An object of the present invention is to develop a conveying device capable of carrying out an object in multiple directions. The conveying device includes a plurality of conveying cells 1 that move the object, and the plurality of conveying cells 1 are arranged in plane. The conveying cell 1 includes a conveying direction changing unit that changes a conveying direction and a controller. An address is given to the conveying cell 1, and based on a conveying destination of the Object carried in the conveying cell 1 and an own address of the conveying cell 1, the controller determines a carrying-out direction of the conveying cell 1 such that the object approaches the conveying destination.

An object of the present invention is to develop a conveying device capable of carrying out an object in multiple directions. The conveying device includes a plurality of conveying cells 1 that move the object, and the plurality of conveying cells 1 are arranged in plane. The conveying cell 1 includes a conveying direction changing unit that changes a conveying direction and a controller. An address is given to the conveying cell 1, and based on a conveying destination of the Object carried in the conveying cell 1 and an own address of the conveying cell 1, the controller determines a carrying-out direction of the conveying cell 1 such that the object approaches the conveying destination.

A traverser includes a base unit including a rail member, a moving unit configured to reciprocally move on the rail member between a first position and a second position, and a conveyance unit mounted on the moving unit and configured to convey a conveyance target object. The moving unit include a first travel roller that is a drive roller, and a drive mechanism configured to give a rotation driving force to the first travel roller. The drive mechanism includes a travel motor configured to supply the rotation driving force, and a friction transmission mechanism configured to transmit the rotation driving force of the travel motor to the first travel roller by a friction force.

A typing tunnel off-loading and sorting system includes an off-loading conveyor, cameras and photoelectric eye. The overhead cameras detect the item size and whether it is cubic in nature and type and size of its footprint. An in-line slide sorter having alternating conveyor rollers and pop-up belts pass through to, or divert articles from, a downstream conveyor. The vision based system may also be used to detect space between articles and insert articles in the unoccupied space.

A typing tunnel off-loading and sorting system includes an off-loading conveyor, cameras and photoelectric eye. The overhead cameras detect the item size and whether it is cubic in nature and type and size of its footprint. An in-line slide sorter having alternating conveyor rollers and pop-up belts pass through to, or divert articles from, a downstream conveyor. The vision based system may also be used to detect space between articles and insert articles in the unoccupied space.

A drop batch builder is provided for organizing a plurality of glass sheets into a desired batch arrangement on a conveyor. The drop batch builder includes an upper conveyor line and a lower conveyor line. The upper conveyor has a drop region configured to drop a first glass sheet from the upper conveyor line downwardly onto the lower conveyor line, whereupon the lower conveyor line is configured to convey the first glass sheet along the lower path of substrate travel to the overpass region where the first glass sheet is positioned under the upper conveyor line. Methods of using a drop batch builder are also provided.

A drop batch builder is provided for organizing a plurality of glass sheets into a desired batch arrangement on a conveyor. The drop batch builder includes an upper conveyor line and a lower conveyor line. The upper conveyor has a drop region configured to drop a first glass sheet from the upper conveyor line downwardly onto the lower conveyor line, whereupon the lower conveyor line is configured to convey the first glass sheet along the lower path of substrate travel to the overpass region where the first glass sheet is positioned under the upper conveyor line. Methods of using a drop batch builder are also provided.

An egg conveyor assembly is provided herein. The egg conveyor assembly includes a first conveyor extending in a first conveyor direction on a first height level, a second conveyor extending in a second conveyor direction perpendicular to the first height level. A transfer device adapted to transfer eggs from the first to the second conveyor includes an array of egg retainers. The egg retainers include pockets having a receiving opening at an upper end thereof to receive the eggs from above from the first conveyor, and are adapted to release the eggs at a lower end to drop the eggs in egg retainers of the second conveyor. The transfer device is movable in the first conveyor direction and in the second conveyor direction in a plane on a height level between the first height level and second height level.

An egg conveyor assembly is provided herein. The egg conveyor assembly includes a first conveyor extending in a first conveyor direction on a first height level, a second conveyor extending in a second conveyor direction perpendicular to the first height level. A transfer device adapted to transfer eggs from the first to the second conveyor includes an array of egg retainers. The egg retainers include pockets having a receiving opening at an upper end thereof to receive the eggs from above from the first conveyor, and are adapted to release the eggs at a lower end to drop the eggs in egg retainers of the second conveyor. The transfer device is movable in the first conveyor direction and in the second conveyor direction in a plane on a height level between the first height level and second height level.

A system for loading articles into a container is provided, comprising a platform unit and an elevator unit configured to adjust its elevation relative to the container and a platform unit comprising an opening facing the container and defining an edge of the platform unit, a transfer arrangement comprising a plurality of parallel independent transfer members defining a receiving surface and extending along a loading direction transverse to the edge and configured to move of the others, and a positioning arrangement to orient the article to a loading orientation on the receiving surface and position it at a predetermined loading position along an axis perpendicular to the loading direction. The transfer arrangement is configured to extend a subset of the transfer members in the loading direction through the opening, thereby facilitating placement of the article at a predetermined location within the container.