An object processing system is disclosed that includes an object induction station at which objects are provided for processing. The object induction station includes at least one perception unit for providing perception data regarding an object, and an object processing system for receiving objects from the object induction station, and for urging an object into a first end of one of a plurality of chute location, each of which including a first end that is accessible by the carrier and a second end that is accessible by a mobile destination container of a plurality of mobile destination containers.

An article moving device of the present invention includes a plurality of roller members, a base member which has a bottom plate section and a peripheral wall section and accommodates the plurality of roller members, and a plate-shaped cover member which is detachably attached to the peripheral wall section so as to cover an opening section surrounded by the peripheral wall section, wherein the base member is formed of a material having a flexural modulus of 2500 MPa to 4000 MPa, a first parameter of 7.00 to 18.00, as calculated by the formula: flexural modulus (MPa)×yield stress in tension (MPa)×thickness (mm)/density (g/cm.sup.3)/100000, and a second parameter of 2.00 to 10.00, as calculated by the formula: first parameter×nominal tensile strain at break (%)/100.

An article moving device of the present invention includes a plurality of roller members, a base member which has a bottom plate section and a peripheral wall section and accommodates the plurality of roller members, and a plate-shaped cover member which is detachably attached to the peripheral wall section so as to cover an opening section surrounded by the peripheral wall section, wherein the base member is formed of a material having a flexural modulus of 2500 MPa to 4000 MPa, a first parameter of 7.00 to 18.00, as calculated by the formula: flexural modulus (MPa)×yield stress in tension (MPa)×thickness (mm)/density (g/cm.sup.3)/100000, and a second parameter of 2.00 to 10.00, as calculated by the formula: first parameter×nominal tensile strain at break (%)/100.

The invention relates to automotive tire storing system (100) providing storage of the tires (200) used in automotive sector and building a storage-controlling automatization. The invention particularly relates to automotive tire storing system (100) providing automatically detecting diameter of the tires (200), placing the tire at an appropriate position according to the detected diameter, firstly taking the tire stored in the first place thereout.

The invention relates to automotive tire storing system (100) providing storage of the tires (200) used in automotive sector and building a storage-controlling automatization. The invention particularly relates to automotive tire storing system (100) providing automatically detecting diameter of the tires (200), placing the tire at an appropriate position according to the detected diameter, firstly taking the tire stored in the first place thereout.

An automatic picking machine for pharmaceutical drug packages includes at least one storage rack, at least one storage and retrieval machine, a control apparatus for controlling the storage and retrieval machine, and a filling apparatus for successively filling each of a plurality of transport containers with a group of pharmaceutical drug packages corresponding to one order, wherein the filling apparatus includes a plurality of collection containers, first transport apparatuses, each having a transport channel for conveying the pharmaceutical drug packages towards the respective collection container, and a receiving apparatus for receiving a transport container to be filled at a filling location of the filing apparatus.

An object processing system is disclosed that includes a plurality of track sections, and a plurality of remotely actuatable carriers for controlled movement along at least portions of the plurality of track sections, wherein each of the remotely controllable carriers is adapted to support and transport an object processing bin.

A method and system for fulfilling customer orders having a data base that is adapted to store a plurality of customer orders and identity of warehouse inventory items and return inventory items that make up each of the customer orders. Some of the orders are single item orders with only one inventory item assigned to that order. Some of the orders are multiple item orders with multiple inventory items assigned to that order. Returned items that are processed and determined to be acceptable to be re-distributed are re-introduced into the inventory data base and are available to be assigned to an order. Warehouse inventory and return inventory are maintained independent of each other to reduce redundant operations. The order fulfilment system retrieves items from either or both of the warehouse inventory and return inventory to fulfil customer orders. The order fulfilment system may utilizes human associates or robot associates.

A method and system for fulfilling customer orders having a data base that is adapted to store a plurality of customer orders and identity of warehouse inventory items and return inventory items that make up each of the customer orders. Some of the orders are single item orders with only one inventory item assigned to that order. Some of the orders are multiple item orders with multiple inventory items assigned to that order. Returned items that are processed and determined to be acceptable to be re-distributed are re-introduced into the inventory data base and are available to be assigned to an order. Warehouse inventory and return inventory are maintained independent of each other to reduce redundant operations. The order fulfilment system retrieves items from either or both of the warehouse inventory and return inventory to fulfil customer orders. The order fulfilment system may utilizes human associates or robot associates.

A vehicle for use in an inventory management system having a plurality of destination areas and a guide system includes a platform for receiving and transporting items to and from the destination areas, a plurality of motors, a first drive system, a second drive system, a transfer mechanism, and a clutch mechanism. The transfer system is configured to transfer and retrieve items to and from the destination areas, and the clutch mechanism is configured to engage and disengage the transfer mechanism from at least one of the motors, whereby the second drive system drives movement of the vehicle independently of the transfer mechanism.