A method for emptying the pockets of a transport device in the form of a suspension conveyor, the transport device including one or more trolleys which are movably mounted on a trolley track and on each of which a pocket hanging downwards for receiving goods is arranged, the pocket formed by at least one flexible material web that is planar when open and that is fastened at both ends to the trolley, forming a loop hanging downwards. The material web is releasably fastened by at least one end to the trolley. The method includes: advancing a closed pocket, opening the pocket by releasing the fastening of the at least one end of the material web to the trolley, emptying the goods from the opened pocket, closing the pocket by fastening the at least one end of the material web to the trolley, and transporting away the emptied and closed pocket.

A method for emptying the pockets of a transport device in the form of a suspension conveyor, the transport device including one or more trolleys which are movably mounted on a trolley track and on each of which a pocket hanging downwards for receiving goods is arranged, the pocket formed by at least one flexible material web that is planar when open and that is fastened at both ends to the trolley, forming a loop hanging downwards. The material web is releasably fastened by at least one end to the trolley. The method includes: advancing a closed pocket, opening the pocket by releasing the fastening of the at least one end of the material web to the trolley, emptying the goods from the opened pocket, closing the pocket by fastening the at least one end of the material web to the trolley, and transporting away the emptied and closed pocket.

The present invention provides a medicine checking assembly line. The present invention solves a problem of low automation degree of the existing medicine checking assembly line. The medicine checking assembly line includes a conveying device, a turnover device, a separation device, a medicine bottle recycling device, a medicine bag stacking device and a medicine basket stacking device, which are connected sequentially. The conveying device is used for transferring medicine baskets between medicine dissolving personnel and medicine checking personnel; the turnover device is used for turning over the medicine baskets; the separation device is used for separating the medicine baskets, medicine bottles and medicine bags; the medicine bottle recycling device is used for recycling the used medicine bottles; the medicine bag stacking device is used for stacking and collecting the medicine bags; and the medicine basket stacking device is used for stacking and recycling the medicine baskets.

The present invention provides a medicine checking assembly line. The present invention solves a problem of low automation degree of the existing medicine checking assembly line. The medicine checking assembly line includes a conveying device, a turnover device, a separation device, a medicine bottle recycling device, a medicine bag stacking device and a medicine basket stacking device, which are connected sequentially. The conveying device is used for transferring medicine baskets between medicine dissolving personnel and medicine checking personnel; the turnover device is used for turning over the medicine baskets; the separation device is used for separating the medicine baskets, medicine bottles and medicine bags; the medicine bottle recycling device is used for recycling the used medicine bottles; the medicine bag stacking device is used for stacking and collecting the medicine bags; and the medicine basket stacking device is used for stacking and recycling the medicine baskets.

A transport container for a sorting device includes a support frame, a flap pivotally arranged on the frame, and an adjusting device which is coupled to the flap, to move the flap between a transport position for transporting an object and a dropping position for dropping the object. The adjusting device has a lever coupled to the flap. In order to be able to open and close the transport container reliably and to prevent the opened flap from swinging afterward, as well as to ensure as synchronous a movement of the flaps as possible in the case of several flaps, a cam plate rotatably mounted on the frame and having at least one guide surface is provided, on which the lever is guided during movement of the flap from the transport position into the dropping position and/or during an entire return movement from the dropping position into the transport position.

A transport container for a sorting device includes a support frame, a flap pivotally arranged on the frame, and an adjusting device which is coupled to the flap, to move the flap between a transport position for transporting an object and a dropping position for dropping the object. The adjusting device has a lever coupled to the flap. In order to be able to open and close the transport container reliably and to prevent the opened flap from swinging afterward, as well as to ensure as synchronous a movement of the flaps as possible in the case of several flaps, a cam plate rotatably mounted on the frame and having at least one guide surface is provided, on which the lever is guided during movement of the flap from the transport position into the dropping position and/or during an entire return movement from the dropping position into the transport position.

A storage and order-picking system including a warehouse, wherein the warehouse includes a storage module formed by two racks including one rack aisle therebetween; separation stations associated with the storage module, each separation station having associated therewith a respective pick up location; separate conveying systems for feeding storage containers from the warehouse to the pick up locations of the separation stations, respectively; and a robot arranged between the separate conveyors such that the robot can pick up during one movement cycle from each of the separate conveying systems respectively one article and can deliver between the corresponding article pick up locations one article which has already been picked up to a deposition location.

A storage and order-picking system including a warehouse, wherein the warehouse includes a storage module formed by two racks including one rack aisle therebetween; separation stations associated with the storage module, each separation station having associated therewith a respective pick up location; separate conveying systems for feeding storage containers from the warehouse to the pick up locations of the separation stations, respectively; and a robot arranged between the separate conveyors such that the robot can pick up during one movement cycle from each of the separate conveying systems respectively one article and can deliver between the corresponding article pick up locations one article which has already been picked up to a deposition location.

A sorting system having a buffer interposable between a discharge, such as a chute, supplying packages and multiple destination receptacles, such as wheeled bins. The buffer temporarily accumulates packages to ensure correct package delivery to assigned destination receptacles during overflow conditions. The buffer may be realized in various ways that operate in horizontal, vertical, or inclined planes.

An insertion system (e.g., in a warehouse or other item-fulfillment environment) can include a chassis. A bottom conveying surface, a first side conveying surface, and a second side conveying surface may be fastened to the chassis respectively along the chassis's bottom face, first lateral face, and second lateral face. A chamber may be bounded by the conveying surfaces and by a rear wall defined at least in part by the front face of the chassis. A linear actuator coupled with the chassis may move the chassis from a home position and toward an extended position to advance the bottom conveying surface, the first side conveying surface, and the second side conveying surface along with the rear wall of the chamber to decrease a size of the chamber and advance contents of the chamber in a depth direction toward a receiving zone.