A retractable rotor blade for a flying vehicle is configured to undergo extension and retraction movement and includes an interlink assembly, a helical ribbon assembly for reinforcing the interlink assembly, and a flexible and elastic sleeve configured to cover the interlink assembly and the helical
A retractable rotor blade for a flying vehicle is configured to undergo extension and retraction movement and includes an interlink assembly, a helical ribbon assembly for reinforcing the interlink assembly, and a flexible and elastic sleeve configured to cover the interlink assembly and the helical ribbon assembly in the extended and retracted states of the rotor blade. The interlink assembly has interconnected link base subassemblies each configured to be translated along a span of the rotor blade such that each subsequent link base subassembly becomes stacked one atop the other while remaining connected to a next link base subassembly. Each of the link base subassemblies has a damper configured to dampen movement of the interlink assembly during extension and retraction of the rotor blade.
대표청구항▼
1. A retractable rotor blade assembly for providing vertical lift to a vehicle, the retractable rotor blade assembly comprising: a rotor hub assembly;a plurality of retractable rotor blades each configured to be extended and retracted relative to the rotor hub assembly; anda retraction reel assembly
1. A retractable rotor blade assembly for providing vertical lift to a vehicle, the retractable rotor blade assembly comprising: a rotor hub assembly;a plurality of retractable rotor blades each configured to be extended and retracted relative to the rotor hub assembly; anda retraction reel assembly housed in the rotor hub assembly and configured to retract each of the rotor blades toward the rotor hub assembly, the retraction reel assembly having exterior and interior rotor axles configured to undergo rotation for imparting a torque to the rotor blades, a breaking actuator disposed coaxially between the exterior and interior rotor axles for undergoing rotation and having a plurality of breaking notches located at an exterior surface of the breaking actuator, and real cage formed of a plurality of recoiling spools around which respective ones of retraction cables are configured to be wrapped, each of the recoiling spools having a plurality of breaking pins configured to be guided into the breaking notches during retraction of the rotor blades toward the rotor hub assembly. 2. A retractable rotor blade assembly according to claim 1; wherein the rotor hub assembly comprises a rotor hub wall, a rotor hub top casing, a rotor hub bottom casing, a blade top hinged casing hingedly connected to a top edge of the rotor hub wall, a blade bottom hinged casing hingedly connected to a bottom edge of the rotor hub wall, and a pitch disc having a longitudinal axis and being mounted to the rotor hub wall for undergoing rotation about the longitudinal axis, the pitch disc having a moment arm and a push rod connected to the moment arm. 3. A retractable rotor blade assembly according to claim 1; wherein the rotor hub assembly has a rotor hub wall and a pitch disc having a longitudinal axis and being mounted to the rotor hub wall for undergoing rotation about the longitudinal axis; and wherein each of the rotor blades comprises an interlink assembly including a plurality of interconnected link base subassemblies each configured to be translated along a span of the rotor blade such that each subsequent link base subassembly becomes stacked one atop the other while remaining connected to a next link base subassembly, a blade base interconnected between the pitch disc of the rotor hub assembly and one of the interconnected link base subassemblies, and a damper for dampening movement of the interlink assembly during extension and retraction of the rotor blade. 4. A retractable rotor blade assembly according to claim 3; wherein the damper has a collapsible section with a corrugated geometry and a slotted cylindrical section; and wherein each of the link base subassemblies has a link hub within which the slotted cylindrical section of the damper is mounted for ensuring that during extension or retraction of the rotor blade only the collapsible section is collapsed or elongated, a pair of locking arms housed in the link hub for locking the rotor blade in the extended state, and a pair of retractable links by which the link base subassembly is interconnected with another of the link base subassemblies. 5. A retractable rotor blade assembly according to claim 3; further comprising a helical ribbon assembly for reinforcing the interlink assembly, the helical ribbon assembly comprising a plurality of sequentially overlapped ribbons each formed of a plurality of laminated or woven layers, each of the layers being helically wound around the interlink assembly. 6. A retractable rotor blade assembly according to claim 5; further comprising a flexible and elastic sleeve configured to cover the interlink assembly and the helical ribbon assembly in the extended and retracted states of the rotor blade. 7. A retractable rotor blade assembly according to claim 6; wherein the flexible and elastic sleeve has a flexible and elastic skin and a plurality of elastic ribs for imparting rigidity to the flexible and elastic skin. 8. A rotor blade according to claim 6; wherein the flexible and elastic sleeve further comprises top and bottom zipper halves forming a zipper closure; and further comprising a zipper slide mechanism having a main zipper slider for undergoing sliding movement to zip and unzip the zipper closure of the flexible and elastic sleeve during extension and retraction of the rotor blade. 