A medical equipment adaptable travel restraint system includes a number of features to support transportation and use of durable medical equipment including crash-safe transportation in a vehicle, vehicle-to-site transportation by a user for deployment, and operation of the durable medical equipment by the user without removal from a carrier of the medical equipment adaptable travel restraint system.

A system comprises a first body, comprising: a backpack suspension; a first storage region; and a first portion of a first attachment mechanism. A second body comprises: a second storage region; and a first portion of a second attachment mechanism. A third body comprises: a third storage region; a second portion of the first attachment mechanism; and a second portion of the second attachment mechanism. In a first configuration, the first portion of the first attachment mechanism is coupled to the first portion of the second attachment mechanism. In a second configuration, the first portion of the first attachment mechanism is coupled to the second portion of the first attachment mechanism, and the first portion of the second attachment mechanism is coupled to the second portion of the second attachment mechanism.

A top-and-front accessible luggage stroller comprises at least one bottom box having a bottom box door, at least one top box having a top box door and an upper cover. The top box is provided with a top box door, formed with a top-and-front two-facet opening covering with the top box door, and is located upon as well as separated from the bottom box. The upper cover is disposed on the top box, covering the top-and-front two-facet opening, and extended with an upper cover inner magnetic assembly portion, which is opposite to a rear side of the top box and attached to the rear side of the top box. The upper cover can be directly operated relative to the top box door. The bottom box is provided with a pull handle and a bottom of the bottom box is provided with a plurality of rollers.

A method for manufacturing a quadrangular shell having five faces and non-developable trihedral connectors between the faces. Plies having continuous fibers are cut to cover the five faces of the shell outside of the trihedral connector zones. Four connector components consolidated in the shape of the trihedral connectors are obtained. Each of the components includes an integration zone between the plies. Plies are positioned and laid up. The four consolidated components are inserted in the trihedral connection zones by inserting the integration zones between two plies to form an assembly obtain a preform. The preform is placed in a tool and the consolidation of the stack of fibrous plies is performed by subjecting the assembly to a predetermined pressure/temperature cycle.

A system comprises a first body, comprising: a backpack suspension; a first storage region; and a first portion of a first attachment mechanism. A second body comprises: a second storage region; and a first portion of a second attachment mechanism. A third body comprises: a third storage region; a second portion of the first attachment mechanism; and a second portion of the second attachment mechanism. In a first configuration, the first portion of the first attachment mechanism is coupled to the first portion of the second attachment mechanism. In a second configuration, the first portion of the first attachment mechanism is coupled to the second portion of the first attachment mechanism, and the first portion of the second attachment mechanism is coupled to the second portion of the second attachment mechanism.

A suitcase is provided that includes a front door, a main body, a plurality of wheels, and a garment hanger assembly that is slidable between an extended position and a retracted position.

Folding piece of luggage includes parallel first and second rigid panels; third and fourth rigid panels each mounted on and articulated to one of the first and second panels between a deployed position and a retracted position in which the third or fourth panel extends parallel to first and second panels; third and fourth panels defining with the first and second panels a rigid frame when third and fourth panels are in their deployed position; fifth and sixth panels each connects the first and second panels and define with the other panels an internal storage space of parallelepipedal shape; fifth and sixth panels being deformable in a direction x perpendicular to the first and second panels between an unfolded position and a folded position so that, when third and fourth panels are in their retracted position, first and second panels are able to move relative to one another.

The luggage packing system is provided to assist travelers to ensure that they have the necessities for traveling with infants and young children. The packing system provides a series of preferably flat inserts containing pockets and pouches that makes items easier to locate and remove individually from the luggage without disturbing other pockets or pouches. The luggage packing system also includes a hanger insert system that is movable relative to the layer member and a self-contained layer member having sidewalls and a zippered front surface.

The invention relates to a method for producing a self-reinforced thermoplastic composite material including: providing strips of a thermoplastic and weaving the plastic strips into a base fabric. The plastic strips for this are produced by at least the following steps: producing pre-stretched fibres from a partially crystalline polyester homopolymer with a melting point by extrusion on at least one spinning nozzle and subsequent stretching and joining a plurality of pre-stretched endless fibres lying next to and/or above one another to a matrix of an amorphous polyester homopolymer at a processing temperature T2<T1, wherein the temperature difference between T1 and T2 is at least ΔT=30° C.

A system comprises a first body, comprising: a backpack suspension; a first storage region; and a first portion of a first attachment mechanism. A second body comprises: a second storage region; and a first portion of a second attachment mechanism. A third body comprises: a third storage region; a second portion of the first attachment mechanism; and a second portion of the second attachment mechanism. In a first configuration, the first portion of the first attachment mechanism is coupled to the first portion of the second attachment mechanism. In a second configuration, the first portion of the first attachment mechanism is coupled to the second portion of the first attachment mechanism, and the first portion of the second attachment mechanism is coupled to the second portion of the second attachment mechanism.