relative to the drive frame 75 about the second swing axis 92.

LIST OF REFERENCE CHARACTERS

[0058] 10 Mobile transport system [0059] 12 Vehicle frame [0060] 13 Swing axis [0061] 14 Swing frame [0062] 20 Receiving unit [0063] 21 First inductive sensor [0064] 31 Camera [0065] 33 Detection cone [0066] 41 First support wheel [0067] 42 Second support wheel [0068] 51 First axis of rotation [0069] 52 Second axis of rotation [0070] 61 First pivot axis [0071] 62 Second pivot axis [0072] 70 Drive unit [0073] 71 First drive wheel [0074] 72 Second drive wheel [0075] 73 First drive axis [0076] 74 Second drive axis [0077] 75 Drive frame [0078] 78 Marking carrier [0079] 80 Rocker [0080] 81 First swing arm [0081] 82 Second swing arm [0082] 85 First strut [0083] 86 Second strut [0084] 88 Swivel [0085] 89 Actuator motor [0086] 91 First swing axis [0087] 92 Second swing axis [0088] 94 Rotary transmitter [0089] 95 Steering axis [0090] 97 Pinion [0091] 98 Crown gear [0092] A First pivot direction [0093] B Second pivot direction [0094] S Lateral direction [0095] T Base direction [0096] X Longitudinal direction [0097] Y Transverse direction [0098] Z Vertical direction