Negative spring compensation for elastomeric bearing torque
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-013/04
B64C-027/35
F16F-003/12
G05G-005/05
출원번호
US-0008776
(2016-01-28)
등록번호
US-10000283
(2018-06-19)
발명자
/ 주소
Hinks, William L.
출원인 / 주소
Hinks, William L.
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
Elastomeric bearings exhibit a reactive positive spring effect, i.e., they produce an opposing torque or force when angular displacement or translation is applied upon them, due to shear stress developed within their elastomer parts. The present invention incorporates a device that exhibits an incre
Elastomeric bearings exhibit a reactive positive spring effect, i.e., they produce an opposing torque or force when angular displacement or translation is applied upon them, due to shear stress developed within their elastomer parts. The present invention incorporates a device that exhibits an increasingly strong torque or force in the same direction as the displacement, i.e., a negative spring, under similar conditions of movement. When properly calibrated, the subject type of device can be used in paralleled motion with the ordinary reactive elastomeric bearing to produce a combined effect in which at least a part of the torque or force of the elastomeric bearing is compensated or minimized over a range of movement, particularly in helicopter rotor blade retention applications.
대표청구항▼
1. A force compensation system for a helicopter having a frame, rotor blades, and collective control means including a collective pitch linkage and swash plate, comprising: blade retention means such that each said blade has two opposed loading members and has a combined positive spring rate, neutra
1. A force compensation system for a helicopter having a frame, rotor blades, and collective control means including a collective pitch linkage and swash plate, comprising: blade retention means such that each said blade has two opposed loading members and has a combined positive spring rate, neutral position, and operating range, andnegative spring means having a negative spring rate and a neutral position, comprising:at least one elongated member or pusher having two opposed ends, anda source of force imposing compressive force between said ends of each of said elongated members, andtwo receiving and supporting members that moveably support and respectively each receive force applied by one of said two ends and experience lateral movement relative to each other, andsaid two receiving and supporting members of said negative spring means are respectively mechanically coupled together with said two opposed loading members of each said blade retention means such that any said relative lateral movement imparted to said receiving and supporting members of said negative spring means is experienced substantially proportionately as collective pitch movement between said two opposed loading members of each said blade retention means,whereby the combined torque developed upon said blade retention means accountable to their said positive spring rate is at least partially compensated by the torque developed by said negative spring rate of said negative spring means. 2. The force compensation system of claim 1 wherein a said receiving and supporting member includes at least one lever arm having a point of application of force from said at least one elongated member, whereby a component of tangential force is created upon said point of application, and said lever arm is connected to and moves substantially proportionately with respect to said collective pitch linkage movement. 3. The collective pitch force compensation system of claim 1 wherein said negative spring means is implemented by a device that is mounted to said frame acting as said supporting member and has an output shaft acting as said receiving member that transfers its negative rate torque to said collective pitch linkage. 4. The collective pitch force compensation system of claim 1 wherein said negative spring means is implemented by at least one pusher linked on one end to said frame acting as said supporting member and to an attachment point on a lever acting as said receiving member within said collective pitch linkage. 5. The collective pitch force compensation system of claim 1 wherein said negative spring means is implemented by at least one puller that acts upon an attachment point on a lever to create said compressive force on said lever acting as said receiving member and said elongated member within said collective pitch linkage, the center of rotation of said lever being supported by said frame acting as said supporting member. 6. The force compensation system of claim 1 wherein said retention means for each said blade is provided by an elastomeric bearing. 7. The force compensation system of claim 1 wherein said retention means for each said blade is provided by a tension-torsion strap. 8. The collective pitch force compensation system of claim 1 wherein said negative spring means has a said negative rate that is less in the absolute sense than said positive rate of said retention means. 9. The collective pitch force compensation system of claim 1 wherein said neutral position of negative spring means does not coincide with said neutral position of said blade retention means. 10. A collective pitch force compensation system for a helicopter having a frame, rotor blades, and collective control means including means for originating control movements having an origin, and having a collective pitch linkage and swash plate, comprising: blade retention means having a combined positive spring rate and a neutral position, andnegative spring means having a negative spring rate and a neutral position as experienced at said origin of said control movements and being functionally connected between said helicopter frame and said collective pitch linkage at a point between said origin of said control movements and said swash plate, and being calibrated to passively reduce forces upon said origin of said control movements.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (2)
Kastan Howard (Northridge CA), Advanced control system for a rotor and/or a compound or rotary wing vehicle.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.