A method for manufacturing a secondary battery having a film package by covering upper and lower sides of a laminate structure constituting a battery with a pair of film materials respectively and bonding the film materials together sequentially in a process direction from one end of the film materials to the other, the method including overlapping the film materials such that the laminate structure is sandwiched therebetween, and sealing one end of the overlapping part of the films, the one end being located at an upstream of the process direction, and bonding the overlapped film materials together at one or each of side portions thereof extending along the process direction sequentially in the process direction, while pressing a middle portion of the overlapped film materials sequentially in the process direction to thereby degas an internal space between the film materials, the middle portion being located between the side portions.

A method for manufacturing a secondary battery having a film package by covering upper and lower sides of a laminate structure constituting a battery with a pair of film materials respectively and bonding the film materials together sequentially in a process direction from one end of the film materials to the other, the method including overlapping the film materials such that the laminate structure is sandwiched therebetween, and sealing one end of the overlapping part of the films, the one end being located at an upstream of the process direction, and bonding the overlapped film materials together at one or each of side portions thereof extending along the process direction sequentially in the process direction, while pressing a middle portion of the overlapped film materials sequentially in the process direction to thereby degas an internal space between the film materials, the middle portion being located between the side portions.

Recyclable pouches formed from rollstock and having a resealable closure that extends into both side edges of the pouch may be produced at high speeds on a single manufacturing line in which the pouches are formed, cut apart, filled, and then sealed if the film forming the pouch comprises a recyclable heat seal layer and a second recyclable layer having a melting temperature of at least 30° C. greater than the heat seal layer.

Recyclable pouches formed from rollstock and having a resealable closure that extends into both side edges of the pouch may be produced at high speeds on a single manufacturing line in which the pouches are formed, cut apart, filled, and then sealed if the film forming the pouch comprises a recyclable heat seal layer and a second recyclable layer having a melting temperature of at least 30° C. greater than the heat seal layer.

An automatic packaging machine for enclosing packages in a pliable film includes a conveyor for moving a package through the packaging machine, an end seal bar configured to cut and/or seal a pliable film transversely to a longitudinal axis of the pliable film, and first and second side sealers disposed on opposite sides of the conveyor and configured to cut the pliable film along the longitudinal axis of the pliable film. The side sealers are automatically moved in a vertical direction to align the side sealers with a centerline of the package. The side sealers are also automatically moved in a horizontal direction to approximate a known width of the package.

An automatic packaging machine for enclosing packages in a pliable film includes a conveyor for moving a package through the packaging machine, an end seal bar configured to cut and/or seal a pliable film transversely to a longitudinal axis of the pliable film, and first and second side sealers disposed on opposite sides of the conveyor and configured to cut the pliable film along the longitudinal axis of the pliable film. The side sealers are automatically moved in a vertical direction to align the side sealers with a centerline of the package. The side sealers are also automatically moved in a horizontal direction to approximate a known width of the package.

The present invention relates to an automatic package device, which may include a rack and a power control box provided on the rack. The cutter blade transportation device is provided on the rack along the X axis direction. Below the cutter blade transportation device and inside the rack, lower film feeding device is provided. At the rear side of the rack, the upper film feeding device is provided. At the front end of the cutter blade transportation device and on the rack are provided a blade feeding rail and cutter blade carrying device cooperating with each other. At the rear end of the cutter blade transportation device is provided a film sealing device which cooperates with the upper film feeding device and lower film feeding device. At the rear end of the film sealing device and on the rack is provided a dragging device fitting the blade strip. At the back side of the dragging device is provided a transverse cutting device fitting the blade strip. The present invention may achieve automatic feeding by the cutter blade carrying device. The dragging device may extend the upper and lower film material back and forth repeatedly. And the hot-pressing process may be accomplished by the film sealing device. The present invention may automatically seal the blades and the cutting device may separate the product one by one. At last the packaging process may be accomplished with high degree of automation and greatly improve production efficiency.

The present invention relates to an automatic package device, which may include a rack and a power control box provided on the rack. The cutter blade transportation device is provided on the rack along the X axis direction. Below the cutter blade transportation device and inside the rack, lower film feeding device is provided. At the rear side of the rack, the upper film feeding device is provided. At the front end of the cutter blade transportation device and on the rack are provided a blade feeding rail and cutter blade carrying device cooperating with each other. At the rear end of the cutter blade transportation device is provided a film sealing device which cooperates with the upper film feeding device and lower film feeding device. At the rear end of the film sealing device and on the rack is provided a dragging device fitting the blade strip. At the back side of the dragging device is provided a transverse cutting device fitting the blade strip. The present invention may achieve automatic feeding by the cutter blade carrying device. The dragging device may extend the upper and lower film material back and forth repeatedly. And the hot-pressing process may be accomplished by the film sealing device. The present invention may automatically seal the blades and the cutting device may separate the product one by one. At last the packaging process may be accomplished with high degree of automation and greatly improve production efficiency.

A method for printing a web of packaging material for packages holding liquid food products is provided. The method comprises receiving a web of packaging material, identifying a first register mark using a first sensor, determining a first register mark position based on the first register mark, determining a second register mark position area based on the first register mark position, identifying a second register mark within the second register mark position area using a second sensor and determining a second register mark position for the second register mark, determining a second area position of the second area based on the second register mark position, adjusting the web in relation to printer bars in accordance with the second area position, determining a second area position of the second area based on the second register mark position, and printing the second area by using the printer bars.

Provided herein is a furniture wrapping system. The furniture wrapping system includes a film roll support configured to unroll a first film across a path of the furniture article in a first direction, such that the film roll support positions a film barrier across the path. The furniture wrapping system includes a conveyor mechanism configured to carry the furniture article along the path and into the barrier. The furniture wrapping system includes a sealer configured to extend across the path to form a seal such that the furniture article is partially enclosed in the first film.