9. A retractable rotor blade configured to undergo extension and retraction movement, the retractable rotor blade comprising: an interlink assembly having a plurality of interconnected link base subassemblies each configured to be translated along a span of the rotor blade such that each subsequent link base subassembly becomes stacked one atop the other while remaining connected to a next link base subassembly, each of the link base subassemblies having a damper configured to dampen movement of the interlink assembly during extension and retraction of the rotor blade;a helical ribbon assembly for reinforcing the interlink assembly; anda flexible and elastic sleeve configured to cover the interlink assembly and the helical ribbon assembly in the extended and retracted states of the rotor blade. 10. A rotor blade according to claim 9; wherein each of the link base subassemblies has a pair of retractable links by which the link base subassembly is interconnected with another of the link base subassemblies, a link hub, and a pair of locking arms housed in the link hub for locking the rotor blade in the extended state. 11. A rotor blade according to claim 9; wherein the helical ribbon assembly has a plurality of sequentially overlapped ribbons helically wound around the interlink assembly. 12. A rotor blade according to claim 9; wherein the flexible and elastic sleeve has a flexible and elastic skin and a plurality of elastic ribs for imparting rigidity to the flexible and elastic skin. 13. A rotor blade according to claim 9; wherein the flexible and elastic sleeve further comprises top and bottom zipper halves forming a zipper closure; and further comprising a zipper slide mechanism having a main zipper slider for undergoing sliding movement to zip and unzip the zipper closure of the flexible and elastic sleeve during extension and retraction of the rotor blade. 14. A retractable rotor blade assembly comprising: a plurality of retractable rotor blades according to claim 9;a rotor hub assembly from which each of the plurality of retractable rotor blades is configured to be extended and retracted; anda retraction reel assembly housed in the rotor hub assembly and configured to retract each of the rotor blades toward the rotor hub assembly. 15. A retractable rotor blade assembly according to claim 14; wherein the rotor hub assembly has a pitch disc configured to undergo rotation about its longitudinal axis so that rotation of the pitch disk is transmitted to the interlink assembly to thereby change an angle of attack of the rotor blades. 16. A retractable rotor blade assembly according to claim 14; wherein the rotor hub assembly comprises a rotor hub wall having at its upper edge a hinged top casing and having at its bottom edge a hinged bottom casing; wherein in the retracted state of the rotor blades, the flexible and elastic sleeve is stowed within hinged top and bottom casings of the rotor hub. 17. A flying vehicle having the retractable rotor blade assembly according to claim 14. 18. A flying vehicle having the retractable rotor blade according to claim 9. 19. A retractable rotor blade assembly for providing vertical lift to a vehicle, the retractable rotor blade assembly comprising: a rotor hub assembly;a plurality of retractable rotor blades each configured to be extended and retracted relative to the rotor hub assembly; anda retraction reel assembly housed in the rotor hub assembly and configured to retract each of the rotor blades toward the rotor hub assembly, the retraction reel assembly having exterior and interior rotor axles configured to undergo rotation for imparting a torque to the rotor blades, a breaking actuator disposed coaxially between the exterior and interior rotor axles for undergoing rotation and having a plurality of breaking notches located at an exterior surface of the breaking actuator, and a real cage formed of a plurality of recoiling spools around which respective ones of retraction cables are configured to be wrapped, each of the recoiling spools having a plurality of breaking pins configured to be guided into the breaking notches during retraction of the rotor blades toward the rotor hub assembly. 20. A retractable rotor blade assembly according to claim 19; wherein: each of the rotor blades comprises: an interlink assembly having a plurality of interconnected link base subassemblies each configured to be translated along a span of the rotor blade such that each subsequent link base subassembly becomes stacked one atop the other while remaining connected to a next link base subassembly, each of the link base subassemblies having a damper provided with a corrugated collapsible section and being configured to dampen movement of the interlink assembly during extension and retraction of the rotor blade, a pair of retractable links by which the link base subassembly is interconnected with another of the link base subassemblies, a link hub, and a pair of locking arms housed in the link hub for locking the rotor blade in the extended state; a helical ribbon assembly for reinforcing the interlink assembly, the helical ribbon assembly having a plurality of sequentially overlapped ribbons helically wound around the interlink assembly; and a flexible and elastic sleeve configured to cover the interlink assembly and the helical ribbon assembly in the extended and retracted states of the rotor blade;the flexible and elastic sleeve has top and bottom zipper halves forming a zipper closure; andeach of the rotor blades further comprises a zipper slide mechanism having a main zipper slider for undergoing sliding movement to zip and unzip the zipper closure of the flexible and elastic sleeve during extension and retraction of the rotor blade.
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이 특허에 인용된 특허 (11)
Wedertz Larry D. (Mira Loma CA) Ross Oakley G. (Upland CA) Niemeier Byron M. (Claremont CA), Double fabric retractable wing construction.
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