초록 ▼

An ultralight unit load device has a ruggedized quadrangular composite structure with a cellular load-bearing core sealed in successive ordered-polymer stiffening plies and trimmed at the outer edges with a hollow, multi-chambered profile of lightweight material fixed with a flush attachment member

An ultralight unit load device has a ruggedized quadrangular composite structure with a cellular load-bearing core sealed in successive ordered-polymer stiffening plies and trimmed at the outer edges with a hollow, multi-chambered profile of lightweight material fixed with a flush attachment member so as to present a flat surface for easy loading and unloading.

대표청구항 ▼

What is claimed is: 1. An ultralight unit load device, comprising: a broad composite base panel having first and second faces and a peripheral surface; an open-structured edge component extending along a substantial portion of said peripheral surface, said edge component comprising an upper longitu

What is claimed is: 1. An ultralight unit load device, comprising: a broad composite base panel having first and second faces and a peripheral surface; an open-structured edge component extending along a substantial portion of said peripheral surface, said edge component comprising an upper longitudinal element and a lower longitudinal element both extending parallel to the base panel and spaced from each other, and two spaced apart transverse elements extending transversely to and connected to the longitudinal elements for defining a first chamber next to the composite base panel that extends along the edge component, the longitudinal elements being longer than said transverse elements, the edge component further comprising additional elements defining two additional chambers extending one after the other and next to the first chamber and being spaced from the base panel, the elements defining the chambers all being of lightweight material, said edge component including first and second spaced flanges substantially parallel to one another, said first and second flanges interconnected by a web to form a receiving area for mounting a marginal portion of said base panel, said edge component presenting a substantially flat top profile set flush with the said first and second faces of said base panel; attachments means for attaching said edge component to said marginal portion of said base panel; and a corner section component of lightweight material having fitted end protrusions for engaging said chambers of said edge component for absorbing shear forces. 2. The unit load device of claim 1 wherein said composite base panel comprises a load-bearing cellular core. 3. The unit load device of claim 2 wherein said cellular core is aluminum honeycomb. 4. The unit load device of claim 3 wherein the aluminum honeycomb is microperforated. 5. The unit load device of claim 4 wherein the aluminum honeycomb is made of aluminum that is 5056 H3 aluminum Alloy, with ⅛ inch cores and a density range from 1 to 9.2 lb/cf. 6. The unit load device of claim 2, wherein said composite base panel has a maximum thickness of 1 inch, and said load-bearing cellular core is microperforated 5056 H3 aluminum alloy with ⅛ inch cores, and a density of 9.1 lb/cf. 7. The unit load device of claim 2 wherein said cellular core is made from a material selected from the group consisting of aramid paper honeycomb, carbon fiber honeycomb and glass fiber composite honeycomb. 8. The unit load device of claim 2 wherein said composite base panel comprises at least one ply of unidirectional ordered-polymer fabric placed in different directions for each successive ply. 9. The unit load device of claim 8 wherein said unidirectional ordered-polymer fabric is carbon fiber pre-impregnated with epoxy resin. 10. The unit load device of claim 9 where the density of said carbon fiber is between 184 and 232 g/m2 and the density of said epoxy resin is between 79 and 99 g/m2 whereby the overall density of said unidirectional ordered-polymer fabric is between 263 and 331 g/m2 and the overall thickness of said unidirectional ordered-polymer fabric is between 0.166 to 0.211 mm. 11. The unit load device of claim 8 wherein said unidirectional ordered-polymer fabric is fiber selected from the group consisting of aramid, ceramic and boron. 12. The unit load device of claim 8 wherein said composite base panel comprises at least one final wear layer. 13. The unit load device of claim 12 wherein the at least one final wear layer is aramid prepreg fabric with a density of 171 g/m2. 14. The unit load device of claim 13 wherein said composite base panel comprises of at least one layer of adhesive film said adhesive film having an areal weight between 0.03 and 0.08 psf. 15. The unit load device of claim 1 wherein said lightweight material is aluminum. 16. The unit load device of claim 15 wherein the standard and grade of the aluminum is AA-6082-T6. 17. The unit load device edge of claim 1 wherein the said open-structure comprises a track on the upper longitudinal element composed of a channel which communicates directly with a plurality of apertures for holding anchoring elements, said anchoring elements having a head portion shaped to retained in said apertures and said anchoring elements being longitudinally slidable along said track and insertable or removable from said track. 18. The unit load device of claim 17 wherein said apertures have a narrowed portion for retaining said anchoring elements, said narrowed portion comprising of a proximate and a distal edge, the upper surface of said distal edge being set in a downward angle relative to the plane of said first face of said base panel. 19. The unit load device of claim 1 where said attachment means is a flush head rivet. 20. The unit load device of claim 1 wherein said lightweight material of the corner section is rubberized. 21. An ultralight unit load device, which comprises: a broad microperforated aluminum honeycomb core composite base panel with a thickness of 1 inch, said composite base panel comprised of at least one adhesive layer, said composite base panel comprised of at least one stiffening layer of unidirectional carbon-fiber prepreg placed in successive alternate directions, said composite base panel comprised of at least one final aramid wear layer, said composite base panel having first and second faces and a peripheral surface; an open-structured edge aluminum component extending along a substantial portion of said peripheral surface, said edge component comprising an upper longitudinal element and a lower longitudinal element both extending parallel to the base panel and spaced from each other, and two spaced apart transverse elements extending transversely to and connected to the longitudinal elements for defining a first chamber next to the composite base panel that extends along the edge component, the longitudinal elements being longer than said transverse elements, the edge component further comprising additional elements defining two additional chambers extending one after the other and next to the first chamber and being spaced from the base panel, said edge component including first and second spaced flanges substantially parallel to one another, said first and second flanges interconnected by a web to form a receiving area for mounting a marginal portion of said base panel, said edge component presenting a substantially flat top profile set flush with the said first and second faces of said base panel, said at least three chambers having two longitudinal elements and two traverse elements, one of said at least three chambers having said two longitudinal elements substantially longer than said two traverse elements, said edge component having a track composed of a channel which communicates directly with a plurality of apertures for holding anchoring elements, said anchoring elements having a head portion shaped to retained in said apertures and said anchoring elements being longitudinally slidable along said track and insertable or removable from said track; a flush head attachments means for attaching said edge component to said marginal portion of said base panel; and a corner section component of lightweight material having fitted end protrusions for engaging said chambers of said edge component for absorbing shear forces.