Counterbalance mechanism for bottom-hinged aircraft fuselage doors
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-001/14
E05D-013/00
출원번호
US-0682607
(2012-11-20)
등록번호
US-9033277
(2015-05-19)
발명자
/ 주소
Berthoud, Marcelo
출원인 / 주소
EMBRAER S.A.
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
1인용 특허 :
8
초록▼
A counterbalance mechanism for counterbalancing weight of a bottom-hinged door (such as a clamshell-type airstair door of an aircraft) includes an operator handle, a hoist rod pivotally connected at one end to the operator handle and at an opposite end thereof to the door near a bottom region thereo
A counterbalance mechanism for counterbalancing weight of a bottom-hinged door (such as a clamshell-type airstair door of an aircraft) includes an operator handle, a hoist rod pivotally connected at one end to the operator handle and at an opposite end thereof to the door near a bottom region thereof. A force accumulator assembly is provided which includes a force biasing member which accumulates and dissipates a bias force when opening and closing the door, respectively, to provide mechanical counterbalance to the weight of the door. A bellcrank assembly operatively connects the operator handle to the force accumulator. In such a manner, weight counterbalancing of the door is achieved.
대표청구항▼
1. A counterbalance mechanism for counterbalancing weight of a bottom hinged door comprising: an operator handle;a hoist rod pivotally connected at one end to the operator handle and at an opposite end thereof to the door near a bottom region thereof;a force accumulator assembly including a force bi
1. A counterbalance mechanism for counterbalancing weight of a bottom hinged door comprising: an operator handle;a hoist rod pivotally connected at one end to the operator handle and at an opposite end thereof to the door near a bottom region thereof;a force accumulator assembly including a force biasing member which accumulates and dissipates a bias force when opening and closing the door, respectively, to provide mechanical counterbalance to the weight of the door; anda bellcrank assembly operatively interconnecting the operator handle to the force accumulator as an inverse parallelogram linkage, wherein the bellcrank assembly includes a first bellcrank fixed to the operator handle, second and third bellcranks fixed to one another, and a link arm pivotally interconnecting the first and second bellcranks, whereinrotational movement of the operator handle in one of counterclockwise and clockwise directions is translated by the first bellcrank into rotational movement of the second and third bellcranks in clockwise and counterclockwise directions to thereby cause a loading and unloading of biasing force of the force biasing member, respectively. 2. The mechanism of claim 1, wherein the bellcrank assembly comprises a fixed-position lower bearing block having a lower bearing shaft, wherein an end of each of the operator handle and the first bellcrank is fixed to the lower bearing shaft so the operator handle and the first bellcrank rotate as a unit with one another and with the lower bearing shaft. 3. The mechanism of claim 1 or 2, wherein the bellcrank assembly comprises a fixed position upper bearing block having an upper bearing shaft, wherein respective ends of the second and third bellcranks are fixed to the upper bearing shaft so the second and third bellcranks rotate as a unit with one another and with the lower bearing shaft. 4. A method of providing weight counterbalancing for an aircraft door comprising installing in an aircraft having a bottom-hinged clamshell-type door a counterbalance mechanism as in claim 1, and operatively connecting the counterbalance mechanism to the aircraft door. 5. An aircraft door comprising a counterbalance mechanism as in claim 1. 6. An aircraft door as in claim 5, wherein the aircraft door is an airstair door. 7. The mechanism of claim 1, wherein the biasing member comprises a compression spring. 8. The mechanism of claim 7, wherein the compression spring is mounted between lower and upper spring caps. 9. The mechanism of claim 8, wherein the force accumulator comprises a piston assembly, and wherein the compression spring coaxially surrounds the piston assembly. 