SYSTEM AND METHOD FOR ASSEMBLING AIRCRAFT COMPONENTS
First Claim
Patent Images
1. A method of manufacturing a segment of an aircraft structure, the method comprising:
- a) assembling a plurality of panels comprising skin and stringers, each panel having a first skin edge and a second skin edge opposite of the first skin edge, with locating holes or locating features formed in the skin at a predetermined location proximate to the first skin edge;
b) placing at least two of the panels, spatially separated from each other, on a support tool such that the locating holes or locating features align with indexing features of the support tool, wherein the indexing features of the support tool are oriented with a datum of a machine configured to machine the panels;
c) drilling a plurality of full-sized holes proximate to the second skin edges of the at least two panels with the machine, using the datum of the machine as a reference point, wherein the full-sized holes have a diameter corresponding with a diameter of fasteners to be placed through the full-sized holes;
d) repeating (b) and (c) on at least two others of the panels;
e) removing the panels from the support tool;
f) overlapping two of the panels proximate to their first skin edges, using the full-sized holes proximate to the second skin edges as locating features for determining a precise positioning of the panels relative to each other;
g) inserting fasteners or pins through the locating holes overlapping each other proximate to the first skin edges of the panels;
h) drilling full-sized holes through the panels simultaneously at overlapping locations of the panels and inserting corresponding fasteners into the full-sized holes, forming a pair of joined panels;
i) repeating steps (f) through (h) for two others of the panels;
j) installing control systems into at least one of the pairs of joined panels; and
k) attaching the two pairs of joined panels with each other by aligning the full-sized holes proximate to one of the second skin edges with the full-sized holes proximate to another of the second skin edges and inserting fasteners through the aligned full-sized holes.
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Accused Products
Abstract
A system and method for assembling a 360-degree section of an aircraft fuselage or nacelle by properly positioning a plurality of assembly panels relative to a machine datum representing an assembly-level datum schema, drilling full-sized holes proximate to a second skin edge of the panels with the machine, net-trimming a second edge of the panels with the machine, then using the full-sized holes proximate to the second skin edges as alignment features to properly orient and attach pairs of the panels together proximate to first skin edges, opposite of the second skin edges with an auxiliary machine, forming panel pairs. Control systems may be installed into the panel pairs separately and independently, then the panel pairs may be joined together, aligning the full-sized holes proximate to the second edges, and inserting fasteners through the aligned full-sized holes proximate to the second skin edges.
43 Citations
20 Claims
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1. A method of manufacturing a segment of an aircraft structure, the method comprising:
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a) assembling a plurality of panels comprising skin and stringers, each panel having a first skin edge and a second skin edge opposite of the first skin edge, with locating holes or locating features formed in the skin at a predetermined location proximate to the first skin edge; b) placing at least two of the panels, spatially separated from each other, on a support tool such that the locating holes or locating features align with indexing features of the support tool, wherein the indexing features of the support tool are oriented with a datum of a machine configured to machine the panels; c) drilling a plurality of full-sized holes proximate to the second skin edges of the at least two panels with the machine, using the datum of the machine as a reference point, wherein the full-sized holes have a diameter corresponding with a diameter of fasteners to be placed through the full-sized holes; d) repeating (b) and (c) on at least two others of the panels; e) removing the panels from the support tool; f) overlapping two of the panels proximate to their first skin edges, using the full-sized holes proximate to the second skin edges as locating features for determining a precise positioning of the panels relative to each other; g) inserting fasteners or pins through the locating holes overlapping each other proximate to the first skin edges of the panels; h) drilling full-sized holes through the panels simultaneously at overlapping locations of the panels and inserting corresponding fasteners into the full-sized holes, forming a pair of joined panels; i) repeating steps (f) through (h) for two others of the panels; j) installing control systems into at least one of the pairs of joined panels; and k) attaching the two pairs of joined panels with each other by aligning the full-sized holes proximate to one of the second skin edges with the full-sized holes proximate to another of the second skin edges and inserting fasteners through the aligned full-sized holes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of manufacturing a segment of an aircraft structure, the method comprising:
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a) assembling a plurality of panels comprising skin and stringers, each panel having a first skin edge and a second skin edge opposite of the first skin edge; b) net trimming the panels on all but the second skin edge; c) forming locating holes or locating features at a predetermined location proximate to the first skin edge; d) placing at least two of the panels on separate portions of a support tool such that the locating holes or locating features align with indexing features of the support tool, wherein the separate portions of the support tool comprise a first portion and a second portion, wherein the indexing features of the support tool are oriented with a datum of a machine configured to machine the panels, wherein the first and second portions of the support tool are spatially separated from each other; e) drilling a plurality of full-sized holes proximate to the second skin edges of the at least two panels with the machine, using the datum of the machine as a reference point, wherein the full-sized holes have a diameter corresponding with a diameter of fasteners to be placed through the full-sized holes; f) trimming the second skin edges of the at least two panels with the machine, using the datum of the machine as a reference point; g) repeating (d) through (f) on at least two others of the panels; h) removing the panels from the support tool; i) overlapping two of the panels proximate to their first skin edges, using the full-sized holes proximate to the second skin edges as locating features for determining a precise positioning of the panels relative to each other; j) inserting fasteners or pins through the locating holes overlapping each other proximate to the first skin edges of the panels; k) drilling full-sized holes through the panels simultaneously at overlapping locations of the panels and inserting corresponding fasteners into the full-sized holes; l) repeating steps (i) through (k) for two others of the panels, such that two pairs of joined panels are formed; m) installing control systems into at least one of the pairs of joined panels; and n) attaching the two pairs of joined panels with each other by overlapping the second skin edges such that the full-sized holes proximate to one of the second skin edges are aligned with the full-sized holes proximate to another of the second skin edges and inserting fasteners through the aligned full-sized holes. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. A method of manufacturing a 360-degree segment of an aircraft fuselage, the method comprising:
