초록 ▼

One embodiment of the present invention is a unique gas turbine engine blade. Another embodiment is a unique gas turbine engine. Other embodiments include apparatuses, systems, devices, hardware, methods, and combinations for gas turbine engines and blades. Further embodiments, forms, features, aspe

One embodiment of the present invention is a unique gas turbine engine blade. Another embodiment is a unique gas turbine engine. Other embodiments include apparatuses, systems, devices, hardware, methods, and combinations for gas turbine engines and blades. Further embodiments, forms, features, aspects, benefits, and advantages of the present application will become apparent from the description and figures provided herewith.

대표청구항 ▼

1. A blade for a gas turbine engine, comprising: an airfoil;an attachment affixed to a root portion of the airfoil and having an attachment opening with a defined perimeter therein; anda plug having a longitudinal axis disposed in the attachment opening, a combination of interference fit and centrif

1. A blade for a gas turbine engine, comprising: an airfoil;an attachment affixed to a root portion of the airfoil and having an attachment opening with a defined perimeter therein; anda plug having a longitudinal axis disposed in the attachment opening, a combination of interference fit and centrifugal force retaining the plug in a fixed position in the attachment opening during operation of the engine, wherein the plug is configured to be retained in the attachment opening by an interference fit without the use of a material joining process,a flange extending radially outward from the longitudinal axis at one end of the plug to overlap a portion of the attachment about the entire perimeter of the attachment opening, wherein the flange is substantially parallel to a face of the attachment where the opening is formed;a back plate extending across the plug at an opposing end opposite from the flange;wherein the plug includes a flow control orifice configured to meter the flow of cooling air into the attachment; and wherein the flow control orifice is defined by a through hole formed in the back plate. 2. The blade of claim 1, wherein the plug has a fitting surface configured for engagement with the attachment opening with the interference fit; and wherein the fitting surface is non-cylindrical. 3. The blade of claim 2, wherein the fitting surface is conical. 4. The blade of claim 2, wherein the plug includes a back plate extends from the fitting surface. 5. The blade of claim 1, further comprising: a second attachment opening formed in the attachment; anda second plug having a back plate configured to prevent a flow of fluid into or out of the attachment. 6. The blade of claim 1, wherein the flange is configured to prevent entry of an entirety of the plug into the attachment opening. 7. The blade of claim 1, further comprising: another plug having a cooling air opening configured to permit a flow of cooling air out of the attachment. 8. A gas turbine engine, comprising: a compressor;a combustor in fluid communication with the compressor;a turbine in fluid communication with the combustor; anda blade configured for use as a compressor blade or a turbine blade, wherein the blade includes an airfoil; an attachment extending from a root portion of the airfoil and having an attachment opening with a defined perimeter shape therein; and a plug having a back plate on one end and a flange extending outward at the other end, the plug disposed in the attachment opening, a combination of interference fit and centrifugal force retaining the plug in a fixed position in the attachment opening during operation of the engine, wherein the plug is configured to be retained in the attachment opening by an interference fit without the use of a material joining process during engine operation, wherein the plug includes a flow control orifice defined in the back plate configured to meter the flow of cooling air into the attachment, and wherein the flange is substantially parallel to and overlaps a portion of the attachment about the entire perimeter of the opening to prevent entry of the entirety of the plug into the opening. 9. The gas turbine engine of claim 8, wherein the attachment opening is disposed at a base of the attachment. 10. The gas turbine engine of claim 8, wherein the blade has a cored passage extending through the attachment; and wherein the attachment opening is part of the cored passage and/or formed in the cored passage. 11. The gas turbine engine of claim 10, wherein the cored passage is a core support printout. 12. The gas turbine engine of claim 10, wherein the cored passage is a cooling air supply or discharge passage. 13. The blade of claim 8, wherein the plug has a fitting surface configured for engagement with the attachment opening with the interference fit; and wherein the fitting surface is non-cylindrical. 14. The blade of claim 13, wherein the fitting surface is conical. 15. The blade of claim 8, further comprising: another plug having a back plate configured to prevent a flow of fluid into or out of the attachment. 16. The blade of claim 8, further comprising: another plug having a cooling air opening configured to permit a flow of cooling air out of the attachment. 17. A gas turbine engine, comprising: a compressor;a combustor in fluid communication with the compressor;a turbine in fluid communication with the combustor; anda blade configured for use as a compressor blade or a turbine blade, wherein the blade includes an airfoil; an attachment extending from the airfoil and having an attachment opening therein; andmeans for controlling flow into or out of the attachment opening, wherein the means for controlling flow is configured to be retained in the attachment opening by an interference fit without the use of a material joining process, and wherein the means for controlling includes a flow control orifice being in a non-movable configuration by a combination of interference fit and centrifugal force during engine operation, the flow control orifice being configured to meter the flow of cooling air into the attachment; anda flange extending radially outward at one end of the means for controlling flow, wherein the flange is substantially parallel to and overlaps a portion of the attachment about an entire perimeter of the attachment opening to prevent entry of the entirety of the means for controlling flow from entering into the opening.