1. An ocular implant comprising: an intraocular lens (IOL), configured to transmit optical energy, wherein the IOL comprises: a first optical membrane; a second optical membrane; a fluid located between the first optical membrane and the second optical membrane; at least one reservoir for fluid, configured to add fluid to or divert fluid from a fluid located between the first optical membrane and the second optical membrane; a diaphragm connecting the ciliary muscles of the eye, at least th least one reservoir for fluid, wherein the reduction or relaxation of the ciliary muscles causes the at least one liquid reservoir to add or withdraw liquid from the liquid located between the first optical membrane and second optical membrane; sets of haptic elements attached to the IOL, and configured to place the IOL inside the eye. 2. An ophthalmic implant according to claim 1, wherein the fluid comprises a high surface tension fluid surrounded by a hydrophobic fluid. An ocular implant according to claim 1, in which the contraction or relaxation of the ciliary muscles changes the internal pressure of the fluid located between the first optical membrane and the second optical membrane, while the internal pressure affects the curvature of the first optical membrane and the second optical membrane. An ocular implant according to claim 1, further comprising a membrane / transparent lens operable to isolate the ocular implant from the inside of the eye. The eye implant according to claim 1, in which the haptic elements are rotated at an angle of approximately 2.2 ° to the plane1. Глазной имплантат, содержащий: внутриглазную линзу (ИОЛ), выполненную с возможностью передавать оптическую энергию, причем ИОЛ содержит:первую оптическую мембрану;вторую оптическую мембрану;жидкость, находящуюся между первой оптической мембраной и второй оптической мембраной;по меньшей мере, один резервуар для жидкости, выполненный с возможностью добавить жидкость к или отводить жидкость из жидкости, расп
