Provided is a technique with which not only local observation of a subject eye but also global observation can be performed suitably. An ophthalmological imaging device according to an embodiment comprises an optical system, a formation unit, a division unit, a setting unit, and a display control unit. The optical system divides light from a light source into signal light and reference light, and detects interference light between the signal light which has passed through a subject eye and the reference light which has passed through a reference light path. The formation unit forms an image of the subject eye on the basis of the result of detecting the interference light by the optical system. The division unit divides the image formed by the formation unit into a plurality of partial regions. The setting unit sets display conditions for the respective partial regions acquired by the division unit. The display control unit displays, on a display means, the image formed by the formation unit in accordance with the display conditions that have been set by the setting unit.
