Provided are a raw material discharge device, a method of processing an electronic and electrical device component scrap, and a raw material discharging method of an electronic and electrical device component scrap, which are capable of efficiently discharging the raw material having various shapes, specific gravities and shapes in each fixed amount. A raw material discharge device including: a storage unit 1 which stores a raw material and comprising a discharge port 11 at one end; a discharge unit 2 arranged at a bottom surface 15 of the storage unit 1, which conveys the raw material toward the discharge port 11 and discharges the raw material to an outside of the storage unit 1; an adjustment unit 3 including a plurality of struts 31 extending from above to below the discharge unit 2 and adjusting an amount of the raw material to be discharged by holding a part of the raw material with the struts 31; wherein a ratio (d1/d2) of a distance (d1) between a strut 31 closest to a side surface 13, 14 of the storage unit 1 and the side surface 13, 14 of the storage unit 1 to a narrowest distance (d2) between the struts 31 in a center portion of the storage unit 1, and a ratio (H1/H2) of a height of the strut 31 closest to the side surface 13, 14 of the storage unit 1 from a floor to a minimum height (H2) of a strut 31 which is other than the strut 31 closest to the side surface of the storage unit 1 from the floor are respectively adjustable so as to prevent clogging of the raw material being discharged to the outside of the storage unit 1.

An object processing system is disclosed for unloading objects from a trailer of a tractor trailer. The object processing system includes an engagement system including a truck entry portion for entering the trailer and for indiscriminately engaging unidentified objects within the trailer, and a conveyance system for conveying objects engaged by the engagement system toward an unloading portion of the trailer.

An object processing system is disclosed for unloading objects from a trailer of a tractor trailer. The object processing system includes an engagement system including a truck entry portion for entering the trailer and for indiscriminately engaging unidentified objects within the trailer, and a conveyance system for conveying objects engaged by the engagement system toward an unloading portion of the trailer.

A loading/unloading unit for loading/unloading profiles having a longitudinal main axis of extension, wherein at least one predetermined section is defined on a profile transverse to a longitudinal main axis of the profile, may include: a platform extending longitudinally along a first axis and transversely along a second axis, wherein the platform is configured to receive one or more profiles along the first axis, wherein the platform includes loading and unloading areas, and a pick-up area spaced apart from the loading and unloading areas; and handling means associated with the platform and configured to carry the one or more profiles between the loading and unloading areas. The handling means may include one or more orientation devices that can be pulled up from the platform along a third axis, perpendicular to the first and second axes, and that are configured to rotate the profile about the longitudinal main axis.

A loading/unloading unit for loading/unloading profiles having a longitudinal main axis of extension, wherein at least one predetermined section is defined on a profile transverse to a longitudinal main axis of the profile, may include: a platform extending longitudinally along a first axis and transversely along a second axis, wherein the platform is configured to receive one or more profiles along the first axis, wherein the platform includes loading and unloading areas, and a pick-up area spaced apart from the loading and unloading areas; and handling means associated with the platform and configured to carry the one or more profiles between the loading and unloading areas. The handling means may include one or more orientation devices that can be pulled up from the platform along a third axis, perpendicular to the first and second axes, and that are configured to rotate the profile about the longitudinal main axis.

A bin-module based automated storage and retrieval system (ASRS) includes a plurality of storage shelves, each removably supporting a plurality of bin modules. Each bin module includes multiple bins. The system also includes a collection shelf configured to removably support bin modules. The system further includes a dolly including: (a) a dolly frame, (b) a drive module configured to propel the dolly, and (c) an actuator configured to move a coupler to couple to the bin module supported in one of the plurality of storage shelves when the dolly is positioned adjacent to said storage shelf, the actuator being further configured to remove said bin module from said storage shelf to the dolly frame, and to move said bin module from the dolly frame to the collection shelf when the dolly is positioned adjacent to the collection shelf.

A bin-module based automated storage and retrieval system (ASRS) includes a plurality of storage shelves, each removably supporting a plurality of bin modules. Each bin module includes multiple bins. The system also includes a collection shelf configured to removably support bin modules. The system further includes a dolly including: (a) a dolly frame, (b) a drive module configured to propel the dolly, and (c) an actuator configured to move a coupler to couple to the bin module supported in one of the plurality of storage shelves when the dolly is positioned adjacent to said storage shelf, the actuator being further configured to remove said bin module from said storage shelf to the dolly frame, and to move said bin module from the dolly frame to the collection shelf when the dolly is positioned adjacent to the collection shelf.

An automated lumber handling system laser-scans the top profile of multiple stacks of lumber, each of which contain boards of a unique size. Based on the scanned profiles, the system determines the order in which individual boards from a chosen stack should be transferred to a numerically controlled saw. The saw cuts the boards to proper size and in the proper sequence to facilitate orderly assembly of a roof truss or prefabricated wall. In some examples, the system lifts individual boards by driving two retractable screws, or some other piercing tool, down into the upward facing surface of the board. A track mounted cantilever, holding the screws and a laser unit, translates over the lumber stacks to retrieve and deliver individual boards and, while doing so, the laser repeatedly scans the stacked lumber profiles on-the-fly to continuously update the profiles. The open cantilever design facilitates replenishing the stacks of lumber.

An automated lumber handling system laser-scans the top profile of multiple stacks of lumber, each of which contain boards of a unique size. Based on the scanned profiles, the system determines the order in which individual boards from a chosen stack should be transferred to a numerically controlled saw. The saw cuts the boards to proper size and in the proper sequence to facilitate orderly assembly of a roof truss or prefabricated wall. In some examples, the system lifts individual boards by driving two retractable screws, or some other piercing tool, down into the upward facing surface of the board. A track mounted cantilever, holding the screws and a laser unit, translates over the lumber stacks to retrieve and deliver individual boards and, while doing so, the laser repeatedly scans the stacked lumber profiles on-the-fly to continuously update the profiles. The open cantilever design facilitates replenishing the stacks of lumber.

Disclosed are various embodiments for a containerized shipping trailer and an automated module moving apparatus. A containerized shipping trailer may comprise a shipping container having a plurality of compartments configured to store a plurality of modules in an interior of the shipping container. An automated module moving apparatus may comprise a body configured to move horizontally along a rail from a first position to a second position to insert at least one projection into a portal of a module located in a compartment of the shipping container. The module may be removed and placed at a predefined location.