Mechanical tipping assembly for mobile drive unit of inventory system

What is claimed is: 1. An inventory system comprising: a mobile drive unit configured to carry an inventory holder within a facility, the inventory holder comprising one or more compartments holding one or more inventory items, the mobile drive unit comprising: a frame; a wheel coupled with the frame and rotatable about a wheel axis of rotation to move the frame and cause acceleration or deceleration of the mobile drive unit; a docking head assembly comprising a platform configured to engage the inventory holder and support the inventory holder over the frame of the mobile drive unit when the inventory holder is carried by the mobile drive unit; a base supporting the docking head assembly from underneath, at least one of the base or the docking head assembly subject to a reaction force oriented toward a first direction in response to acceleration or deceleration of the mobile drive unit when the inventory holder is carried by the mobile drive unit; and a pivot assembly suspending the base from the frame so that the docking head and base are each moveable relative to the frame and such that a top of the inventory holder will tip away from the first direction in response to movement of the base or the docking head assembly caused by the reaction force, the pivot assembly comprising: a first link pivotally coupled with the frame at a first location and pivotally coupled with the base downward from the first location; and a second link pivotally coupled with the frame at a second location and pivotally coupled with the base downward from the second location, the base being coupled with the first link at a third location and with the second link at a fourth location such that a distance between the third location and the fourth location is greater than a distance between the first location and the second location, wherein the first link and the second link are each pivotally coupled to the base and frame for rotation about axes of rotation that are substantially parallel to the wheel axis of rotation. 2. The inventory system of claim 1 , wherein the mobile drive unit further comprises a damper positioned and configured to reduce oscillations of the base in response to the reaction force. 3. The inventory system of claim 1 , wherein the mobile drive unit further comprises a spring positioned and configured to control a maximum deflection of the base in response to the reaction force. 4. The inventory system of claim 1 , wherein the mobile drive unit further comprises a lifting mechanism for moving the platform of the docking head assembly relative to the mobile drive unit for lifting and lowering the inventory holder relative to the mobile drive unit. 5. A mobile drive unit for an inventory system, the mobile drive unit comprising: a frame; a docking head assembly comprising a platform configured to engage an inventory holder, the platform supporting the inventory holder over the frame of the mobile drive unit when the inventory holder is carried by the mobile drive unit; a base supporting the docking head assembly from beneath; and a pivot assembly coupled between the frame and the base so that the base is suspended from the frame by the pivot assembly and so that the docking head and base are each moveable relative to the frame, the pivot assembly pivotally coupled with the frame and the base such that a reaction force acting on the base in response to acceleration or deceleration of the mobile drive unit moves the base so as to cause the docking head assembly to tip away from a direction of the reaction force, wherein the pivot assembly comprises: a first link coupled with a first side of the base; and a second link coupled with a second side of the base opposite the first side of the base, wherein the first link and the second link are coupled with the base a first distance apart from one another and coupled with the frame a second distance apart from one another that is smaller than the first distance. 6. The mobile drive unit of claim 5 , wherein the first link and the second link each extend downward from the frame and form an acute angle with the base when the mobile drive unit is stationary and the base is stationary. 7. The mobile drive unit of claim 5 , further comprising: a first plurality of links coupled with the first side of the base and including the first link; and a second plurality of links coupled with the second side of the base and including the second link. 8. The mobile drive unit of claim 5 , further comprising at least one of: a lifting mechanism configured to lift the frame so as to move the platform of the docking head assembly relative to the mobile drive unit for lifting the inventory holder; a lifting mechanism comprising an extendable column between the base and the platform of the docking head assembly for movement of the platform relative to the mobile drive unit for lifting the inventory holder; a lifting mechanism comprising the first link and the second link each being retractable so as to move the platform of the docking head assembly relative to the mobile drive unit for lifting the inventory holder; or a lifting mechanism configured to extend from the platform for lifting the inventory holder. 9. The mobile drive unit of claim 5 , further comprising a damper positioned and configured to reduce oscillations of the base in response to the reaction force. 10. The mobile drive unit of claim 5 , further comprising a biasing mechanism positioned and configured to control a maximum deflection of the base in response to the reaction force. 11. A tipping assembly for a mobile drive unit of an inventory system, the tipping assembly comprising: a frame; a first link pivotally coupled with the frame at a first location and extending downward from the frame; a second link pivotally coupled with the frame at a second location and extending downward from the frame; a base pivotally coupled with the first link downward from the first location and pivotally coupled with the second link downward from the second location, wherein the first link and the second link are coupled with the base a first distance apart from one another and coupled with the frame a second distance apart from one another that is smaller than the first distance; and a docking head assembly comprising a platform configured to engage an inventory holder to support the inventory holder over the frame, the docking head assembly supported by the base from beneath so that the docking head and base are each moveable relative to the frame and such that a reaction force acting on the base in response to acceleration or deceleration moves the base so as to cause the docking head assembly to tip away from a direction of the reaction force. 12. The tipping assembly of claim 11 , further comprising a lifting mechanism configured to lift the frame so as to move the platform of the docking head assembly relative to the mobile drive unit for lifting the inventory holder. 13. The tipping assembly of claim 11 , further comprising a lifting mechanism comprising an extendable column between the base and the platform of the docking head assembly for movement of the platform relative to the mobile drive unit for lifting the inventory holder. 14. The tipping assembly of claim 11 , wherein the first link and the second link are each retractable so as to move the platform of the docking head assembly relative to the mobile drive unit for lifting the inventory holder. 15. The tipping assembly of claim 11 , further comprising a lifting mechanism configured to extend from the platform for lifting the inventory holder.