Methods of making packages from flexible material, wherein the packages include one or more self-folds formed by applying activation energy to the flexible material.

Methods of making packages from flexible material, wherein the packages include one or more self-folds formed by applying activation energy to the flexible material.

As a support for an external patch, a laminated sheet having a laminate structure of two or three layers in which a secondary sheet made of hydrophobic fibers is laminated on one side or both sides of a main sheet made of hydrophilic fibers is used.

A first sheet panel is folded along a first fold line, and thereby a first folded part is formed in the first sheet panel. Subsequently, the first folded part is folded back along a second fold line, and thereby a folded-back part is formed in the first sheet panel. A corner cut device cuts a second sheet panel and the folded-back part to form corner cut parts. At this time, the corner cut device prevents the first folded part and a base part of the first sheet panel from being cut.

In methods of making disposable, flexible containers for fluent products, methods of sealing the flexible containers when such containers include expansion materials, are disclosed. The methods include forming a partially completed container blank that has layers of flexible materials. The layered structure includes a first space for a fluent product, and a second space for an expansion material. The methods of sealing the flexible containers include adding an expansion material into the second space and pressing parts of at least some of the layers together to close off the second space.

In methods of making disposable, flexible containers for fluent products, methods of sealing the flexible containers when such containers include expansion materials, are disclosed. The methods include forming a partially completed container blank that has layers of flexible materials. The layered structure includes a first space for a fluent product, and a second space for an expansion material. The methods of sealing the flexible containers include adding an expansion material into the second space and pressing parts of at least some of the layers together to close off the second space.

Methods of opening and adding expansion materials to containers made from flexible materials. The methods involve forming a partially completed container blank that may have four layers of flexible materials. The partially completed container blank may be opened by separating a portion of the first layer from a portion of the second layer by bending portions of the second, third, and fourth layers toward a first direction; and dosing the partially completed container blank, by adding an expansion material out of a dispenser and into a space disposed between a portion of the first layer and a portion of the second layer.

Methods of opening and adding expansion materials to containers made from flexible materials. The methods involve forming a partially completed container blank that may have four layers of flexible materials. The partially completed container blank may be opened by separating a portion of the first layer from a portion of the second layer by bending portions of the second, third, and fourth layers toward a first direction; and dosing the partially completed container blank, by adding an expansion material out of a dispenser and into a space disposed between a portion of the first layer and a portion of the second layer.

A bag-making and packaging machine has a film supply unit that supplies film to a bag-making and packaging unit. The film supply unit has a film conveyance mechanism that conveys a first film so that a trailing end portion of the first film heads toward a film splicing position for splicing to a leading end portion of a second film, a first sensor detecting a mark on the first film, a second sensor detecting the mark at downstream, and a controller for the film conveyance mechanism. The controller judges, based on detection of the second sensor, that the trailing end portion of the first film has reached the splicing position and stops conveyance of the first film. The controller controls the conveyance mechanism so that the conveyance speed of the first film before the detection of the mark by the first sensor is faster than the speed after the detection.

A bag-making and packaging machine has a film supply unit that supplies film to a bag-making and packaging unit. The film supply unit has a film conveyance mechanism that conveys a first film so that a trailing end portion of the first film heads toward a film splicing position for splicing to a leading end portion of a second film, a first sensor detecting a mark on the first film, a second sensor detecting the mark at downstream, and a controller for the film conveyance mechanism. The controller judges, based on detection of the second sensor, that the trailing end portion of the first film has reached the splicing position and stops conveyance of the first film. The controller controls the conveyance mechanism so that the conveyance speed of the first film before the detection of the mark by the first sensor is faster than the speed after the detection.