IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0856667
(2010-08-15)
|
등록번호 |
US-8783624
(2014-07-22)
|
발명자
/ 주소 |
- Koppelman, Henry J.
- Gregg, Paul S.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
7 |
초록
▼
An aerodynamic body operable to both promote laminar flow and satisfy structural requirements is disclosed. A perforated panel skin comprises an inner surface and an outer surface of the aerodynamic body. At least one hollow member is coupled to the inner surface and is operable to suction air from
An aerodynamic body operable to both promote laminar flow and satisfy structural requirements is disclosed. A perforated panel skin comprises an inner surface and an outer surface of the aerodynamic body. At least one hollow member is coupled to the inner surface and is operable to suction air from the outer surface and through the perforated panel skin. The at least one hollow member is oriented in a substantially chord-wise direction relative to an airflow over the aerodynamic body.
대표청구항
▼
1. An aerodynamic body, comprising: a perforated panel skin of the aerodynamic body, the perforated panel skin comprising an inner surface and an outer surface; andat least one hollow member coupled to the inner surface and operable to stiffen the perforated panel skin and passively suction air from
1. An aerodynamic body, comprising: a perforated panel skin of the aerodynamic body, the perforated panel skin comprising an inner surface and an outer surface; andat least one hollow member coupled to the inner surface and operable to stiffen the perforated panel skin and passively suction air from the outer surface and through the perforated panel skin to provide suctioned air and direct the suctioned air to a passive aft-facing vent directly vented to an interior of the aerodynamic body, the at least one hollow member comprising a corrugated wave shape with ridges thereof detached from the perforated panel skin and the passive aft-facing vent at one end and oriented in a substantially chord-wise direction relative to an airflow over the aerodynamic body, the passive aft-facing vent directly vented to the interior of the aerodynamic body outside the at least one hollow member. 2. The aerodynamic body according to claim 1, wherein the at least one hollow member is bonded to the perforated panel skin via a bond-line coupled to the inner surface. 3. The aerodynamic body according to claim 1, wherein the passive aft-facing vent is coupled to a plenum chamber, and configured to vent directly to the plenum chamber. 4. The aerodynamic body according to claim 1, wherein the at least one hollow member stiffens the aerodynamic body. 5. The aerodynamic body according to claim 1, wherein the aerodynamic body comprises a leading edge of an airfoil. 6. The aerodynamic body according to claim 5, wherein the at least one hollow member is formed continuously along the inner surface thereby providing stiffeners extended continuously to and around the leading edge. 7. The aerodynamic body according to claim 5, wherein the at least one hollow member comprises a first piece bonded to a first inner surface of the perforated panel skin and a second piece bonded to a second inner surface of the perforated panel skin. 8. The aerodynamic body according to claim 7, wherein the first piece and the second piece are each oriented in a substantially chord-wise direction relative to the airflow. 9. The aerodynamic body according to claim 8, wherein the first piece and the second piece are coupled to each other via a leading edge strap, wherein the leading edge strap is: detached from an area of the inner surface near a leading edge tip thereby providing no attachment to the perforated panel skin of the aerodynamic body, conforms to the at least one hollow member at the ridges thereof, and extends along a leading edge span. 10. The aerodynamic body according to claim 9, wherein the leading edge strap provides continuity between the first piece and the second piece of the at least one hollow member allowing the first piece and the second piece to communicate air. 11. The aerodynamic body according to claim 7, wherein the first piece and the second piece are each operable to: suction air through the perforated panel skin; andflow air therethrough and out of respective ends of the first piece and the second piece. 12. A method for providing laminar flow over an aerodynamic body, the method comprising: stiffening an inner surface of a perforated panel skin of the aerodynamic body with at least one hollow member coupled to the inner surface, the at least one hollow member comprising a corrugated wave shape with ridges thereof detached from the perforated panel skin and a passive aft-facing vent at one end, the inner surface comprising an upper inner surface and a lower inner surface;orienting the at least one hollow member in a substantially chord-wise direction relative to an airflow over the aerodynamic body;passively suctioning the airflow entering the perforated panel skin through an outer surface of the perforated panel skin to the passive aft-facing vent directly vented to an interior of the aerodynamic body, the interior of the aerodynamic body surrounded and shared by the upper inner surface and the lower inner surface of the aerodynamic body, and the airflow exits from the one end directly to the interior of the aerodynamic body; anddrawing the airflow through the at least one hollow member and out of the passive aft-facing vent. 13. The method according to claim 12, further comprising bonding the at least one hollow member to the inner surface. 