A machine for forming a container from a blank of sheet material includes an outer body frame, a mandrel mounted to the body frame, a lifting assembly coupled to the body frame, and a lateral presser assembly and a folding arm assembly coupled to the lifting assembly, wherein the lifting assembly moves the lateral presser assembly and the folding arm assembly in a first direction and an opposite, second direction. A folding arm servomechanism is operatively connected to a folding arm of the folding arm assembly and rotates the folding arm relative to the mandrel to wrap a first portion of the blank around the mandrel. A lateral presser servomechanism is operatively connected to an engaging bar of the lateral presser assembly and rotates the engaging bar relative to the mandrel to wrap a second portion of the blank around the mandrel to at least partially form the container.

A machine for forming a container from a blank of sheet material includes an outer body frame, a mandrel mounted to the body frame, a lifting assembly coupled to the body frame, and a lateral presser assembly and a folding arm assembly coupled to the lifting assembly, wherein the lifting assembly moves the lateral presser assembly and the folding arm assembly in a first direction and an opposite, second direction. A folding arm servomechanism is operatively connected to a folding arm of the folding arm assembly and rotates the folding arm relative to the mandrel to wrap a first portion of the blank around the mandrel. A lateral presser servomechanism is operatively connected to an engaging bar of the lateral presser assembly and rotates the engaging bar relative to the mandrel to wrap a second portion of the blank around the mandrel to at least partially form the container.

A method for forming a container from a blank assembly including a tray blank and lid blank includes folding a first portion of the blank assembly about at least a first face of a first mandrel to form a partially formed container, and transferring the partially formed container towards a second mandrel using a transfer assembly that extends through the first face of the first mandrel. The method also includes transferring the partially formed container from the first mandrel to the second mandrel along a pair of guide rails extending between the first mandrel and the second mandrel, wrapping a second portion of the blank assembly about at least a first face of the second mandrel to form the container, wherein the first face of the second mandrel opposes the first face of the first mandrel with respect to a vertical direction, and ejecting the container from the second mandrel.

A method and apparatus are shown for securing a top for a cardboard carton where the carton has a bottom wall and integral sidewalls, an initially open interior and initially open top flaps with outwardly extending ears. The top flaps are folded to a carton closing position which closes off the initially open interior of the cardboard carton. The ears are also folded to a position in contact with the sidewalls of the carton. A set of punches are aligned with the folded ears of the carton and are actuated to force a first layer of cardboard from a respective top flap through an underlying region of the carton sidewall. A set of platens are located so as to underlie and reinforce the sidewalls of the carton as the punching operation takes place.

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.

Bags having reinforcement tabs are disclosed along with methods of their manufacture.

Bags having reinforcement tabs are disclosed along with methods of their manufacture.

A recyclable, thermally insulated shipping container is entirely constructed from organic fiber materials in such a manner that the container is curbside recyclable without separation of component materials. The container includes a corrugated cardboard outer box having a bottom wall, a plurality of sidewalls and a top wall, a corrugated cardboard inner liner assembly comprising a corrugated cardboard inner box having a bottom wall and a plurality of sidewalls, and a corrugated cardboard lid assembly. The outer box, inner liner assembly and lid assembly cooperate to create a plurality of thermally insulated cavities which are sequentially filled and uniformly packed with pre-portioned, predetermined volumes of loose-fill cellulose (organic fiber) insulation to create a consistent insulating value throughout the container.

A recyclable, thermally insulated shipping container is entirely constructed from organic fiber materials in such a manner that the container is curbside recyclable without separation of component materials. The container includes a corrugated cardboard outer box having a bottom wall, a plurality of sidewalls and a top wall, a corrugated cardboard inner liner assembly comprising a corrugated cardboard inner box having a bottom wall and a plurality of sidewalls, and a corrugated cardboard lid assembly. The outer box, inner liner assembly and lid assembly cooperate to create a plurality of thermally insulated cavities which are sequentially filled and uniformly packed with pre-portioned, predetermined volumes of loose-fill cellulose (organic fiber) insulation to create a consistent insulating value throughout the container.