IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0822598
(2015-08-10)
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등록번호 |
US-10099784
(2018-10-16)
|
발명자
/ 주소 |
- Nilson, Tim
- Dankbaar, Frank
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
9 |
초록
▼
An improved frame is disclosed for a rotary wing aircraft comprising a power frame having a power frame lower element and a power frame upper element. A curved beam extends between a first and a second end and having a lower and an upper edge. A coupling secures the lower and an upper edge of the cu
An improved frame is disclosed for a rotary wing aircraft comprising a power frame having a power frame lower element and a power frame upper element. A curved beam extends between a first and a second end and having a lower and an upper edge. A coupling secures the lower and an upper edge of the curved beam to the power frame lower element and the power frame upper element for stabilizing the power frame to reduce flexing and vibration of the power frame.
대표청구항
▼
1. An Improved frame for a rotary wing aircraft, comprising: a power frame having a power frame lower element and a power frame upper element; said power frame lower element extending between a first power frame lower end and;said power frame upper element extending between a first power frame upper
1. An Improved frame for a rotary wing aircraft, comprising: a power frame having a power frame lower element and a power frame upper element; said power frame lower element extending between a first power frame lower end and;said power frame upper element extending between a first power frame upper end and a second power frame upper end;said power frame lower element and said power frame upper element being disposed in a substantially parallel relationship;a curved beam extending between a curved beam first end and a curved beam second end and having a lower and an upper edge;said first and second beam ends being located longitudinally in proximately to said first and second power frame lower ends and said first and second power frame upper ends, respectively;a coupling for securing said lower and said upper edge of said curved, beam to said power frame lower element and said power frame upper element wherein said curved beam inhibits racking or lateral movement of the power frame lower element relative to the power frame upper element. 2. An improved frame for a rotary wing aircraft as set forth in claim 1, wherein said curved beam is formed from a resilient material. 3. An improved frame for a rotary wing aircraft as set forth in claim 1, wherein said coupling comprises a lower tab and an upper tab extending from said lower and said upper edge of said curved beam, respectively; a lower and an upper recess defined in said power frame lower element and said power frame upper element, respectively; andsaid lower and said upper tabs being insertable into said lower and said upper recesses, respectively, for securing said curved beam to said power frame. 4. An improved frame for a rotary wing aircraft as set forth in claim 1, wherein said coupling comprises a lower tab and an upper tab extending from said lower and said upper edge of said curved beam, respectively; a lower and an upper recess defined in said power frame lower element and said power frame upper element, respectively;said lower and said upper tabs being insertable into said lower and upper recesses, respectively, for securing said curved beam to said power frame; anda plurality of supports interconnecting said power frame lower element to said power frame upper element for applying a compressive force between said power frame lower element and said power frame upper element for maintaining insertion of said lower and said upper tabs into said lower and said upper recesses in said power frame lower element and said power frame upper element. 5. An improved frame for a rotary wing aircraft as set forth in claim 1, including a first, a second and a third support interconnecting said power frame lower element to said power frame upper element; said first, second and third supports applying a compressive force between said power frame lower element and said power frame upper element to secure said lower and an upper edge of said curved beam to said power frame lower element and said power frame upper element. 6. An improved frame for a rotary wing aircraft as set forth in claim 1, including a first, a second and a third support located between said power frame lower element and said power frame upper element; one of said first, second and third supports being offset relative to the other of said first, second and third supports; andsaid curved beam being positioned along said first, second and third supports for accommodating said curve of said curved beam. 7. An improved frame for a rotary wing aircraft as set forth in claim 1, wherein said power frame is substantially rectangular. 8. An improved frame for a rotary wing aircraft as set forth in claim 1, wherein said power frame is substantially rectangular extending longitudinally between a first and a second end and bounded by a first and a second edge; and said curved beam including a first and second curved beam extending longitudinally between said first and second ends and located adjacent to said first and second edges, respectively. 9. An improved frame for a rotary wing aircraft as set forth in claim 1, wherein said plurality of arms extend from opposed ends of said power frame for mounting a plurality of driven propellers. 10. An improved frame for a rotary wing aircraft as set forth in claim 1, including a carrier frame; and a plurality of resilient couplings connecting said carrier frame from said power frame for inhibiting transmission of vibrations from said power frame to said carrier frame. 11. An improved frame for a rotary wing aircraft, comprising: a power frame having a power frame lower element and a power frame upper element;a plurality of arms extending from said power frame for mounting a plurality of driven propellers;a carrier frame;a plurality of resilient couplings connecting said carrier frame to said power frame for inhibiting transmission of vibrations from said power frame to said carrier frame;a sensor mounted to said carrier frame for sensing regions about the rotary wing aircraft;an electronic flight control for control ling said plurality of driven propellers of the rotary wing aircraft;a transceiver connected to said sensor and to said electronic fright control for receiving data from said sensor and for directing the fright of the rotary wing aircraft;a curved beam extending between a first and a second end and having a lower and upper edge;said curved beam extend longitudinally between and adjacent to a first power frame end and a second power frame end;said curved beam interposed between said power frame lower element and said power frame upper element; anda coupling for securing said curved beam to said power frame lower element and said power frame upper element wherein said curved beam inhibits racking or lateral movement of the power frame lower element relative to the power frame upper element. 12. An improved frame for a rotary wing aircraft as set forth in claim 11, wherein said curved beam is formed from a resilient material. 13. An Improved frame for a rotary wing aircraft as set forth in claim 11, wherein said coupling comprises a lower tab and an upper tab extending from said lower and said upper edge of said curved beam, respectively; a lower and an upper recess defined in said power frame lower element and said power frame upper element, respectively; andsaid lower and said upper tabs being insertable into said lower and upper recesses, respectively, for securing said curved beam to said power frame. 14. An improved frame for a rotary wing aircraft as set forth in claim 11, wherein said coupling comprises a lower tab and an upper tab extending from said lower and said upper edge of said curved beam, respectively; a lower and an upper recess defined in said power frame lower element and said power frame upper element, respectively;said lower and said upper tabs being insertable into said lower and said upper recesses for securing said curved beam to said power frame; anda plurality of supports interconnecting said power frame lower element to said power frame upper element for applying a compressive force between said power frame lower element and said power frame upper element for maintaining insertion of said lower and said upper tabs into said lower and said upper recesses in said power frame lower element and said power frame upper element. 15. An improved frame for a rotary wing aircraft as set forth in claim 11, including a first, a second and a third support interconnecting said power frame lower element to said power frame upper element; said first, second and third supports applying a compressive force between said power frame lower element and said power frame upper element to secure said lower and said upper edge of said curved beam to said power frame lower element and said power frame upper element. 16. An improved frame for a rotary wing aircraft as set forth in claim 11, including a first, a second and a third support located between said power frame lower element and said power frame upper element; one of said first, second and third supports being offset relative to the other of said first, second and third supports; andsaid curved beam being positioned along said first, second and third supports for accommodating the curve of said curved beam. 17. An improved frame for a rotary wing aircraft as set forth in claim 11, wherein said power frame is substantially rectangular. 18. An improved frame for a rotary wing aircraft as set forth in claim 11, wherein said power frame is substantially rectangular extending longitudinally between a first and a second end and bounded by a first and a second edge; and said curved beam including a first and second curved beam extending longitudinally between said first and second ends and located adjacent to said first and second edges, respectively. 19. An improved frame for a rotary wing aircraft as set forth in claim 1, wherein said curved beam includes a first and second curved beam extending longitudinally between said first and second ends and located adjacent to said first and second edges, respectively; and said first and second curved beams being a mirror image of one another.
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