10. An aircraft comprising: a fuselage having a doorway entrance;a bottom hinged aircraft door for opening and closing the fuselage doorway entrance; anda counterbalance mechanism operatively interconnecting the aircraft door and the fuselage, wherein the counterbalance mechanism comprises:(i) an operator handle;(ii) a hoist rod pivotally connected at one end to the operator handle and at an opposite end thereof to the aircraft door near a bottom region thereof;(iii) a force accumulator assembly including a force biasing member which accumulates and dissipates bias force when opening and closing the door, respectively, to provide mechanical counterbalance to the weight of the door; and(iv) a bellcrank assembly operatively interconnecting the operator handle to the force accumulator as in inverse parallelogram linkage, wherein the bellcrank assembly includes a first bellcrank fixed to the operator handle, second and third bellcranks fixed to one another, and a link arm pivotally interconnecting the first and second bellcranks, whereinrotational movement of the operator handle in one of counterclockwise and clockwise directions is translated by the first bellcrank into rotational movement of the second and third bellcranks in clockwise and counterclockwise directions to thereby cause a loading and unloading of biasing force of the force biasing member, respectively. 11. The mechanism of claim 10, wherein the bellcrank assembly comprises a fixed-position lower bearing block having a lower bearing shaft, wherein an end of each of the operator handle and the first bellcrank is fixed to the lower bearing shaft so the operator handle and the first bellcrank rotate as a unit with one another and with the lower bearing shaft. 12. The mechanism of claim 10 or 11, wherein the bellcrank assembly comprises a fixed position upper bearing block having an upper bearing shaft, wherein respective ends of the second and third bellcranks are fixed to the upper bearing shaft so the second and third bellcranks rotate as a unit with one another and with the lower bearing shaft. 13. An aircraft door as in claim 10, wherein the aircraft door is an airstair door. 14. The mechanism of claim 10, wherein the biasing member comprises a compression spring. 15. The mechanism of claim 14, wherein the compression spring is mounted between lower and upper spring caps. 16. The mechanism of claim 15, wherein the force accumulator comprises a piston assembly, and wherein the compression spring coaxially surrounds the piston assembly. 17. A counterbalance mechanism for a bottom-hinged clamshell-type airstair door comprising: upper and lower bearing blocks having upper and lower bearing block shafts defining respective parallel upper and lower rotational axes, respectively;an operator handle and a first bellcrank fixed to the lower bearing block shaft such that the operating handle and first bellcrank rotate as a unit with one another and with the lower bearing block shaft about the lower rotational axis defined thereby;second and third bellcranks fixed to the upper bearing block shaft such that the second and third bellcranks rotate as a unit with one another and with the upper bearing block shaft about the upper rotational axis defined thereby;a link arm operatively connecting the first and second bellcranks such that rotational movement of the operator handle in one of counterclockwise and clockwise directions is translated by the first bellcrank into rotational movement of the second and third bellcranks in clockwise and counterclockwise directions, respectively; anda force accumulator assembly including a biasing spring which accumulates and dissipates bias force when opening and closing the door, respectively, to provide mechanical counterbalance to the weight of the door, whereinthe force accumulator assembly is operatively connected to the third bellcrank such that rotational movement of the third bellcrank in one of the clockwise and counterclockwise directions responsively causes a spring biasing force to be loaded and unloaded, respectively, by the biasing spring. 18. The counterbalancing mechanism of claim 17, further comprising a hoist rod having one end pivotally connected to the operator handle and an opposite end pivotally connected to the airstair door. 19. An aircraft which comprises a bottom-hinged clamshell-type airstair door and a counterbalance mechanism as in claim 17 operatively connected to the airstair door. 20. A method of providing weight counterbalancing for an aircraft airstair door comprising installing in an aircraft having a bottom-hinged clamshell-type airstair door a counterbalance mechanism as in claim 17, and operatively connecting the counterbalance mechanism to the airstair door. 21. The counterbalancing mechanism of claim 17, wherein the biasing spring is a compression spring. 22. The counterbalancing mechanism of claim 21, wherein the force accumulator further comprising a piston assembly, and wherein the compression spring coaxially surrounds the piston assembly. 23. The counterbalancing mechanism of claim 22, wherein the force accumulator further comprises upper and lower end caps, wherein the compression spring is mounted between the upper and lower end caps.
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이 특허에 인용된 특허 (8)
Moses ; Brian Keith, Aircraft door counterbalance system.
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