A bullet-resistant transit case includes a casing with inner sidewalls, a rack frame suspended within the casing by a mounting device, and plurality of ballistic panels attached to respective inner sidewalls of the casing by a support device. Adjacent inner sidewalls form inner side edges. The mounting device engages the rack frame from these inner side edges. The supporting device cooperates with the rack frame and mounting device for holding the ballistic panels in place. The supporting device can be brackets with a base portion connecting to the inner side edges and limb attached to adjacent ballistic panels. A end lid and an opposite end lid, with a respective end ballistic panel and opposite end ballistic panel, can be included for a sealed inner volume with bullet-resistant properties within the transit case.

A bullet-resistant transit case includes a casing with inner sidewalls, a rack frame suspended within the casing by a mounting device, and plurality of ballistic panels attached to respective inner sidewalls of the casing by a support device. Adjacent inner sidewalls form inner side edges. The mounting device engages the rack frame from these inner side edges. The supporting device cooperates with the rack frame and mounting device for holding the ballistic panels in place. The supporting device can be brackets with a base portion connecting to the inner side edges and limb attached to adjacent ballistic panels. A end lid and an opposite end lid, with a respective end ballistic panel and opposite end ballistic panel, can be included for a sealed inner volume with bullet-resistant properties within the transit case.

According to the invention, the box for packaging an object, comprising at least two upper edges, comprising: lateral walls, a delimiting bottom, with the lateral walls, an internal volume able to receive said object, and a moving cover in relation to at least one of said lateral walls, so as to be able to occupy at least one closed position and one open position, in which said receiving volume is respectively closed and open,
characterized by the fact that the cover comprises, on its internal face oriented toward the receiving volume, at least two main flaps that are arranged opposite each other and that are designed to be applied respectively against the upper edges of said object, when the cover occupies the closed position.

This disclosure describes, in part, systems and methods for package deceleration and protection while packages are loaded into a bulk box. The packaging assembly includes an interference mechanism attached to a bulk box (e.g., a Gaylord container) by multiple elastic members. As packages are dropped into the bulk box, each package contacts the interference mechanism and the elastic members dampen the kinetic energy of the falling package, thereby reducing its velocity before the package continues into the bulk box.

This disclosure describes, in part, systems and methods for package deceleration and protection while packages are loaded into a bulk box. The packaging assembly includes an interference mechanism attached to a bulk box (e.g., a Gaylord container) by multiple elastic members. As packages are dropped into the bulk box, each package contacts the interference mechanism and the elastic members dampen the kinetic energy of the falling package, thereby reducing its velocity before the package continues into the bulk box.

The disclosure concerns a portable system for absorbing shock and carrying electronic equipment. The system includes a container having an open end, a closed end, and an interior wall. The system includes at least one first standoff attached to a first interior wall portion and at least one second standoff attached to a second interior wall portion such that the first and second standoff oppose each other. The system includes at least one piece of electronic equipment attached to a plate. The plate includes a rail. Each standoff also has a groove to receive the rail. The system further includes a relief section defined by an area between the interior wall of the container and at least one of a perimeter of the plate and a perimeter of the electronic equipment. The system also includes shock absorbing properties to protect the electronic equipment from damage.

An arrangement includes a housing and a flexible container. The flexible container is arranged in the housing and filled with a medicine or another liquid which occurs in a pharmaceutical production process. The housing is at least partially lined with an elastic foam configured to compensate for an increase in volume of the flexible container that occurs upon freezing.

A media device enclosure includes a housing with an interior sized and configured to receive a media device therein, a front opening, and a back opening. The media device enclosure further includes a front cover coupled to the housing and configured to cover the front opening and a back cover coupled to the housing and configured to cover the back opening. The media device enclosure further includes a vent plug configured to allow the ingress and egress of air and resistant to liquid ingress, and a check valve configured to allow egress of air. The housing, the front cover, and the back cover form a substantially sealed structure that is resistant to the ingress of liquid or air into the interior.

In one embodiment, a portable system for absorbing shock and carrying electronic equipment is disclosed. The system includes a container having an open end, a closed end, and an interior wall. At least one first standoff is attached to a first interior wall portion and at least one second standoff is attached to a second interior wall portion such that the first and second standoff oppose each other. At least one piece of electronic equipment is attached to a plate. The plate includes a rail. Each standoff also has a groove, where each groove is configured to receive the rail. The system further includes a relief section defined by area between a perimeter of the plate and a perimeter of the electronic equipment. The system also includes shock absorbing properties to protect the equipment from damage. In other embodiments, the system includes at least one solar panel defining a kit.

A packaging apparatus for providing protection against forces directed to an item (or items) is disclosed. The packaging apparatus designed to protect the item during, for example, transport of the item subject to sudden movement by a transportation vehicle (carrying the item) that may cause other items to contact the item. The packaging apparatus may include one or more force bearing features, each of which may include a fill material positioned to provide a counterforce against a force (or forces) in a direction toward the item. The packaging apparatus is also suitable for protecting cylindrical objects (such as drums) during transport. In this regard, several force bearing features disposed on opposing sides of a base member. Further, a strap can be secured to the transport vehicle to combine to provide additional force acting against unwanted movement of the items.