14. The method according to claim 12, further comprising flowing air through the passive aft-facing vent of the at least one hollow member to a plenum chamber. 15. The method according to claim 12, further comprising forming the at least one hollow member continuously along the inner surface such that the at least one hollow member is extended around a leading edge of the aerodynamic body. 16. A method for forming a corrugation-stiffened structure for a leading edge of an aerodynamic body: orienting a first piece of at least one hollow member in a substantially chord-wise direction relative to an airflow over the leading edge, the first piece comprising a corrugated wave shape;bonding the first piece at nodes of the first piece to a first inner surface of a perforated panel skin with ridges of the first piece detached from the perforated panel;stiffening the first inner surface with the first piece;orienting a second piece of the at least one hollow member in the substantially chord-wise direction relative to the airflow over the leading edge, the first piece comprising a corrugated wave shape;bonding the second piece at nodes of the second piece to a second inner surface of the perforated panel skin with ridges of the second piece detached from the perforated panel skin;stiffening the second inner surface with the second piece;coupling the first piece to the second piece via a corrugated strap, the corrugated strap detached from an area of the inner surface near a tip of the leading edge, thereby providing no attachment to the perforated panel skin of the leading edge; andconfiguring a first passive aft-facing vent directly vented to an interior of the aerodynamic body at one end of the first piece and a second passive aft-facing vent directly vented to the interior of the aerodynamic body at one end of the second piece to passively suctioning air from an outer surface of the perforated panel skin through the perforated panel skin to the interior of the aerodynamic body such that the air flows along the first piece and the second piece respectively and out of the first passive aft-facing vent and the second passive aft-facing vent respectively. 17. The method according to claim 16, further comprising: bonding the first piece to the perforated panel skin via a first bond-line coupled to the first inner surface; andbonding the second piece to the perforated panel skin via a second bond-line coupled to the second inner surface. 18. The method according to claim 16, further comprising stiffening the leading edge of the aerodynamic body with the first piece and the second piece. 19. The method according to claim 16, further comprising: configuring the first passive aft-facing vent to flowing the air to a plenum chamber; andconfiguring the second passive aft-facing vent to flowing the air to the plenum chamber. 20. The method according to claim 16, wherein the at least one hollow member comprises one of: a braided carbon fiber-reinforced polymer, and CP-2 titanium.
이 특허에 인용된 특허 (7)
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Lahti Daniel J. (Cincinnati OH) Yates David E. (Cincinnati OH) Mungur Parmanand (West Chester OH) Stockman Norbert O. (Batavia OH), Hybrid laminar flow nacelle.
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Cloft, Thomas G.; Wiley, Richard H., Integral suction device with acoustic panel.
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DeCoux Steven P. (Long Beach CA), Laminar flow control apparatus for aerodynamic surfaces.
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Shatz Solomon (P.O. Box 523 Cupertino CA 94015), Movable sheet for laminar flow and deicing.
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Bertolotti,Fabio P., Perforated skin structure for laminar-flow systems.
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Hartwich Peter M. (Newport News VA), Porous airfoil and process.
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Pfennig Juergen,DEX ; Meister Juergen,DEX, Suction device for boundary layer control in an aircraft.
이 특허를 인용한 특허 (3)
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Chelin, Frédéric; Surply, Thierry, Aircraft nacelle comprising a reinforced outer wall.
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Gane, David Howard; Conaway, Donald L.; Hill, Duane Michael; Walz, Lonny D.; Poirier, Justin Michael; Martinez, Anthony David; Repsumer, Jeffrey N., Method and apparatus for hot forming metal parts.
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Tiwari, Sean; Weaver, Luby, Perforated surface for suction-type laminar flow control.
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