The present disclosure relates generally to tension-activated, expanding articles, films, and sheets including a multi-slit pattern. In some embodiments, these articles, films, and/or sheets are used as cushioning films and/or packaging materials. The present disclosure also relates to methods of making and using these tension-activated, expanding articles, films, and sheets.

The present disclosure relates generally to tension-activated, expanding articles, films, and sheets including a multi-slit pattern. In some embodiments, these articles, films, and/or sheets are used as cushioning films and/or packaging materials. The present disclosure also relates to methods of making and using these tension-activated, expanding articles, films, and sheets.

RFID-integrated packages are disclosed combining a container, an article positioned within the container, and a packing material positioned within the container between at least a portion of the article and an inner surface of the container. The packing material is manufactured by at least partially associating it with an RFID device. The packing material may be formed of a recyclable material, such as paper. The packing material together with the RFID device is processed to provide it with an impact-absorbing configuration. Processing methods may include folding, crushing, and cutting or slitting, with the RFID device continuing to perform well after it and the packing material have been processed into the impact-absorbing configuration for use within the container. The entire RFID device may be associated to the packing material or only a portion or component of RFID device may be associated to the packing material, with another portion or component associated to the container or article.

RFID-integrated packages are disclosed combining a container, an article positioned within the container, and a packing material positioned within the container between at least a portion of the article and an inner surface of the container. The packing material is manufactured by at least partially associating it with an RFID device. The packing material may be formed of a recyclable material, such as paper. The packing material together with the RFID device is processed to provide it with an impact-absorbing configuration. Processing methods may include folding, crushing, and cutting or slitting, with the RFID device continuing to perform well after it and the packing material have been processed into the impact-absorbing configuration for use within the container. The entire RFID device may be associated to the packing material or only a portion or component of RFID device may be associated to the packing material, with another portion or component associated to the container or article.

In the preferred embodiments, the present invention provides substantially improved slit sheet cushioning products by advantageously combining novel paper properties with novel slit patterns for improved features and characteristics. In some illustrative and non-limiting example embodiments, cushioning products of the present invention can include, e.g., a novel slit sheet material in combination with extensible paper employed as, e.g., a cushioning pad or as cushioning within an envelope product, wherein the cushioning product can be substantially more resilient, but, yet, e.g., thinner for better utilization of space.

A package includes a main body and an impact buffer rib. The main body is configured to form a storage space to accommodate a packaged object. The impact buffer rib is disposed on a side of the main body and outside the storage space. The impact buffer rib includes root portions and a central portion. The root portions are both end portions of the impact buffer rib, couple to the main body, and have a first height. The central portion is between the root portions and has a second height larger than the first height.

In some embodiments, a package for a computer peripheral device comprises an outer shell defining a first interior cavity and an open end. The package also comprises a peripheral tray comprising a rear side, a bottom side coupled to a bottom edge of the rear side, and a tongue. A first end of the tongue is coupled to the bottom side. The peripheral tray is positioned within the first interior cavity with a second end of the tongue coupled to the outer shell. An elongated portion of the tongue between the first end and the second end contacts the outer shell and is deflected toward the rear side. The peripheral tray is slidably translatable out of the first interior cavity through the open end so that a portion of the elongated portion moves away from the rear side and the bottom side rotates within the first interior cavity.

In some embodiments, a package for a computer peripheral device comprises an outer shell defining a first interior cavity and an open end. The package also comprises a peripheral tray comprising a rear side, a bottom side coupled to a bottom edge of the rear side, and a tongue. A first end of the tongue is coupled to the bottom side. The peripheral tray is positioned within the first interior cavity with a second end of the tongue coupled to the outer shell. An elongated portion of the tongue between the first end and the second end contacts the outer shell and is deflected toward the rear side. The peripheral tray is slidably translatable out of the first interior cavity through the open end so that a portion of the elongated portion moves away from the rear side and the bottom side rotates within the first interior cavity.

The present disclosure is directed to an inflatable-cushion inflation and sealing device. The device includes an inflation assembly configured for insertion between first and second overlapping film plies. The inflation assembly includes a fluid conduit configured to direct a fluid in between the plies to form one or more cushions. The fluid conduit includes a nozzle. The inflation assembly includes a cutting member. The cutting member includes a blade holder with a blade and a blade guard mounted thereon. The blade guard has a safety position in which the blade is covered and a retracted position in which the blade is exposed. Installation of the blade holder onto the inflation assembly automatically positions the blade in the working position with the blade guard retracted. Removing the tray from the inflation assembly automatically positions the blade in the safety position by covering the blade with the blade guard.

An envelope is configured to hold, support, and protect an article such as a blood bag during transportation under cryogenic temperatures. The envelope includes a single piece component (e.g., a monolithic component), including multiple panels that are configured to fold to form an enclosure that surrounds the article such as the blood bag for support and protection of the article such as the blood bag.