A separating device for a gravity conveyor, comprising a conveying plane (E) along which an item (30) is conveyable in a conveying direction (F), and an actuating means (50), which comprises a first actuating member (51), which can be moved into an actuated position by conveyed items (30) being moved in the conveying direction (F), and a second actuating member (52), which can be moved into an actuated position by conveyed items (30) being moved counter to the conveying direction (F). When at least one of the first and second actuating members (50, 51) is actuated, a movement of the at least one separating stop (40) from the position above the conveying plane is blocked, and when the first and second actuating members (50, 51) are unactuated, a movement of the at least one separating stop (40) to a position below or flush with the conveying plane is enabled.

Provided are a stud supply device and a stud supply method with which a stud can be supplied to a welding electrode in the correct orientation. The stud supply device comprises: a magazine in which a predetermined number of studs can be aligned and stored in series inside a magazine hole from a stop part to one end side; switching mechanisms having a plurality of balls that can move between a position contacting the studs and a position not contacting the studs, and a reciprocating member that restricts the movement of the plurality of balls, the switching mechanisms switching between a state in which the studs are stopped at the stop part and a state in which the studs are allowed to pass; and a first air injection part that is provided more on the one end side than the stop part, and that injects air from the one end side to the stud stopped at the stop part.

A logistics arrangement for conveying objects between different locations is provided herein. The logistics arrangement comprises a loading structure having a first storage area, a mobile robot having a second storage area, and a guard module arranged at the loading structure. The guard module is configured to be operated in a closed mode and an open mode.

Loading units are collections of goods to be placed in sequence and compiled, as onto a pallet, for shipment. An apparatus is provided for sequencing loading units in a predetermined order. The apparatus includes a sequencing zone with a plurality of belts for receiving units to be sequenced, and a feeding device for units arranged upstream of the sequencing zone. Also included is a separation device with intakes for loading units. A distribution device distributes units onto the belts; a relocation device conveys separated units toward a downstream conveying device. The distribution device and the relocation device include a transverse pusher for pushing the units transversely to the belts or the intakes.

A modular conveying assembly that includes a plurality of roller bodies, a driving member, a positive stop body, and a positive stop actuator. Each roller body includes a top surface, a driven axle mounted to the roller body for conveyance therewith, a roller fixed to the driven axle, and a driven surface fixed to the driven axle. The rollers define a support plane. The driving member selectively engages the driven surfaces to affect rotation of the driven axle. The positive stop body is coupled to the plurality of roller bodies and includes a positive stop that is movable relative to the positive stop body between a first position and a second position. The positive stop extends above the support plane in the second position. The positive stop actuator selectively engages the positive stop to move the positive stop between the first position and the second position.

Embodiments herein provide automated bin packing of heterogeneous objects to fill maximum number of objects in an available bin space in an efficient manner. Conventional methods are less efficient in packing heterogeneous objects in a space and time efficient manner. The apparatus receives a plurality of 3D objects through a primary conveyor and diverts each of the plurality of 3D objects to an identified cuboidal bin through a corresponding secondary conveyor. Each of the plurality of 3D objects are diverted based on a tracking code associated with each of the plurality of 3D objects and a computed available bin space of the identified cuboidal bin corresponding to each of the plurality of 3D objects. Here the available bin space is computed based on a bin space information received from a corresponding bin vision sensor and a corresponding state space of the identified cuboidal bin.

A packaged integrated circuit transfer track with a stopper arm that is constrained to vertical motion. A packaged integrated circuit transfer track with a cam follower that engages a cam causing a stopper arm to raise or lower vertically. A packaged integrated circuit transfer track with an actuator that engages a switch causing a motor or solenoid to raise or lower the stopper arm vertically.

A material handling apparatus includes a first pop-up belt abutting a first cam. The first pop-up belt is configured to facilitate movement of a package between a first conveyor and a second conveyor. a separator wall abuts a second cam. The separator wall is configured to control movement of the package between the first conveyor and the second conveyor. In response to the camshaft rotating in a first direction, the first cam causes the first pop-up belt to extend out from the first conveyor. The second cam causes the separator wall to move to a first position. I in the first position, the separator wall allows the package to move from the first conveyor to the second conveyor. In response to the camshaft rotating in a second direction, the first pop-up belt move to a retracted position while the separator wall to move to a second position.

Embodiments herein provide automated bin packing of heterogeneous objects to fill maximum number of objects in an available bin space in an efficient manner. Conventional methods are less efficient in packing heterogeneous objects in a space and time efficient manner. The apparatus receives a plurality of 3D objects through a primary conveyor and diverts each of the plurality of 3D objects to an identified cuboidal bin through a corresponding secondary conveyor. Each of the plurality of 3D objects are diverted based on a tracking code associated with each of the plurality of 3D objects and a computed available bin space of the identified cuboidal bin corresponding to each of the plurality of 3D objects. Here the available bin space is computed based on a bin space information received from a corresponding bin vision sensor and a corresponding state space of the identified cuboidal bin.

A motion system for grouping articles moving along a conveyor in a longitudinal direction is described, including at least one pusher arranged along the conveyor and being movable in a transverse direction, perpendicular to the longitudinal direction, to push a group of articles off the conveyor in the transverse direction, at least one article guide being movable along the transverse direction to intersect between the articles, when the articles move along the conveyor, whereby the at least one article guide is movable to restrict movement of the group of articles in the longitudinal direction and to guide the movement of the group of articles in the transverse direction when being pushed by the at least one pusher.