A device and a method for transferring piece goods between adjacent conveyor sections. A central pivot deflector between the conveyor sections and/or one or two outer pivot deflectors disposed on the outer sides of the conveyor sections can be pivoted about their pivot axes between first and second transfer positions and a passage position. In the transfer position, the pivoting deflector(s) block one of the conveyor sections obliquely from the outer side towards the center strip, so that an item of piece goods is transferred from one conveyor section to the other conveyor section. The pivoting deflectors are mounted substantially at the same level as the conveyor sections in both transfer positions. Thus piece goods can be transferred optionally from the first to the second conveyor section or vice versa at the same level. No item of piece goods is affected in the passage position.

A method for ascertaining a position error in a linear drive, a linear drive, a method for operating the linear drive and an installation, wherein the deviation of a respective further runner in relation to a first runner (reference runner) is ascertained to determine the position error, where the discrepancy of the respective sensor is ascertained based on the deviation of the runner, the discrepancy may be ascertained using a reference system, the position error may be established based on the discrepancy of the respective sensor PS and the deviation of the respective runner, and where the position error may serve for the improved positioning, i.e., more precise positioning, of the respective runner on the linear drive or of the segments.

A method for ascertaining a position error in a linear drive, a linear drive, a method for operating the linear drive and an installation, wherein the deviation of a respective further runner in relation to a first runner (reference runner) is ascertained to determine the position error, where the discrepancy of the respective sensor is ascertained based on the deviation of the runner, the discrepancy may be ascertained using a reference system, the position error may be established based on the discrepancy of the respective sensor PS and the deviation of the respective runner, and where the position error may serve for the improved positioning, i.e., more precise positioning, of the respective runner on the linear drive or of the segments.

A power maintaining method of electric vehicle includes the following step. In step 01, an energy power is provided by a main battery pack to drive a first electric vehicle (EV) moving to a first power supply station. In step 02, a first swap battery pack is installed on the first EV at the first power supply station, and the first swap battery pack is electrically connected to the main battery pack of the first EV so that the main battery pack is charged by the first swap battery pack. In step 03, the first EV is driven to a second power supply station from the first power supply station. In step 04, the first swap battery pack is uninstalled from the first EV at the second power supply station. In addition, an electric vehicle and a power supply station is disclosed in the present application.

A power maintaining method of electric vehicle includes the following step. In step 01, an energy power is provided by a main battery pack to drive a first electric vehicle (EV) moving to a first power supply station. In step 02, a first swap battery pack is installed on the first EV at the first power supply station, and the first swap battery pack is electrically connected to the main battery pack of the first EV so that the main battery pack is charged by the first swap battery pack. In step 03, the first EV is driven to a second power supply station from the first power supply station. In step 04, the first swap battery pack is uninstalled from the first EV at the second power supply station. In addition, an electric vehicle and a power supply station is disclosed in the present application.

A system and method for consolidating order items into individual or batch orders within an order fulfilment workstation and discharging the order items to a takeaway device, such as a trackable segmented conveyor. The system includes a temporary holding container at the workstation and a discharge mechanism to release or transfer the contents of the temporary container to the takeaway device. The system and method reduce or eliminate the process of an operator replenishing order transport containers to the workstation once a completed order container has dispatched from the workstation. Empty order containers are supplied the workstation via the takeaway device. The empty order container is positioned adjacent the temporary container such that the discharge mechanism may transfer the order items from the temporary container into the empty order container. The discharge mechanism may transfer the order items directly to the surface of the takeaway device.

A system and method for consolidating order items into individual or batch orders within an order fulfilment workstation and discharging the order items to a takeaway device, such as a trackable segmented conveyor. The system includes a temporary holding container at the workstation and a discharge mechanism to release or transfer the contents of the temporary container to the takeaway device. The system and method reduce or eliminate the process of an operator replenishing order transport containers to the workstation once a completed order container has dispatched from the workstation. Empty order containers are supplied the workstation via the takeaway device. The empty order container is positioned adjacent the temporary container such that the discharge mechanism may transfer the order items from the temporary container into the empty order container. The discharge mechanism may transfer the order items directly to the surface of the takeaway device.

A conveyor module includes an elongate frame to which a looped conveyor track is mounted. The frame includes first and second end housings which include end pulleys for the conveyor track. The frame also includes a drive housing located at a mid-portion thereof which houses the drive motor for the conveyor track. The conveyor module is a discrete independently driven unit with an upper portion (running surface) of the conveyor track in a planar orientation for conveying items thereon in use. The conveyor module can include additional smart features. A warehouse floor arrangement uses a plurality of side by side conveyor modules being identical and grouped into banks.

A conveyor module includes an elongate frame to which a looped conveyor track is mounted. The frame includes first and second end housings which include end pulleys for the conveyor track. The frame also includes a drive housing located at a mid-portion thereof which houses the drive motor for the conveyor track. The conveyor module is a discrete independently driven unit with an upper portion (running surface) of the conveyor track in a planar orientation for conveying items thereon in use. The conveyor module can include additional smart features. A warehouse floor arrangement uses a plurality of side by side conveyor modules being identical and grouped into banks.

Apparatus and method for transferring an object are disclosed. The apparatus includes a transfer track comprising a plurality of conveyors for transferring an object, an upper scheduler creating a transfer path for transferring the object and creating transfer information for controlling operations of conveyors constituting the transfer path, and a plurality of lower schedulers each receiving the transfer information from the upper scheduler and each controlling the operations of the conveyors based on the transfer information.