A trim tab assembly for a helicopter rotor blade includes a plurality of metal panels that are secured to the trailing edge of a composite material helicopter blade. Each of the metal panels can be bent relative to the rotor blade to tune the aerodynamic properties of the rotor blade.
대표청구항▼
That which is claimed is: 1. An aircraft rotor comprising: a rotor blade having a length with opposite top and bottom surfaces, and opposite forward and rearward edges; at least one trim tab on the rotor blade, the trim tab being a rigid panel having a length that extends along the rotor blade rear
That which is claimed is: 1. An aircraft rotor comprising: a rotor blade having a length with opposite top and bottom surfaces, and opposite forward and rearward edges; at least one trim tab on the rotor blade, the trim tab being a rigid panel having a length that extends along the rotor blade rearward edge, a forward edge that is secured to the rotor blade, and a rearward edge that is spaced outwardly from the rotor blade rearward edge; the trim tab being one of a plurality of trim tabs on the rotor blade, the plurality of trim tabs being spatially arranged along the length of the rotor blade; and, the plurality of trim tabs being encapsulated in a flexible material. 2. An aircraft rotor comprising: a rotor blade having a length with opposite top and bottom surfaces, and opposite forward and rearward edges; at least one trim tab on the rotor blade, the trim tab being a rigid panel having a length that extends along the rotor blade rearward edge, a forward edge that is secured to the rotor blade, and a rearward edge that is spaced outwardly from the rotor blade rearward edge; the rotor blade having an upper layer of material and a lower layer of material, the upper layer of material extends across the trim tab forward edge and the lower layer of material extends across the trim tab forward edge with the trim tab forward edge being sandwiched between the rotor blade upper layer of material and lower layer of material; and, the trim tab being encapsulated in flexible material. 3. An aircraft rotor comprising: a composite material rotor blade having a length with opposite top and bottom surfaces, and opposite forward and rearward edges; a metallic trim tab on the rotor blade, the trim tab being a rigid panel having a length that extends along the rotor blade length, a forward edge that is secured to the rotor blade, and a rearward edge that is spaced outwardly from the rotor blade rearward edge; and, the trim tab being encapsulated in a flexible material. 4. An aircraft rotor comprising: a rotor blade having a longitudinal length with opposite top and bottom surfaces, and laterally opposite forward and rearward edges; a plurality of trim tabs on the rotor blade, each of the trim tabs being a rigid panel having a longitudinal length that extends along a portion of the rotor blade length, a forward edge that is secured to the rotor blade and a laterally opposite rearward edge that is spaced outwardly from the rotor blade rearward edge, and the plurality of trim tabs being spatially arranged along the rotor blade length with there being a longitudinal spacing between adjacent trim tabs; and, each of the plurality of trim tabs being encapsulated in a flexible material. 5. The rotor of claim 4, further comprising: the flexible material interconnecting the plurality of trim tabs. 6. The rotor of claim 4, further comprising: the flexible material extending into the longitudinal spacing between adjacent trim tabs. 7. An aircraft rotor comprising: a rotor blade having a length with opposite top and bottom surfaces, and opposite forward and rearward edges; and, at least one trim tab on the rotor blade, the trim tab being a rigid panel having a length that extends along the rotor blade rearward edge, a forward edge that is secured to the rotor blade, and a rearward edge that is spaced outwardly from the rotor blade rearward edge; the trim tab being covered by a flexible material; the flexible material having a forward portion adjacent the forward edge of the trim tab and a rearward portion adjacent the rearward edge of the trim tab, the forward portion of the flexible material having a reduced thickness from the rearward portion of the flexible material; and, the rotor blade having an upper layer defining the blade top surface and a lower layer defining the blade bottom surface, the upper layer and lower layer overlapping the forward portion of the flexible material providing smooth surfaces as the upper and lower layers transition to the flexible material rearward portion. 8. The rotor of claim 7, further comprising: the rotor blade being constructed of a composite material; and, the trim tab being constructed of a metallic material. 9. The rotor of claim 8, further comprising: the trim tab being one of a plurality of trim tabs on the rotor blade, the plurality of trim tabs being spatially arranged along the length of the rotor blade. 10. The rotor of claim 7, further comprising: the upper layer of material extends across the trim tab forward edge and the lower layer of material extends across the trim tab forward edge with the trim tab forward edge being sandwiched between the rotor blade upper layer of material and lower layer of material. 11. The rotor of claim 10, further comprising: the trim tab being one of a plurality of trim tabs on the rotor blade, the plurality of trim tabs being spatially arranged along the length of the rotor blade with each trim tab having a forward edge that is sandwiched between the rotor blade upper layer of material and lower layer of material. 