Device for checking tyres

1 .- 38 . (canceled) 39 . A device for checking a tyre in a tyre production line, comprising: a detection system comprising a camera having a target line lying on an optical plane passing through said camera; a first light source, a second light source and a third light source, said second light source and said third light source being arranged at opposite sides with respect to said optical plane and symmetrically with respect to said first light source, said first light source being adapted for emitting a first diffused light radiation on said surface portion, said second light source and third light source being adapted for emitting a second grazing light radiation and a third grazing light radiation on a surface portion of said tyre coinciding with or close to said target line; and a reflective element defining a reflective plane arranged perpendicular to said optical plane, said reflective element being arranged between said second light source and third light source, said reflective element being adapted for reflecting said target line by an angle comprised between about 60° and about 120° and wherein a minimum distance between said reflective plane and a focusing plane of said camera passing through said reflected target line is smaller than a minimum distance between one of said first light source, second light source and third light source and said focusing plane. 40 . The device according to claim 39 , wherein said minimum distance between said reflective plane and said focusing plane of said camera passing through said reflected target line is smaller than each minimum distance between said first light source, second light source and third light source and said focusing plane. 41 . The device according to claim 40 , wherein said first light source includes a first sub-source and a second sub-source, said first sub-source and said second sub-source being arranged symmetrically with respect to said optical plane. 42 . The device according to claim 41 , wherein said second light source and said third light source each comprise a single sub-source. 43 . The device according to claim 41 , wherein said first sub-source and said second sub-source of said first light source are coplanar and define a plane substantially parallel to the focusing plane. 44 . The device according to claim 43 , wherein a distance between said focusing plane and a plane passing through said first sub-source and said second sub-source is comprised between about 85 mm and about 95 mm. 45 . The device according to claim 44 , wherein said first light source includes a third sub-source and a fourth sub-source, said third sub-source and said fourth sub-source being arranged symmetrically with respect to said optical plane. 46 . The device according to claim 45 , wherein said third sub-source and said fourth sub-source are coplanar and define a plane substantially parallel to the focusing plane. 47 . The device according to claim 46 , wherein a distance between said focusing plane and a plane passing through said third sub-source and said fourth sub-source is comprised between about 75 mm and about 85 mm. 48 . The device according to claim 47 , wherein a distance between said first light source and said focusing plane is greater than a distance between said second light source and said focusing plane or between said third light source and said focusing plane. 49 . The device according to claim 48 , wherein said second light source and said third light source are coplanar and define a plane substantially parallel to the focusing plane. 50 . The device according to claim 49 , wherein a distance between a plane parallel to said focusing plane and passing through a sub-source of said first light source and a plane parallel to said focusing plane and passing through said second light source and said third light source is comprised between about 10 mm and about 40 mm. 51 . The device according to claim 50 , wherein at least one of said sub-sources of said first light source or of said second light source or of said third light source defines a main direction of extension substantially parallel to said optical plane. 52 . The device according to claim 51 , wherein all of the sub-sources of said first light source, of said second light source and of said third light source define a main direction of extension substantially parallel to said optical plane. 53 . The device according to claim 52 , wherein said reflective plane defines a main direction of extension substantially parallel to said optical plane. 54 . The device according to claim 53 , wherein along said main direction of extension one of: said first sub-source, said second sub-source, said third sub-source, said fourth sub-source of said first light source, said second light source, said third light source or said reflective plane has a substantially rectilinear configuration. 55 . The device according to claim 54 , wherein a length along the main direction of extension of said reflective plane is greater than a length along the main direction of extension of one of: said first sub-source, said second sub-source, said third sub-source, said fourth sub-source of said first light source, said second light source or said third light source. 56 . The device according to claim 55 , wherein the length of i) one among: said first sub-source, said second sub-source, said third sub-source and said fourth sub-source of said first light source and of ii) said second light source, or the length of i) one among: said first sub-source, said second sub-source, said third sub-source and said fourth sub-source of said first light source and of ii) said third light source, is substantially the same. 57 . The device according to claim 56 , wherein said second light source and said third light source are arranged symmetrically with respect to said optical plane. 58 . The device according to claim 57 , comprising a drive and control unit configured to: selectively activate at least one among said first light source, second light source and third light source, and activate said camera to acquire a respective two-dimensional image of said surface portion in synchrony with the activation of said at least one among said first light source, second light source and third light source. 59 . The device according to claim 58 , wherein said drive and control unit is adapted for controlling said detection system to acquire three distinct images, each image corresponding to the switching on of a different light source among said first light source, said second light source and said third light source. 60 . The device according to claim 59 , wherein said reflective element is adapted for reflecting said target line by an angle of about 90°. 61 . The device according to claim 60 , wherein said reflective element includes a reflective layer defining said reflective plane, said reflective layer being an outermost layer of said reflective element on which an optical path of a light radiation directed to said camera reflects. 62 . The device according to claim 61 , including a first support to which said camera is fixed. 63 . The device according to claim 62 , wherein said drive and control unit is fixed to said first support. 64 . The device according to claim 63 , including a second support to which said first light source, said second light source and sai