1. An intraocular lens implant that contains a first viewing element (12) and a second viewing element (13), a spring element (14) for changing the distance between the first and second viewing elements (12, 13) along the optical axis (A-A ') of the implant (11) the lens for changing the focal length of the implant (11) the lens in which the implant (11) of the lens is designed to take a shape suitable for long-distance vision when the spring element (14) is in its relaxed state, while spring rate The leg member (14) has a value such that the force exerted by a capsule (2) for holding the lens of the eye implant (11) of the lens, translates the spring element (14) from its relaxed state to the strained sostoyanie.2. An intraocular lens implant, comprising: a first viewing element (12) and a second viewing element (13), a spring element (14) for changing the distance between the first and second viewing elements (12, 13) along the optical axis (A-A ') of the implant ( 11) the lens to change the focal length of the lens implant (11), while the lens implant (11) is designed to take a shape suitable for long-distance vision when the spring element (14) is in its relaxed state, and the coefficient spring stiffness element (14) has a value of less than 550 mN / mm. 3. The intraocular lens implant according to claim 2, wherein the lens implant (11) is designed to take a shape suitable for viewing at a short distance when the spring element (14) is in tension, so that the distance between the first and second viewing elements1. Внутриглазной имплант хрусталика, который содержитпервый смотровой элемент (12) и второй смотровой элемент (13),пружинный элемент (14) для изменения расстояния между первым и вторым смотровыми элементами (12, 13) вдоль оптической оси (A-A') импланта (11) хрусталика для изменения фокусного расстояния импланта (11) хрусталика,в котором имплант (11) хрусталика разработан для того, чтобы принимать форму, подходящую для зрения на большом расстоянии, когда
