System and method for traversing vertical obstacles

We claim: 1. A mobile robot comprising: a plurality of wheel mechanisms, comprising: on a left side of the mobile robot: a left front wheel mechanism including a left front wheel, a left rear wheel mechanism including a left rear wheel, and a left middle wheel mechanism including a left middle wheel positioned between the left front wheel and the left rear wheel, and on a right side of the mobile robot: a right front wheel mechanism including a right front wheel, a right rear wheel mechanism including a right rear wheel, and a right middle wheel mechanism including a right middle wheel, positioned between the right front wheel and the right rear wheel; and at least one lever, each for connecting two of the wheel mechanisms on a side of the mobile robot and configured to rotate with respect to a pivot point between said two wheel mechanisms, wherein each wheel has an axis of rotation, each said axis of rotation remaining substantially fixed with respect to the mobile robot during forward, rearward, and turning motion of said mobile robot, wherein the lever is configured to rotate freely, and wherein the at least one lever is configured to rotate freely by at most 60°, clockwise and counterclockwise. 2. The mobile robot according to claim 1 , wherein the at least one lever is configured to rotate freely over uneven ground. 3. The mobile robot according to claim 1 , wherein the mobile robot is configured such that a relative order of the rear wheels and the middle wheels is maintained while the robot traverses at least vertical obstacles. 4. The mobile robot according to claim 1 , comprising an enclosed space for holding at least one item for delivery. 5. The mobile robot according to claim 1 , configured to traverse curbstones. 6. A method comprising: (a) providing a mobile robot according to claim 1 ; (b) the mobile robot approaching an obstacle to be traversed; and (c) the at least one lever rotating around the pivot point when traversing an obstacle. 7. The method according to claim 6 , wherein in (c) the method comprises the at least one lever rotating freely. 8. The method according to claim 6 , wherein in (c) the method comprises the at least one lever rotating freely until a certain angle of rotation is reached. 9. The method according to claim 6 , wherein in (c) the method comprises engaging at least one lever turn motor once the lever reaches a certain tilting angle. 10. The mobile robot according to claim 1 , wherein the at least one lever is configured to rotate freely in an unactuated state. 11. The mobile robot according to claim 10 , wherein the at least one lever is configured to be rotated by a motor in an actuated state. 12. The mobile robot according to claim 11 , wherein the robot comprises a clutch for changing a state of the at least one tiling lever between the unactuated state and the actuated state. 13. The mobile robot according to claim 11 , wherein the at least one lever in the actuated state is configured to exert a downward and/or upward force with respect to the ground, selectively on at least one of the middle wheels. 14. The mobile robot according to claim 11 , wherein the at least one lever in the actuated state is configured to exert a downward and/or upward force with respect to the ground, selectively on at least one of the rear wheels. 15. The mobile robot according to claim 11 , comprising at least two motors, each of which being adapted to drive at least one respective wheel and/or the at least one lever in the actuated state. 16. The mobile robot according to claim 1 , wherein the at least one lever is configured to rotate freely until a certain angle of rotation is reached. 17. The mobile robot according to claim 1 , wherein the at least one lever is configured to rotate freely by at most 45°, clockwise and counterclockwise. 18. The mobile robot according to claim 1 , wherein the at least one lever is configured to rotate freely until a particular inclination angle is reached, at which point a motor is configured to engage the at least one lever to rotate the at least one lever. 19. A mobile robot comprising: a plurality of wheel mechanisms, comprising: on a left side of the mobile robot: a left front wheel mechanism including a left front wheel, a left rear wheel mechanism including a left rear wheel, and a left middle wheel mechanism including a left middle wheel positioned between the left front wheel and the left rear wheel, and on a right side of the mobile robot: a right front wheel mechanism including a right front wheel, a right rear wheel mechanism including a right rear wheel, and a right middle wheel mechanism including a right middle wheel, positioned between the right front wheel and the right rear wheel; and at least one lever, each for connecting two of the wheel mechanisms on a side of the mobile robot and configured to rotate with respect to a pivot point between said two wheel mechanisms, wherein each wheel has an axis of rotation, each said axis of rotation remaining substantially fixed with respect to the mobile robot during forward, rearward, and turning motion of said mobile robot, wherein the lever is configured to rotate freely, and wherein the at least one lever is configured to rotate freely by at most 45°, clockwise and counterclockwise. 20. The mobile robot according to claim 19 , wherein the at least one lever is configured to rotate freely in an unactuated state. 21. The mobile robot according to claim 20 , wherein the at least one lever is configured to be rotated by a motor in an actuated state. 22. The mobile robot according to claim 21 , wherein the robot comprises a clutch for changing a state of the at least one tiling lever between the unactuated state and the actuated state. 23. The mobile robot according to claim 21 , wherein the at least one lever in the actuated state is configured to exert a downward and/or upward force with respect to the ground, selectively on at least one of the middle wheels. 24. The mobile robot according to claim 21 , wherein the at least one lever in the actuated state is configured to exert a downward and/or upward force with respect to the ground, selectively on at least one of the rear wheels. 25. The mobile robot according to claim 21 , comprising at least two motors, each of which being adapted to drive at least one respective wheel and/or the at least one lever in the actuated state. 26. The mobile robot according to claim 19 , wherein the at least one lever is configured to rotate freely until a certain angle of rotation is reached. 27. The mobile robot according to claim 19 , wherein the at least one lever is configured to rotate freely over uneven ground. 28. The mobile robot according to claim 19 , wherein the mobile robot is configured such that a relative order of the rear wheels and the middle wheels is maintained while the robot traverses at least vertical obstacles. 29. The mobile robot according to claim 19 , comprising an enclosed space for holding at least one item for delivery. 30. The mobile robot according to claim 19 , configured to traverse curbstones. 31. A method comprising: (a) providing a mobile robot according to claim 19 ; (b) the mobile robot approaching an obstacle to be traversed; and (c) the at least one lever rotating around the pivot point