12. The rotor of claim 11, further comprising: the plurality of trim tabs being encapsulated in a flexible material. 13. The rotor of claim 7, further comprising: the flexible material forward portion sandwiches the forward edge of the trim tab rigid panel and the flexible material rearward portion sandwiches the rearward edge of the trim tab rigid panel. 14. An aircraft rotor comprising: a composite material rotor blade having a length with opposite top and bottom surfaces, and opposite forward and rearward edges; a metallic trim tab on the rotor blade, the trim tab being a rigid panel having a length that extends along the rotor blade length, a forward edge that is secured to the rotor blade, and a rearward edge that is spaced outwardly from the rotor blade rearward edge; and, the trim tab being covered by a flexible material; the flexible material having a forward portion adjacent the forward edge of the trim tab and a rearward portion adjacent the rearward edge of the trim tab, the forward portion of the flexible material having a reduced thickness from the rearward portion of the flexible material; and, the rotor blade having an upper layer defining the blade top surface and a lower layer defining the blade bottom surface, the upper layer and lower layer overlapping the forward portion of the flexible material providing smooth surfaces as the upper and lower layers transition to the flexible material rearward portion. 15. The rotor of claim 14, further comprising: the trim tab being one of a plurality of trim tabs on the rotor blade, the plurality of trim tabs being spatially arranged along the rotor blade rearward edge. 16. The rotor of claim 15, further comprising: the trim tabs being encapsulated in a flexible material. 17. The rotor of claim 14, further comprising: the rotor blade having an upper layer of composite material and a lower layer of composite material, the upper layer of composite material extends over the trim tab forward edge and the lower layer of composite material extends over the trim tab forward edge with the trim tab forward edge being sandwiched between the rotor blade upper layer of composite material and the rotor blade lower layer of composite material. 18. The rotor of claim 17, further comprising: the metallic trim tab is encapsulated in a flexible material. 19. The rotor of claim 17, further comprising: the metallic trim tab is one of a plurality of metallic trim tabs on the rotor blade, the plurality of metallic trim tabs being spatially arranged along the rotor blade length. 20. The rotor of claim 19, further comprising: each of the plurality of metallic trim tabs is encapsulated in a flexible material. 21. The rotor of claim 14, further comprising: the metallic trim tab being bendable relative to the rotor blade. 22. The rotor of claim 14, further comprising: the flexible material forward portion sandwiches the forward edge of the trim tab rigid panel and the flexible material rearward portion sandwiches the rearward edge of the trim tab rigid panel. 23. An aircraft rotor comprising: a rotor blade having a longitudinal length with opposite top and bottom surfaces, and laterally opposite forward and rearward edges; a plurality of trim tabs on the rotor blade, each of the trim tabs being a rigid panel having a longitudinal length that extends along a portion of the rotor blade length, a forward edge that is secured to the rotor blade and a laterally opposite rearward edge that is spaced outwardly from the rotor blade rearward edge, and the plurality of trim tabs being spatially arranged along the rotor blade length with there being a longitudinal spacing between adjacent trim tabs; the trim tab being covered by a flexible material; the flexible material having a forward portion adjacent the forward edge of the trim tab and a rearward portion adjacent the rearward edge of the trim tab, the forward portion of the flexible material having a reduced thickness from the rearward portion of the flexible material; and, the rotor blade having an upper layer defining the blade top surface and a lower layer defining the blade bottom surface, the upper layer and lower layer overlapping the forward portion of the flexible material providing smooth surfaces as the upper and lower layers transition to the flexible material rearward portion. 24. The rotor of claim 23, further comprising: each of the plurality of trim tabs being constructed of a metallic material; and, the rotor blade being constructed of composite material. 25. The rotor of claim 23, further comprising: the plurality of trim tabs are encapsulated in a flexible material. 26. The rotor of claim 25, further comprising: the flexible material interconnects the plurality of trim tabs. 27. The rotor of claim 23, further comprising: each of the plurality of trim tabs being moveable relative to the rotor blade and the other trim tabs. 28. The rotor of claim 23, further comprising: the flexible material forward portion sandwiches the forward edge of the trim tab rigid panel and the flexible material rearward portion sandwiches the rearward edge of the trim tab rigid panel.
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이 특허에 인용된 특허 (1)
Baskin Joseph M. (Bala Cynwyd PA), Rotor blade internal damper.
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