In one embodiment, an inventory storage system has a vertical stack of storage modules that extend from a first stack end to a second stack end, and are stacked on top of one another. Each storage module defines a path that forms a loop in a vertical plane, and each storage module has a plurality of inventory carriers that translate around the loop. The vertical stack has a first end section that extends from the first stack end towards the second stack end, and that includes a first end of each loop of the stack. The vertical stack also has a second end section that extends from the second stack end towards the first stack end, and that includes a second end of each loop of the stack. The sections can be transported separately by a truck or container and then coupled together at the destination.

In one embodiment, an inventory storage system has a vertical stack of storage modules that extend from a first stack end to a second stack end, and are stacked on top of one another. Each storage module defines a path that forms a loop in a vertical plane, and each storage module has a plurality of inventory carriers that translate around the loop. The vertical stack has a first end section that extends from the first stack end towards the second stack end, and that includes a first end of each loop of the stack. The vertical stack also has a second end section that extends from the second stack end towards the first stack end, and that includes a second end of each loop of the stack. The sections can be transported separately by a truck or container and then coupled together at the destination.

An analytical system for examining a body fluid and a method of operation of an analytical system, typically for blood sugar tests, including an exchangeable magazine (18) as a consumable, which includes a plurality of magazine units (24) that are each provided with at least one analytical aid (32, 34) and with a transport element (28), a hand-held device (12) having a magazine guide (16) for receiving the magazine (18), a transport mechanism (48) that engages on the transport elements so as to transport the magazine in steps in the magazine guide, including a positioning mechanism (50) for positioning an active magazine unit in a predefined functional position, wherein retaining elements (52, 54) of the positioning mechanism can be brought into engagement with transport elements of the magazine.

An analytical system for examining a body fluid and a method of operation of an analytical system, typically for blood sugar tests, including an exchangeable magazine (18) as a consumable, which includes a plurality of magazine units (24) that are each provided with at least one analytical aid (32, 34) and with a transport element (28), a hand-held device (12) having a magazine guide (16) for receiving the magazine (18), a transport mechanism (48) that engages on the transport elements so as to transport the magazine in steps in the magazine guide, including a positioning mechanism (50) for positioning an active magazine unit in a predefined functional position, wherein retaining elements (52, 54) of the positioning mechanism can be brought into engagement with transport elements of the magazine.

In one embodiment, an inventory storage module has a first conveyor segment, a second conveyor segment spaced below the first conveyor segment, a first vertical lift disposed at a first end of the module, and a second vertical lift disposed at a second end of the module. The first and second lifts each transfer inventory carriers between the first and second conveyor segments. The first conveyor segment, the second conveyor segment, the first vertical lift, and the second vertical lift together define a conveying loop in a vertical plane, and the storage module translates inventory carriers around the conveying loop until a desired one of the inventory carriers is presented at one of the first and second module ends. An inventory item can be retrieved from, or stowed in, the desired one of the inventory carriers at the one of the first and second module ends.

An example process may include receiving a request identifying an action with respect to an item and a modular storage system. The modular storage system may include a plurality of shipping containers accessible from an item transfer facility. The process may also include identifying a particular shipping container of the plurality of shipping containers to fulfill the request. The process may also include identifying, within the particular shipping container, a particular storage module to fulfill the request. The particular storage module may include a particular plurality of storage containers. The process may also include identifying, from among the particular plurality of storage containers, a particular storage container to fulfill the request. The process may also include causing movement of the particular plurality of storage containers to move the particular storage container to an access position.

An example process may include receiving a request identifying an action with respect to an item and a modular storage system. The modular storage system may include a plurality of shipping containers accessible from an item transfer facility. The process may also include identifying a particular shipping container of the plurality of shipping containers to fulfill the request. The process may also include identifying, within the particular shipping container, a particular storage module to fulfill the request. The particular storage module may include a particular plurality of storage containers. The process may also include identifying, from among the particular plurality of storage containers, a particular storage container to fulfill the request. The process may also include causing movement of the particular plurality of storage containers to move the particular storage container to an access position.

Loading, shifting, and staging objects in automated or semi-automated fashion including systems, methods, and apparatuses for the same. The embodiments hereof enable automated and/or semi-automated loading, shifting, organizing, staging, and accessing of objects in different environments, e.g., those associated with a logistics network operation. For example, one such environment is a vehicle. In one aspect, a loading mechanism is used to load objects into a storage space of the vehicle. In another aspect, a shifting mechanism is used to shift objects in a storage space of the vehicle. In another aspect, a door assembly allows for automated opening and closing of a door into a storage space of a vehicle. In addition, methods of manufacturing and using the same are provided.

In one embodiment, an inventory storage module has first to fourth conveyor segments that define a closed conveying loop in a horizontal plane. The storage module can translate inventory carriers around the closed loop until a desired one of the inventory carriers is presented at one end of the module. The first conveyor segment translates inventory carriers along a first longitudinal direction. The second conveyor segment is offset from the first segment along a first lateral direction and translates inventory carriers along a second longitudinal direction, opposite the first longitudinal direction. The third conveyor segment translates inventory carriers from the first conveyor to the second segment along a first lateral direction at a second end of the module. The fourth conveyor segment translates inventory carriers from the second segment to the first segment along a second lateral direction, opposite the first lateral direction, at a first end of the module.

In one embodiment, an storage module has first and second guide rails that are spaced from one another along a lateral direction. Each guiderail has an upper track and a lower track spaced from one another along a vertical direction, and first and second connecting tracks that connect the upper track to the lower track at first and second ends, respectively. A plurality of inventory carriers that are supported between the guiderails and are arranged end-to-end along the upper and lower tracks. A drivetrain drives the carriers to translate along the upper and lower tracks at a first speed, and drives the carriers to translate along the connecting tracks at a second speed, faster than the first speed. Increasing the speed of the carriers at the connecting tracks can prevent the carriers from colliding with one another when transitioning between the upper track and the lower track.