Abstract: A telecentric lens comprises a front optical group adapted to receive rays coming from an observed object, a rear optical group, adapted to convey said rays towards an image plane of a sensor, and a lens aperture positioned between the front optical group and the rear lens group, wherein the lens aperture lies on the focal plane at least of the front optical group. The front optical group is devoid of lenses and is consists of a concave curved primary mirror adapted to receive and reflect the rays coming from the observed object, and at least one secondary mirror adapted to receive and reflect towards the rear optical group the rays coming from the primary mirror.
Abstract: A telecentric lens comprises a front optical group (20) defining a front optical axis (k), at least a first rear optical group (40), defining a rear optical axis (k?), and at least one lens aperture (30) positioned between the front optical group 20 and a respective rear optical group. Between the front optical group (20) and the lens aperture (30) are inserted at least two reflective or semi-reflective elements arranged in such a way that at least a part of the rays coming from the front optical group undergoes at least one double reflection before reaching the rear optical group (40).
Abstract: A method and a device for the optical viewing of objects, the method comprising the stages of illuminating an object with ultraviolet radiation, and acquiring an image of the object thereby illuminated using a lens comprising at least a forward optical group and an aperture diaphragm exhibiting a transparent window located at a focal point of the forward optical group defined for the ultraviolet radiation.
Abstract: A telecentric lens comprises a front optical group (20) defining a front optical axis (k), at least a first rear optical group (40), defining a rear optical axis (k?), and at least one lens aperture (30) positioned between the front optical group 20 and a respective rear optical group. Between the front optical group (20) and the lens aperture (30) are inserted at least two reflective or semi-reflective elements arranged in such a way that at least a part of the rays coming from the front optical group undergoes at least one double reflection before reaching the rear optical group (40).