A shipping package and method of making a shipping package having a flexible inner sheet having a first surface and a second surface. The method includes providing one or more sheets of flexible material, joining the sheet(s) to form an article reservoir for accepting an article to be shipped, one or more expansion chambers, and an article retrieval feature. The expansion chambers can be inflated or otherwise expanded to provide structure to the package and to protect the article in the article reservoir.

A shipping package and method of making a shipping package having a flexible inner sheet having a first surface and a second surface. The method includes providing one or more sheets of flexible material, joining the sheet(s) to form an article reservoir for accepting an article to be shipped, one or more expansion chambers, and an article retrieval feature. The expansion chambers can be inflated or otherwise expanded to provide structure to the package and to protect the article in the article reservoir.

An automated packaging station is capable of being used to package objects. The automated packaging station includes a supply of web material, a surface (202), an aperture (206) therein, and a closing system. The automated packaging station is configured to form the web material into a pouch. The aperture (206) is configured such that an object can be inserted therethrough. The automated packaging station is configured to bias open the pouch beneath the surface such that the object inserted through the aperture falls into the pouch. The closing system is configured to close the pouch to form a package around the object in response to the object being inserted through the aperture. The object is capable of being shipped to a recipient in the package.

An automated packaging station is capable of being used to package objects. The automated packaging station includes a supply of web material, a surface (202), an aperture (206) therein, and a closing system. The automated packaging station is configured to form the web material into a pouch. The aperture (206) is configured such that an object can be inserted therethrough. The automated packaging station is configured to bias open the pouch beneath the surface such that the object inserted through the aperture falls into the pouch. The closing system is configured to close the pouch to form a package around the object in response to the object being inserted through the aperture. The object is capable of being shipped to a recipient in the package.

A system includes a forming funnel, a cutting element, and a fusing device. The forming funnel has divergent surfaces arranged to receive a mailer in an insertion direction between the divergent surfaces. The forming funnel includes a slot that constrains the mailer after the mailer is inserted between the divergent surfaces. The cutting element cuts off a portion of the mailer and to forms a cut end of the mailer as the mailer is moved through the slot in a sliding direction. The fusing device applies pressure to an exterior of the cut end of the mailer and applies heat to the cut end of the mailer as the mailer is moved through the slot. The pressure and the heat applied by the fusing device cause portions of the cut end to fuse together to close the mailer.

A gas filling method includes the steps of: intermittently transferring a bag to arrange the bag at a gas blowing processing position; inserting a blowing nozzle into a gas guide path of the bag in the gas blowing processing position; pinching the blowing nozzle arranged in the gas guide path from outside of the bag with a pair of pinching members in the gas blowing processing position; causing the blowing nozzle to eject the gas in such a manner that the gas is sent to the gas accommodation portion in the gas blowing processing position in a state where the blowing nozzle is pinched via the bag by the pair of pinching members; and closing the gas accommodation portion in an airtight manner in the gas blowing processing position in a state where the blowing nozzle is arranged in the gas guide path.

Systems, methods, and computer-readable media are disclosed for defect prevention for flexible container sealing systems. In one embodiment, an example flexible container sealing system may include a first camera configured to image an item disposed in a flexible container, a laser system configured to detect presence of items, a cutting assembly configured to cut a material that forms the flexible container, a sealing assembly configured to seal one or more ends of the flexible container, and a computer system configured to determine, using the first camera, a height of the item disposed in the flexible container.

An improved expandable slit-sheet stock material is configured to aid in temporarily restricting opening of a plurality of slits of the slit-sheet stock material, such as during winding of the unexpanded stock material or during expansion of the stock material. Each slit of the plurality of slits includes one or more un-slit reinforcement portions, such as reinforcement ties, extending fully between opposite longitudinal sides of the slit, and disposed between opposed transverse endpoints of the slit. The reinforcement ties minimize or prevent tearing of the stock material during the winding or expansion. A dunnage conversion system for expanding the slit-sheet stock material includes an expander having a pair of opposed rollers. The rollers engage the stock material to effect breaking of the un-slit reinforcement portions and expansion of the slit-sheet stock material.

The invention relates to a device for cushioning at least one object (12a-c) in a container (10a-c), comprising a cushioning material provisioning system (19) for the provision of cushioning material (28a-c) and a request means (25) which is coupled to the cushioning material provisioning system (19) and which outputs a signal to the cushioning material provisioning system (19) in order to request cushioning material (28a-c), the request means (25) allowing acoustic signals, in particular voice signals, to be converted.

The invention relates to a device for cushioning at least one object (12a-c) in a container (10a-c), comprising a cushioning material provisioning system (19) for the provision of cushioning material (28a-c) and a request means (25) which is coupled to the cushioning material provisioning system (19) and which outputs a signal to the cushioning material provisioning system (19) in order to request cushioning material (28a-c), the request means (25) allowing acoustic signals, in particular voice signals, to be converted.