[특허]Turbine airfoil with de-coupled platform

[미국특허] Turbine airfoil with de-coupled platform 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	F01D-005/08 F01D-005/02
출원번호	UP-0453429 (2006-06-14)
등록번호	US-7597536 (2009-10-20)
발명자 / 주소	Liang, George
출원인 / 주소	Florida Turbine Technologies, Inc.
대리인 / 주소	Ryznic, John
인용정보	피인용 횟수 : 20 인용 특허 : 20

초록 ▼

An airfoil used in a gas turbine engine, such as a turbine blade, includes a thin slot formed between a platform section and an airfoil section of the blade, with a metering hole providing for a cooling air passage between a dead rim cavity and the thin slot, such that cooling air passes through the thin slot and out onto the transition between the platform and airfoil for cooling purposes. A plurality of thin slots is arranged around the periphery of the airfoil on the platform of the blade and extends from the leading edge to the trailing edge. In another embodiment, one thin slot could extend from the around the pressure side and the suction side of the airfoil. The thin slot not only provides cooling air to the transition region of the blade, but also de-couples the platform from the airfoil of the blade to reduce stress levels due to thermal gradients.

대표청구항 ▼

I claim the following: 1. A turbine airfoil comprising: a root; an airfoil portion having a pressure side and a suction side; a platform extending from the airfoil portion; the root, the airfoil portion and the platform are a single piece; a thin slot formed in the airfoil between the platform and the airfoil portion, the thin slot reducing a stiffness between the platform and the airfoil to uncouple the platform from the airfoil portion to reduce stresses due to thermal gradients, the thin slot opening onto the platform surface and having a bottom that does not pass through the platform; a metering hole fluidly connecting the thin slot with a dead rim cavity formed below the platform for supplying a cooling fluid into the slot; and, a plurality of thin slots formed around the periphery of the airfoil on the pressure side and the suction side, each of the plurality of slots having a metering hole therein to supply a cooling fluid to the respective thin slot. 2. A turbine airfoil comprising: a root; an airfoil portion having a pressure side and a suction side; a platform extending from the airfoil portion; the root, the airfoil portion and the platform are a single piece; and, a thin slot formed in the airfoil between the platform and the airfoil portion, the thin slot reducing a stiffness between the platform and the airfoil to uncouple the platform from the airfoil portion to reduce stresses due to thermal gradients, the thin slot opening onto the platform surface and having a bottom that does not pass through the platform; and, the thin slot having a width of from about 0.25 mm to about 1 mm. 3. A turbine airfoil comprising: a root; an airfoil portion having a pressure side and a suction side; a platform extending from the airfoil portion; the root, the airfoil portion and the platform are a single piece; and, a thin slot formed in the airfoil between the platform and the airfoil portion, the thin slot reducing a stiffness between the platform and the airfoil to uncouple the platform from the airfoil portion to reduce stresses due to thermal gradients, the thin slot opening onto the platform surface and having a bottom that does not pass through the platform; and, the slot has a depth from about one to two times the thickness of the platform. 4. A turbine airfoil comprising: a root; an airfoil portion having a pressure side and a suction side; a platform extending from the airfoil portion; the root, the airfoil portion and the platform are a single piece; a thin slot formed in the airfoil between the platform and the airfoil portion, the thin slot reducing a stiffness between the platform and the airfoil to uncouple the platform from the airfoil portion to reduce stresses due to thermal gradients, the thin slot opening onto the platform surface and having a bottom that does not pass through the platform; a metering hole fluidly connecting the thin slot with a dead rim cavity formed below the platform for supplying a cooling fluid into the slot; and, an exit area of the slot is from about 3 to 5 times the size of the exit area of the metering hole. 5. A turbine airfoil comprising: a root; an airfoil portion having a pressure side and a suction side; a platform extending from the airfoil portion; the root, the airfoil portion and the platform are a single piece; and, a thin slot formed in the airfoil between the platform and the airfoil portion, the thin slot reducing a stiffness between the platform and the airfoil to uncouple the platform from the airfoil portion to reduce stresses due to thermal gradients, the thin slot opening onto the platform surface and having a bottom that does not pass through the platform; and, a row of separated thin slots extending along the platform from the leading edge to the trailing edge, each separated thin slot having a metering hole fluidly connecting the thin slot with a dead rim cavity formed below the platform for supplying a cooling fluid into the thin slot. 6. A turbine airfoil comprising: a root; an airfoil portion having a pressure side and a suction side; a platform extending from the airfoil portion; the root, the airfoil portion and the platform are a single piece; and, a thin slot formed in the airfoil between the platform and the airfoil portion, the thin slot reducing a stiffness between the platform and the airfoil to uncouple the platform from the airfoil portion to reduce stresses due to thermal gradients, the thin slot opening onto the platform surface and having a bottom that does not pass through the platform; the slot is a thin continuous slot that extends along the platform surface from the leading edge to the trailing edge; and, a plurality of metering holes fluidly connecting the thin continuous slot with a dead rim cavity formed below the platform for supplying a cooling fluid into the slot.

