Non-protruding seat track apparatus and methods are disclosed. In one embodiment, a track includes an elongated support having a support surface and an engagement surface. The support surface is adapted to engage a lower surface of a floor panel, and the engagement surface is adapted to be coupled t
Non-protruding seat track apparatus and methods are disclosed. In one embodiment, a track includes an elongated support having a support surface and an engagement surface. The support surface is adapted to engage a lower surface of a floor panel, and the engagement surface is adapted to be coupled to a payload assembly. The engagement surface is at least one of flush with and recessed below the lower surface of the floor panel when the support surface is engaged with the lower surface. The engagement surface may have at least one of an engagement slot and an attachment aperture disposed therein.
대표청구항▼
What is claimed is: 1. A payload track adapted for use with a payload assembly, comprising: an elongated support including a first channel member having a first support surface, a second channel member approximately parallel to and spaced apart from the first channel member having a second support
What is claimed is: 1. A payload track adapted for use with a payload assembly, comprising: an elongated support including a first channel member having a first support surface, a second channel member approximately parallel to and spaced apart from the first channel member having a second support surface approximately co-planar with the first support surface, the support surfaces being configured to engage directly or indirectly with a lower surface of a floor panel, wherein each of the first and second channel members has a "C"-shaped cross section; and an engagement member centrally disposed between the two channel members, wherein a first vertical side of the engagement member is attached to a first adjacent portion of the first channel member and a second vertical side of the engagement member is attached to a second adjacent portion of the second channel member, and the engagement member includes an approximately horizontal top surface configured to be coupled to the payload assembly, wherein the top surface is at least one of flush with and recessed below the first and second support surfaces, and wherein the top surface has at least one of an engagement slot and an attachment aperture disposed therein. 2. The payload track of claim 1, wherein the top surface has an engagement slot disposed therein, the engagement slot having a plurality of alternating holes and lands and being configured to cooperatively engage the payload assembly. 3. The payload track of claim 1, wherein each of the first and second channel members includes a plurality of longitudinal sides. 4. The payload track of claim 1, wherein each of the first and second channel members has a "C"-shaped section. 5. The payload track of claim 1, wherein the top surface is co-planar with at least one of the lower surface of the floor panel and the support surfaces when the support surfaces are engaged with the lower surface. 6. A payload assembly, comprising: a payload member having at least one rigid support member; and a floor assembly including at least one floor panel, an elongated support having a first channel member having a first support surface, a second channel member approximately parallel to and spaced apart from the first channel member having a second support surface approximately co-planar with the first support surface, the support surfaces being engaged with a lower surface of the floor panel, wherein each of the first and second channel members has a "C"-shaped cross section, and an engagement member centrally disposed between the two channel members, wherein a first vertical side of the engagement member is attached to a first adjacent portion of the first channel member and a second vertical side of the engagement member is attached to a second adjacent portion of the second channel member, and the engagement member includes an approximately horizontal top surface coupled to the rigid support member, wherein the top surface is at least one of flush with and recessed below the first and second support surfaces, wherein the top surface has at least one of an engagement slot and an attachment aperture disposed therein. 7. The payload assembly of claim 6, wherein the approximately horizontal top surface has an engagement slot disposed therein, the engagement slot having a plurality of alternating holes and lands and being configured to cooperatively engage the payload assembly. 8. The payload assembly of claim 6, wherein each of the first and second channel members includes a plurality of longitudinal sides. 9. The payload assembly of claim 6, wherein the top surface is co-planar with at least one of the lower surface of the floor panel and the support surfaces. 10. A payload assembly, comprising: a payload member having at least one rigid support member; and a floor assembly including at least one floor panel, an elongated support having a first channel member having a first support surface, a second channel member approximately parallel to and spaced apart from the first channel member having a second support surface approximately co-planar with the first support surface, the support surfaces being engaged with a lower surface of the floor panel, and an engagement member centrally disposed between the two channel members, wherein a first vertical side of the engagement member is attached to a first adjacent portion of the first channel member and a second vertical side of the engagement member is attached to a second adjacent portion of the second channel member, and the engagement member includes an approximately horizontal top surface coupled to the rigid support member, wherein the top surface is at least one of flush with and recessed below the first and second support surfaces, wherein each of the first and second channel members has a "C"-shaped cross section.
Pompei Arturo (Seattle WA) Oldershaw Alan C. (Everett WA) Ballard Albert S. (Kirkland WA) Elting Bruce S. (Lynnwood WA), Aircraft cabin system for selectivley locating interior units.
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Friend John D. ; Swank Michael W. ; Hime David B. ; Whitney Jack M. ; Wieland Michael J. ; Burden Arthur W. ; Johnson Daniel J. ; Keyser Velma C. ; Chappell Bruce A., Multi-beam method and apparatus for removing and replacing major structural components while converting an airplane to efficiently carry freight.
Frantz, Walter Forrest; Grether, Martin R.; Hitchcock, Cory M.; Pischke, Gina C.; Jones, Todd Evan; Fortado, Paul R., Non-protruding seat track apparatus and methods.
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