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a) assembling four quarter panels comprising skin and stringers, each quarter panel having a first skin edge and a second skin edge opposite of the first skin edge, wherein the quarter panels comprise an upper right quarter panel, a lower right quarter panel, an upper left quarter panel, and a lower left quarter panel; b) net trimming the quarter panels on all but the second skin edge; c) forming locating holes or locating features at a predetermined location proximate to the first skin edge; d) placing the upper right quarter panel and the lower right quarter panel on first and second portions of a support tool such that the locating holes or locating features align with indexing features of the support tool, wherein the indexing features of the support tool are oriented with a datum of a machine configured to machine the panels, wherein the first and second portions of the support tool are spatially separated from each other such that the second skin edges of the upper and lower right quarter panels are spatially separated from each other; e) drilling a plurality of full-sized holes proximate to the second skin edges of the upper and lower right quarter panels with the machine, using the datum of the machine as a reference point, wherein the full-sized holes have a diameter corresponding with a diameter of fasteners to be placed through the full-sized holes; f) trimming the second skin edges of the upper and lower right quarter panels with the machine, using the datum of the machine as a reference point; g) placing the upper left quarter panel and the lower left quarter panel on third and fourth portions of the support tool, or placing the upper left quarter panel and the lower left quarter panel on the first and second portions of the support tool after removing the upper and lower right quarter panels from the first and second portions of the support tool, aligning locating holes or locating features with the indexing features of the support tool, wherein the third and fourth portions of the support tool are spatially separated from each other such that the second skin edges of the upper and lower left quarter panels are spatially separated from each other if supported by the third and fourth portions of the support tool; h) drilling a plurality of full-sized holes proximate to the second skin edges of the upper and lower left quarter panels with the machine, using the datum of the machine as a reference point; i) trimming the second skin edges of the upper and lower left quarter panels with the machine, using the datum of the machine as a reference point; j) removing the quarter panels from the support tool; k) overlapping a portion of the upper left quarter panel with the upper right quarter panel proximate to their first skin edges, using the full-sized holes proximate to the second skin edges as locating features for determining a precise positioning of the upper right and left quarter panels relative to each other; l) inserting fasteners or pins through the locating holes of the upper left and right quarter panels overlapping each other proximate to the first skin edges of the upper left and right quarter panels; m) drilling full-sized holes through the upper right and left quarter panels simultaneously at overlapping locations of the upper right and left quarter panels and inserting corresponding fasteners into the full-sized holes at the overlapping locations of the upper right and left quarter panels, forming an upper section of the fuselage; n) overlapping a portion of the lower left quarter panel with the lower right quarter panel proximate to their first skin edges, using the full-sized holes proximate to the second skin edges as locating features for determining a precise positioning of the lower right and left quarter panels relative to each other; o) inserting fasteners or pins through the locating holes of the lower left and right quarter panels overlapping each other proximate to the first skin edges of the lower left and right quarter panels; p) drilling full-sized holes through the lower right and left quarter panels simultaneously at overlapping locations of the lower right and left quarter panels and inserting corresponding fasteners into the full-sized holes at the overlapping locations of the lower right and left quarter panels, forming a lower section of the fuselage; q) independently installing control systems into the upper section and the lower section of the fuselage; and r) attaching the upper section and the lower section of the fuselage with each other by overlapping the second skin edges such that the full-sized holes proximate to one of the second skin edges are aligned with the full-sized holes proximate to another one of the second skin edges and inserting fasteners through the aligned full-sized holes. - View Dependent Claims (19, 20)
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Specification
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Current AssigneeSpirit Aerosystems Incorporated (Spirit Aerosystems Holdings Incorporated)
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Original AssigneeSpirit Aerosystems Incorporated (Spirit Aerosystems Holdings Incorporated)
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InventorsVenskus, Mark Kenyon, Wampler, Troy Lynn, Fenn, Edwin H., Walters, Stephen Eldred, Miller, Clark Ray, Champa, Michael Arthur, Anderson, David Scott
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current29/407.09
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CPC Class CodesB21J 15/142 Aerospace structuresB23Q 1/012 PortalsB23Q 3/062 adapted for holding workpie...B64C 1/068 Fuselage sectionsY10T 29/49616 Structural member makingY10T 29/49622 Vehicular structural member...Y10T 29/49778 with aligning, guiding, or ...Y10T 29/49826 Assembling or joiningY10T 29/49833 Punching, piercing or reami...Y10T 29/49892 Joining plate edge perpendi...Y10T 29/49895 Associating parts by use of...Y10T 29/53961 with work-holder for assemblyY10T 29/53978 including means to relative...Y10T 29/53983 Work-supported apparatus
