초록

A tool for curing a composite layup comprises a tool body having a surface adapted to support a composite layup thereon. The tool includes an integrated breather for allowing removal of air from the layup during curing.

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1. A tool comprising a tool body having a central region that supports a composite layup thereon as the composite layup cures, the tool body comprising a breather comprising a first set of abutting laterally spaced apart grooves, in a surface of the tool body, that surround the central region betwee

1. A tool comprising a tool body having a central region that supports a composite layup thereon as the composite layup cures, the tool body comprising a breather comprising a first set of abutting laterally spaced apart grooves, in a surface of the tool body, that surround the central region between an outer edge of the central region and a sealer tape, the first set of abutting laterally spaced apart grooves being connected by a second set of grooves, which are spaced apart from each other and extend transversely through and intersect the first set of grooves, such that the breather: eliminates a need for consumable breather materials;removes air and volatiles through an edge of the layup during curing, the edge of the composite layup being a side of the composite layup that extends away from the surface of the tool body; andprovides a substantially continuous and constant breathing volume, which the edge of the layup breathes through, surrounding the central region during a cure cycle. 2. The tool of claim 1, wherein the breather is recessed within the surface of the tool body, and the composite layup cures in an autoclave. 3. The tool of claim 1, wherein the breather includes a network of channels in the surface of the tool body. 4. The tool of claim 3, wherein the network of channels includes: a first set of channels extending generally parallel to each other. 5. The tool of claim 3, wherein the breather includes at least one passageway in the tool body coupled with the network of channels and configured to be connected with a vacuum source for drawing air away from the edge of the layup through the network of channels. 6. A tool for curing a composite layup, comprising: a tool body comprising an upper surface that supports the composite layup within a central region thereon, the tool body comprising a plurality of channels in the upper surface generally surrounding the central region, the plurality of channels being coupled with a vacuum source such that edges of the composite layup release air through a breather during curing of the composite layup, the breather comprising a first set of abutting laterally spaced apart grooves, in the upper surface of the tool body, that surround the central region between an outer edge of the central region and a sealer tape, the first set of abutting laterally spaced apart grooves being connected by a second set of grooves, which are spaced apart from each other and extend transversely through and intersect the first set of grooves, such that the breather provides a substantially continuous and constant breathing volume, which the respective edge of the layup breathes through, surrounding the central region during a cure cycle;eliminates a need for consumable breather materials while curing the composite layup; andremoves air and volatiles through the respective edge of the layup during curing, the respective edge of the composite layup being a side of the composite layup that extends away from the upper surface of the tool body. 7. The tool of claim 6, wherein the plurality of channels includes: a first set of channels extending generally parallel to each other; anda second set of channels extending traverse to and intersecting the first set of channels. 8. The tool of claim 7, further comprising: at least one internal passageway in the tool body coupling the plurality of channels with the vacuum source. 9. The tool of claim 8, wherein the at least one internal passageway is located at an intersection between the first set of channels and the second set of channels. 10. The tool of claim 8, wherein the at least one internal passageway is located within one of the first set of channels and the second set of channels and passes through the tool body. 11. The tool of claim 6, wherein the curing the composite layup comprises autoclave curing the composite layup. 12. The tool of claim 6, wherein a cross section of each of the plurality of channels is one of: a U-shape; anda V-shape. 13. The tool of claim 6, wherein the plurality of channels is outwardly spaced from and extending substantially around the layup. 14. The tool of claim 6, wherein the tool body is one of: metal,rubber; anda composite. 15. An autoclave cure tool an integrated breather comprising: a tool body comprising: an upper surface that supports a composite part layup in a central region thereon, and a lower surface; andthe breather being integrally formed within the tool body and surrounding the central region, the breather comprising a first set of abutting laterally spaced apart grooves, in the upper surface of the tool body, that surround the central region between an outer edge of the central region and a sealer tape, the first set of abutting laterally spaced apart grooves being connected by a second set of grooves, which are spaced apart from each other and extend transversely through and intersect the first set of grooves, such that the breather provides a substantially continuous and constant breathing volume, which an edge of the layup breathes through, surrounding the central region during a cure cycle;eliminates a need for consumable breather materials while curing the composite part layup; andremoves air and volatiles through the edge of the layup during curing, the edge of the composite layup being a side of the composite layup that extends away from the upper surface of the tool body;a plurality of channels, comprising a first set of channels and a second set of channels, the first set of channels having two generally parallel, laterally spaced apart channels located in the upper surface of the tool body and extending substantially around the composite part layup placed on the upper surface, and the second set of channels being located spaced apart in the upper surface and extending traverse to and interconnecting the first set of channels, each set of channels comprising the set of abutting laterally spaced apart grooves;at least one internal air passageway in the tool body having an inlet coupled with the plurality of channels at an intersection of the first set of channels and the second set of channels; andan outlet configured to be coupled with a vacuum source for drawing air from edge of the composite part layup being cured.