Systems and methods for folding and retaining upper flaps of a box are disclosed. The system includes a conveyor system configured to advance the box at least partially through the system. A flap folding assembly is configured to fold the upper flaps of the box to an open or outwardly folded configuration. The upper flaps are folded outwardly and down towards outer sidewall surfaces of the box in the folded configuration. A bander assembly is configured to apply a band or other restraint to the upper flaps of the box to retain the upper flaps in the folded configuration.

A machine to work a box-like element or similar includes a cutting unit to cut a strip-like element on a corresponding lying plane in a first substantially plane configuration; a loading unit with a thrust blade translatable in a first direction; a folding and insertion unit having a housing seating of the strip-like element that is directed substantially orthogonally to said lying plane, so that after translation of the thrust blade in said first direction the strip-like element is introduced into said housing seating, assumes a “U” shape and has flaps and a connection part; said folding and insertion unit being translatable in a second direction to at least partly insert said flaps in a slit in the box-like element; and an attachment unit of part of said flaps inside said box-like element on which the slit is made, so that the connection part protrudes from the box-like element.

A packing case blank including an opening device comprising a paper tear strip attached to the blank by a layer of adhesive.

A machine to work a box-like element or similar includes a cutting unit to cut a strip-like element on a corresponding lying plane in a first substantially plane configuration; a loading unit with a thrust blade translatable in a first direction; a folding and insertion unit having a housing seating of the strip-like element that is directed substantially orthogonally to said lying plane, so that after translation of the thrust blade in said first direction the strip-like element is introduced into said housing seating, assumes a “U” shape and has flaps and a connection part; said folding and insertion unit being translatable in a second direction to at least partly insert said flaps in a slit in the box-like element; and an attachment unit of part of said flaps inside said box-like element on which the slit is made, so that the connection part protrudes from the box-like element.

Systems and methods for folding and retaining upper flaps of a box are disclosed. The system includes a conveyor system configured to advance the box at least partially through the system. A flap folding assembly is configured to fold the upper flaps of the box to an open or outwardly folded configuration. The upper flaps are folded outwardly and down towards outer sidewall surfaces of the box in the folded configuration. A bander assembly is configured to apply a band or other restraint to the upper flaps of the box to retain the upper flaps in the folded configuration.

Systems and methods for folding and retaining upper flaps of a box are disclosed. The system includes a conveyor system configured to advance the box at least partially through the system. A flap folding assembly is configured to fold the upper flaps of the box to an open or outwardly folded configuration. The upper flaps are folded outwardly and down towards outer sidewall surfaces of the box in the folded configuration. A bander assembly is configured to apply a band or other restraint to the upper flaps of the box to retain the upper flaps in the folded configuration.

The object of the disclosure is a method and an apparatus for forming a package box. In the first phase of the method, a box blank is placed at the start of the box-forming process and is brought to the conveying motion. In the next phase, the markings of the package boxes are formed. In the third phase, the box blank is folded around an inner support and its ends are fastened together into one tubular blank component. In the fourth phase, a base panel is affixed to the box frames. In a fifth phase, the package boxes are transferred for further processing according to the order. The different phases of the method also comprise at least the following actions to be taken on the basis of online data coming from the picking system: In the first phase, a box blank is selected, which forms a box frame for one or more package boxes, the width of which box frame corresponds most suitably to the online data; or a box blank is cut to the correct width according to online data. In the next phase, the necessary fold lines are formed in the box blank on the basis of online data and the necessary markings are made on each box frame to be formed from a box blank. In the third phase, the box blank is cut by means of the cutting device on the basis of online data into box frames of the height of the package boxes to be formed.

The object of the disclosure is a method and an apparatus for mechanically forming a product package box. According to the disclosure, a product package box is formed with a box-forming apparatus from a tubular sleeve folded flat, which sleeve is mechanically opened into the correct shape of the product package box and to which is affixed an essentially integral base panel. On the basis of online data coming from a picking system, for each product package box, a sleeve is selected from a sleeve bundle, the height of which sleeve corresponds most suitably to the online data, or a sleeve of suitable height is cut from a sleeve blank.