An accommodating intraocular lens implant (10) is provided that is shaped so as to be assemblable into an assembled state in situ in a capsular bag of a human eye, and includes an anterior floating lens unit (24), which comprises an anterior lens (26); a posterior lens unit (50), which comprises a posterior lens (52); an anterior rim (44); levers (30), arranged to move the anterior floating lens unit (24) toward and away from the anterior rim (44), in an anterior-posterior direction; and a circumferential rim (48), which is attached to the levers (30). The lens implant (10) is arranged such that in the assemble state: elastic potential energy is stored in the lens implant (10) as a result of deformation of the lens implant (10) during a transition from a fully-accommodated state to a fully-unaccommodated state, and at least 50% of the elastic potential energy stored in the lens implant (10) as the result of the deformation is stored in the circumferential rim (48).
