The invention relates to an article container (2) for an overhead conveying device for transporting an article (4), with a bag body that can be adjusted between a transport position and a loading and/or unloading position, which bag body comprises a front wall (30) and a rear wall (31) made from a flexible material, a loading and/or unloading opening (34) formed on a first side of the bag body at least in regions between the front and rear wall, a side wall stop (46) formed on a second side of the bag body at least in some regions between the front wall and a rear wall, against which side wall stop (46) the article can be placed. The front wall forms a first front wall section (35a) and a second front wall section (35b) and comprises a base plate (36) in the first front wall section (35a). The rear wall comprises a first rear wall section (45a) and a second rear wall section (45b). The first rear wall section forms a transport rest (75) sloping in the direction of the side wall stop (46) when the bag body is in the transport position. Moreover, the invention relates to an unloading station (104) for automatic unloading of an article container.

The invention relates to an article container (2) for an overhead conveying device for transporting an article (4), with a bag body that can be adjusted between a transport position and a loading and/or unloading position, which bag body comprises a front wall (30) and a rear wall (31) made from a flexible material, a loading and/or unloading opening (34) formed on a first side of the bag body at least in regions between the front and rear wall, a side wall stop (46) formed on a second side of the bag body at least in some regions between the front wall and a rear wall, against which side wall stop (46) the article can be placed. The front wall forms a first front wall section (35a) and a second front wall section (35b) and comprises a base plate (36) in the first front wall section (35a). The rear wall comprises a first rear wall section (45a) and a second rear wall section (45b). The first rear wall section forms a transport rest (75) sloping in the direction of the side wall stop (46) when the bag body is in the transport position. Moreover, the invention relates to an unloading station (104) for automatic unloading of an article container.

An apparatus and method for manufacturing glass containers handles the containers individually after a hot forming process and annealing to prevent glass-to-glass contact. By handling the containers individually and preventing glass-to-glass contact damage to the containers in the form of checks and scratches is avoided. To prevent contact of the containers and damage arising from the contact, the equipment including conveyors, pushers, starwheels, shuttles, and transfer heads that move the glass containers through the apparatus maintains the glass containers in uniform spaced relationship at each stage of container processing until the containers are packaged.

An automatically operating unloading system for unloading an at least partially assembled vehicle from an assembly-line overhead conveyor vehicle carrier is provided. The vehicle carrier includes four hanger arms for supporting the vehicle from underneath, and ends of the hanger arms are pivotally articulated about a perpendicular axis in a lockable manner. The automatically operating unloading system includes at least one rail at a side of a flat conveying system and a front hanger arm manipulator and a rear hanger arm manipulator movably arrangeable on the at least one rail. Each of the front and rear hanger arm manipulators are equipped with at least one controllable actuator. The automatically operating unloading system further includes a controllable drive unit for moving the manipulators along the rails and an electronic control unit configured to control the actuators of the front and rear hanger arm manipulators.

An automatically operating unloading system for unloading an at least partially assembled vehicle from an assembly-line overhead conveyor vehicle carrier is provided. The vehicle carrier includes four hanger arms for supporting the vehicle from underneath, and ends of the hanger arms are pivotally articulated about a perpendicular axis in a lockable manner. The automatically operating unloading system includes at least one rail at a side of a flat conveying system and a front hanger arm manipulator and a rear hanger arm manipulator movably arrangeable on the at least one rail. Each of the front and rear hanger arm manipulators are equipped with at least one controllable actuator. The automatically operating unloading system further includes a controllable drive unit for moving the manipulators along the rails and an electronic control unit configured to control the actuators of the front and rear hanger arm manipulators.

A mobile robot is provided for use in an operating environment. The mobile robot may include a mobile robot base, a conveyor system and a drive system. The conveyor system may be supported by the mobile robot base. The conveyor system may include a conveyor belt configured to receive an item with the mobile robot and/or provide the item from the mobile robot. The conveyor system may be configured to support the item during movement of the mobile robot within the operating environment. The drive system may be arranged with the mobile robot base. The drive system may be configured to move the mobile robot within the operating environment and position the conveyor system such that the conveyor belt is operable to receive the item with the mobile robot and/or provide the item from the mobile robot.

A mobile robot is provided for use in an operating environment. The mobile robot may include a mobile robot base, a conveyor system and a drive system. The conveyor system may be supported by the mobile robot base. The conveyor system may include a conveyor belt configured to receive an item with the mobile robot and/or provide the item from the mobile robot. The conveyor system may be configured to support the item during movement of the mobile robot within the operating environment. The drive system may be arranged with the mobile robot base. The drive system may be configured to move the mobile robot within the operating environment and position the conveyor system such that the conveyor belt is operable to receive the item with the mobile robot and/or provide the item from the mobile robot.

A loading station for a pocket conveyor having two conveying lines. The loading station has a receiving section for receiving pockets for each conveying line; a receiving section for objects, with which the pockets are to be loaded; and a device for each conveying line, into each of which an empty pocket to be filled can be introduced. In addition, the loading station has a moving unit for moving the devices from a receiving section for objects to one of the receiving sections for receiving pockets, and back again. The loading station is also designed to alternately load the pockets of the first conveying line and the pockets of the second conveying line.

A loading station for a pocket conveyor having two conveying lines. The loading station has a receiving section for receiving pockets for each conveying line; a receiving section for objects, with which the pockets are to be loaded; and a device for each conveying line, into each of which an empty pocket to be filled can be introduced. In addition, the loading station has a moving unit for moving the devices from a receiving section for objects to one of the receiving sections for receiving pockets, and back again. The loading station is also designed to alternately load the pockets of the first conveying line and the pockets of the second conveying line.

The invention relates to an order-picking method for picking at least one ordered good (26a) into or onto a target loading aid (30), in which goods (21a . . . 21e) which are stored in a first storage zone (8) with the help of first loading aids (27a . . . 27c) are reloaded, on the basis of a transfer request, from a first loading aid (27a . . . 27c) into or onto at least one second loading aid (29a . . . 29c) and in-fed in a second storage zone (16). When a picking order is obtained, (an) ordered good(s) (26a) is/are out-fed from the second storage zone (16) and loaded into or onto the target loading aid (30). During an execution of the transfer request, the first loading aid (27a . . . 27c) is fully or partially unloaded, depending on whether a parameter which is allocated to a type of good reaches a threshold value. Further, a storage and order-picking system (1) for carrying out said method is specified.