이 특허에 인용된 특허 (20) 인용/피인용 타임라인 분석

Weinhold Wolfgang P. (Wiener Ring 17 D-8700 Wuerzburg DEX), Blade, especially a rotor blade.
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Nesim Abuaf ; Kevin Joseph Barb ; Sanjay Chopra ; David Max Kercher ; Iain Robertson Kellock ; Dean Thomas Lenahan ; Sankar Nellian ; John Howard Starkweather ; Douglas Arthur Lupe, Bucket platform cooling scheme and related method.
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Wilson,Jack W.; Brown,Wesley, Cooled turbine spar shell blade construction.
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Synnott,Remy; Trindade,Ricardo, Cooled turbine vane platform.
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Scott, Robert Kenmer; Tapley, Joseph Theodore, Cooling of combustion turbine airfoil fillets.
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Judet Maurice,FRX ; Marchi Marc Roger,FRX, Cooling system for turbine blade platforms.
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Tomita, Yasuoki; Shiozaki, Shigehiro; Soechting, Friedrich, Gas turbine.
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Kobayashi Nariyoshi (Ibaraki JPX) Sakamoto Takeshi (Tokai JPX) Anzai Shunichi (Ibaraki JPX) Matsumoto Manabu (Ibaraki JPX), Gas turbine blade cooling structure.
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Pepperman Barton M. (Orlando FL) Ayoob Andrew J. (Oviedo FL), Gas turbine vane.
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North William E. (Winter Springs FL) Hultgren Kent G. (Winter Park FL) Dishman Christopher D. (Geneva FL) Van Heusden Gary S. (Oviedo FL), Gas turbine vane cooling air insert.
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Craig Harold M. (West Hartford CT) Feder Ernest (West Hartford CT), Method of making rotor blade for a rotary machine.
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Lafarge, Grégory; Texier, Christophe, Nozzle-vane band for a gas turbine engine.
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Green Dennis J. (Amston CT), Rotor blade with cooled integral platform.
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Magowan John W. (Longmeadow MA), Rotor blade with integral platform and a fillet cooling passage.
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Ching-Pang Lee, Tandem cooling turbine blade.
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Albrecht Gunther (Esslingen am Neckar DT), Turbine blade.
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Dodd,Alec G, Turbine blade.
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Daniel Edward Demers ; Robert Francis Manning ; Paul Joseph Acquaviva, Turbine blade for gas turbine engine and method of cooling same.
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Hueber Alfred (Eichenau DEX), Turbine blade, more particularly turbine nozzle vane, for gas turbine engines.
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Krger Wolfgang (Reichertshausen DEX) Hther Werner (Karlsfeld DEX), Turbine rotor blade for a turbomachine especially a gas turbine engine.
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이 특허를 인용한 특허 (20) 인용/피인용 타임라인 분석

Wiebe, David J.; Smith, Bruce L.; Montgomery, Matthew D., Airfoil assembly including vortex reducing at an airfoil leading edge.
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Lee, Ching-Pang; Munshi, Mrinal; Azad, Gm S.; Um, Jae Y., Airfoil having built-up surface with embedded cooling passage.
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Grohens, Regis; Royan, Renaud Gabriel Constant, Blade with a cooling groove for a bladed wheel of a turbomachine.
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Brandl, Herbert; Krueckels, Joerg; Reinert, Felix, Component for a thermal machine, in particular a gas turbine.
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Bunker, Ronald Scott, Components with microchannel cooled platforms and fillets and methods of manufacture.
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Elorza Gomez, Sergio, Device and method for redirecting a leakage current.
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Pauli, Ernst; Dombos, Mario; Kieninger, Andreas; Krautzig, Joachim, Exhaust gas housing for a gas turbine and gas turbine having an exhaust gas housing.
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Anderson, Carney R.; Graves, William R., Gas turbine engine airfoil structure.
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Praisner, Thomas J.; Grover, Eric A., Gas turbine engine with non-axisymmetric surface contoured rotor blade platform.
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Grover, Eric A.; Praisner, Thomas J., Gas turbine engine with non-axisymmetric surface contoured vane platform.
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Brandl, Herbert; Widmer, Marc, Gas turbine vane.
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Bertoli, Vincenzo, Shell for aircraft turbo-engine stator with mechanical blade load transfer slits.
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Liang, George; Gao, Zhihong; Wessell, Brian J.; Gilliam, Joseph B., Turbine airfoil cooling system with high density section of endwall cooling channels.
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Wiebe, David J., Turbine airfoil fillet cooling system.
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Liang, George, Turbine airfoil with submerged endwall cooling channel.
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Morris, Mark C.; Smoke, Jason; Howe, Jeff; Mitlin, Bob, Turbine blade platform.
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Boyer, Bradley Taylor; Tipton, Thomas Robbins, Turbine bucket with a core cavity having a contoured turn.
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Boyer, Bradley Taylor, Turbine bucket with contoured internal rib.
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Ellis, Scott Edmond; Good, Randall Richard; Boyer, Bradley Taylor; Smith, Aaron Ezekiel, Turbine bucket with pressure side cooling.
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Liang, George, Turbine vane with trailing edge extension.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
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[미국특허] Turbine airfoil with de-coupled platform 원문보기