The present invention relates to a storage case for prongs of a roasting stick. The storage case is a cuboidal-shaped box having a main body and a lid. The lid is pivotally-connected to the main body and is designed to cover the main body. The main body includes a base and four walls extending from the base for storing the prongs of a roasting stick. One wall of the main body includes a semi-circular cut-out for accommodating the handle of the roasting stick, whose prongs are stored in the main body. One of the walls of the lid also includes a semi-circular cut-out that abuts or aligns with the semi-circular cut-out of the main body to form a circular opening through which the handle of the stick extends. The lid and the main body are latched together to securely store the prongs.

Implementations of an auto-foldable pouch are provided. In some implementations, the auto-foldable pouch comprises an auto-foldable portion and a closure portion that form a pouch enclosure that can receive and hold an item. In some implementations, a method of using the auto-foldable pouch comprises unrolling the pouch, opening the pouch, inserting one or more items into the pouch, and closing the pouch to securely hold and enclose the items.

A backpack (11) provides a protective utility vestment including a panel of armor material fully stored beneath the openable cover (22) an anterior chamber within the backpack, obscuring its existence. A pair of hand-graspable pull-tabs (31) connected to opposite lateral sides of the vestment allow rapid deployment of the vestment over the user's head and into position on the user's chest. The pull-tabs can be obscured on the shoulder supports (14,15) of the backpack until used. Decoy bands (43) on the shoulder supports can further enhance the obscuring effect. The pull-tabs can secure to the hip support pads (16,17) to further secure the vestment on the user's chest. A bottom deployed utility caddy can be stowed within a hidden medial compartment.

The present invention generally relates to a smart modular travel bag including a suitcase with a removable portable battery charger. Specifically, embodiments of the present invention are directed toward a modular travel, garment bag or similar container system that can be customized based on the needs of the user. Furthermore, the various modules or segments of the bag may have different shapes and sizes so as to be adapted to carry items, with such modules or segments being combinable in varying arrangements to provide a flexibly configured bag that is suitable for a variety of uses. Some of such modules may comprise a battery. The present invention also relates to a method for using a smart modular travel bag and for a packaging system for suits, blazers and jackets from garment, fashion and retail brands.

Aspects herein are directed to a stowable garment system that allows for quick deployment and donning of an upper-body garment that is stowed within a pouch located on the front of a belt structure configured to encircle the waist of a wearer. The garment comprises at least a front section and a back section, where a portion of the front section is attached to the pouch. The garment further comprises a first tab extending from a bottom margin at a first side of the back section and a second tab extending from the bottom margin at a second opposite side of the back section. When stowed within the pouch, the tabs extend through one or more openings in the pouch. The wearer may exert tension on the tabs to actuate a quick-release mechanism causing the pouch to open, and enabling the garment to be deployed and donned.

A backpack includes a back panel having an airflow system. The airflow system includes protrusions extending from a base of the back panel and defining boundaries of lateral and vertical flow channels. The flow channels are configured to promote active airflow through the back panel.

A load-bearing strap with an inductive charging system is an apparatus that allows a user to charge a portable device, handsfree. The apparatus includes at least one strap, at least one pocket, a plurality of channels, and an inductive charging system. The inductive charging system is safely housed within the at least one strap as the at least one strap includes at least one charging chamber, a controller chamber, and a power source chamber. The at least one strap connects a bag about a user and houses the inductive charging system. The at least one pocket connects a portable device with the at least one strap. The plurality of channels connects the at least one charging chamber, the controller chamber, and the power source chamber with each other. The inductive charging system inductively charges a portable device with at least one set of coils, a microcontroller, and a power source.

A load-bearing strap with an inductive charging system is an apparatus that allows a user to charge a portable device, handsfree. The apparatus includes at least one strap, at least one pocket, a plurality of channels, and an inductive charging system. The inductive charging system is safely housed within the at least one strap as the at least one strap includes at least one charging chamber, a controller chamber, and a power source chamber. The at least one strap connects a bag about a user and houses the inductive charging system. The at least one pocket connects a portable device with the at least one strap. The plurality of channels connects the at least one charging chamber, the controller chamber, and the power source chamber with each other. The inductive charging system inductively charges a portable device with at least one set of coils, a microcontroller, and a power source.

A go-bag is disclosed. The bag is designed to contain valuables and important documents, and protect these contents during an emergency evacuation situation. The bag can waterproof and float in water. The bag can also be made of a flame resistant material. The bag can include a self-orienting feature where the bag can float in water and automatically rotate to achieve the proper orientation so that the integrated solar panel is facing upwards towards the sun.

The disclosure belongs to the technical field of powered drive devices, and discloses an acceleration control method for a load on a powered backpack based on a disturbance observer. The method includes: S1 setting the desired acceleration of the load on the powered backpack, presetting the initial motor drive current that regulates the movement of the load according to the desired acceleration, measuring the actual acceleration of the load; S2 establishing the disturbance observer for controlling acceleration the load on the powered backpack, using the disturbance observer to calculate the motor drive current that makes the actual acceleration of the load equal to the desired acceleration, so as to realize the acceleration control of the load on the powered backpack.