A movement simulator 100 has at least three translational degrees of freedom and has at least three actuator assemblies 106, 108, 110 each of which having a four bar parallelogram/trapezoidal link arrangement. A stiffener 214 is also disclosed.
대표청구항▼
1. A movement simulator (100) comprising: a base (102);a movable support (104) positioned above the base (102) in use;at least three movable support actuation assemblies (106, 108, 110) connecting the base to the movable support (104), each movable support actuation assembly (106, 108, 110) comprisi
1. A movement simulator (100) comprising: a base (102);a movable support (104) positioned above the base (102) in use;at least three movable support actuation assemblies (106, 108, 110) connecting the base to the movable support (104), each movable support actuation assembly (106, 108, 110) comprising:an actuator (138);a first link (184) having a first end connected to the base (102) such that the first end of the first link (184) is drivable by the actuator to describe an at least part circular locus about a first axis (X);a second link (186) having a first end connected to the base (102) such that the first end of the second link (186) is drivable by the actuator to describe an at least part circular locus about the first axis (X);in which the first and second links (184, 186) are connected to the movable support (104) at respective second ends;in which the first and second links (184, 186) comprise universal joints (180, 182) at each of their first and second respective ends;in which the respective first ends of the first and second links (184, 186) are spaced apart; and,in which respective second ends of the first and second links (184, 186) are spaced apart. 2. A movement simulator (100) according to claim 1, in which the movable support is a platform. 3. A movement simulator (100) according to claim 1, in which at least one movable support actuation assembly (106, 108, 110) comprises: a first crank (176) mounted to the base for rotation about the first axis (X), which first crank (176) is connected to the universal joint (180) at the first end of the first link (184). 4. A movement simulator (100) according to claim 3, in which at least one movable support actuation assembly (106, 108, 110) comprises an axle (158) mounted to the base for rotation about the first axis, and the first crank (176) extends radially from the axle. 5. A movement simulator (100) according to claim 4, in which at least one movable support actuation assembly (106, 108, 110) comprises a second crank (178) extending radially from the axle (158), which second crank (178) is connected to the universal joint (182) at the first end of the second link (186). 6. A movement simulator (100) according to claim 4, in which in at least one movable support actuation assembly (106, 108, 110) the actuator directly drives the axle (158). 7. A movement simulator (100) according to claim 4, in which at least one movable support actuation assembly (106, 108, 110) comprises a driving crank (166) extending radially from the axle (158), which driving crank (166) is driven by the actuator (138). 8. A movement simulator (100) according to claim 7, in which in at least one movable support actuation assembly (106, 108, 110) the driving crank (166) is driven by a push rod (148), which in turn is driven by an actuator crank (142) driven in rotation by the actuator (138). 9. A movement simulator (100) according to claim 8, in which in at least one movable support actuation assembly (106, 108, 110) the actuator crank (142) is arranged to be driven through 360 degrees. 10. A movement simulator (100) according to claim 1, in which in at least one movable support actuation assembly (106, 108, 110): the first link (184) has a first length;the second link (186) has a second length; and,in which the distance between the first respective ends of the links, and the second respective ends of the links is greater than either the first length or the second length. 11. A movement simulator (100) according to claim 1 comprising at least one stiffening assembly (192) forming a load path between the base and the movable support independent of the movable support actuation assemblies (106, 108, 110). 12. A movement simulator (100) according to claim 11 in which the stiffening assembly (192) comprises a resilient member (200) which is less stiff in translation than rotation. 13. A movement simulator (100) according to claim 1, in which in at least one movable support actuation assembly (106, 108, 110): the first link (184) and the second link (186) have the same length. 14. A movement simulator (100) according to claim 13, in which in at least one movable support actuation assembly (106, 108, 110): the respective first ends of the first and second links (184, 186) are spaced apart by a distance; and,the respective second ends of the first and second links (184, 186) are spaced apart by the same distance as the respective first ends. 15. A movement simulator (100) according to claim 13, in which in at least one movable support actuation assembly (106, 108, 110): the respective first ends of the first and second links (184, 186) are spaced apart by a first distance; and,the respective second ends of the first and second links (184, 186) are spaced apart by a second distance, different to the first distance.
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이 특허에 인용된 특허 (8)
Yasuda Osamu (Yokosuka JPX), Hydrostatic bearing type coupling for use in vibrating machine.
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