A system for packing items into cases includes a computer system for receiving information regarding items to be packed into a case, the computer system configured to determine a needed case size for loading based upon physical information regarding the items to be packed. A case handling machine includes multiple components that are position-adjustable according to case size to be held, formed and sealed, the case handling machine including a control system including a memory storing a plurality of machine set ups, wherein each machine set up includes data corresponding to positions for the multiple components. The computer system is configured to communicate needed case size information to the case handling machine, wherein the control system of the case handling machine is configured to implement component position adjustment based upon the needed case size information.

A part packing system includes a bag holding machine including a part funnel having an opening configured to receive an end of a part and having a bag end manipulator holding first and second bag end gripper mechanisms that receive an end of the bag therebetween to open the end of the bag to form a mouth at the end of the bag. The bag end manipulator moves the first and second bag end gripper mechanisms to position the mouth of the bag immediately downstream of the opening of the part funnel. A part loading machine including a part manipulator holding the part and moving the part to a loading position upstream of the part funnel and moving the part gripper mechanism to load an end of the part through the opening in the part funnel into the mouth of the bag to load the part into the bag.

A carton sizing system that has a frame, a controller, one or more cutters movably mounted to the frame and operatively connected to the controller, one or more markers movably mounted to the frame and operatively connected to the controller. The carton sizing system also has a measuring means that is operatively connected to the controller and configured to determine, in use, the footprint of an open top carton and to determine the height of one or more objects contained within the carton. The controller is configured to position the one or more cutters based on the determined footprint and to cut vertical edges of the carton based on the determined height and also to position the one or more markers based on the determined footprint and height and to score or crease vertical walls of the carton between the vertical edges to at least partially define foldable panels.

Heat shrink wrap product packaging oven or tunnel apparatus and processing methods are provided which incorporate or utilize a central divider mechanism. The central divider moves over a conveyor between a vertical, dual track position, and a retracted, single track position. The divider can additionally include a curved deflector that focuses and/or smooths air flow from the divider laterally across the dual track conveyance path.

The invention relates to a method for automatically creasing a folded box having inserted packaged goods, wherein the side walls of the folded box are creased by means of a creasing station which comprises a creasing tool having a rotatably mounted creasing roller for creasing a planar workpiece and a rotatably mounted counter-pressure roller which are retained at one end on a common support, wherein the distance between the two rollers can be varied, wherein the creasing tool is fastened to a movement system for three-dimensional displaceability, and wherein the following steps are carried out: a) providing the folded box, which is open at the top in the vertical direction and has inserted packaged goods; b) determining the dimensions of the folded box and the filling height of the packaged goods; c) creasing the side walls of the folded box, a first side wall being creased at a first creasing height associated with the filling height determined in step b). The counter-pressure roller is mounted parallel to the creasing roller; the counter-pressure roller and the creasing roller can be displaced relative to one another in order to set a distance from one another; and, during the creasing process, when the creasing tool reaches a vertical edge of the folded box, the roller located outside the folded box is pivoted through 90° about the roller located inside the folded box, the distance between the creasing roller and the counter-pressure roller being changed.

An application unit in a packaging machine attaches a material blank to containers in a container group so as to form a multipack. At least one pressing element connect the material blank to the containers while they are conveyed along a transport plane. A drive unit moves the pressing element with a tool plate between out-of-engagement and engagement positions with the containers. The drive unit has mutually parallel and spaced-apart first and second drive disks to be rotated about respective first and second axes of rotation. The first and second axes of rotation are horizontal and located at the same height but not coaxial with each other. The pressing element is articulated to the first drive disk by a first joint axis and to the second drive disk by a second joint axis such that the tool plate is oriented horizontal during rotation of the two drive disks.

A method includes separating a portion of a flattened tube of stock packing material to a custom length to form a pouch pre-form and closing a first end of the pouch pre-form leaving a second end of the pouch pre-form open. The method can include placing product into the pouch pre-form and closing the one open end of the pouch pre-form to form a closed pouch containing the product.

The present disclosure provides a system and method for smart auto-vending during a pandemic. The purpose is to increase efficiency in order fulfillment of prepacked and non-prepacked products in terms of speed, low cost, and sterilization. The system comprises: a box station; dispensers/dispensing subsystems; sterilization stations with different sterilization methods; a packaging station with different packaging methods; a shipping station for smart shipping with automatic self-driving vehicles or drones; a main conveyor and sub-conveyors that move an order through the system. In addition, there may be one dispensing subsystem for weighing, bagging, and sterilizing non-prepackaged grocery products. The system's AI function is also used to optimize items stored in each dispenser/dispensing subsystem. All of these components and methods come together to form an integrated, streamlined, and optimized system and method for carrying out online order fulfillment efficiently.

A rectangular blank has sides X and Y, where a and b are side dimensions, h is height, and r is width, or width reduced by height h, of the periphery region R of the finished packaging. The method includes: producing folding lines B in the blank parallel to side Y at these distances from the latter: B.sub.1: a.sub.1=h; B.sub.2: a.sub.2=h+a; B.sub.3: a.sub.3=2h+a; severing of two severing lines T, each starting from opposite sides X, along one of the folding lines B, or the extension thereof; selecting the distance between two end points E.sub.T of the severing lines T which are closer to an axis of symmetry S.sub.1 parallel to the side X, such that the distance corresponds to a side B″ of the finished packaging or length of a side M of a packaging insert.

Disclosed is a packing system for staggered placement of cylindrical cargoes with variable specifications, which belongs to the field of logistics and transportation. The system comprises a role layer, a presentation layer, an application layer and a data layer; the presentation layer comprises a browser; the application layer is used to generate a container model and a cargo model, and the cargo models are grouped and put into a packing model; the application layer comprises cargo ordering, cargo grouping, container entry detection, cargo insertion, in-container coordinate calculation, out-of-container coordinate calculation, graphic display, information display, cancellation, local storage and database storage; and the data layer comprises container data and cargo data.