Direct-light generator for sun-sky-imitating illumination devices

The invention claimed is: 1. A direct-light generator for sun-sky-imitating illumination devices configured for generating natural light similar to that from the sun and the sky, comprising: a first emitting surface and an array of light-emitting devices configured to generate a direct light which exits the first emitting surface along a direct-light direction, wherein the direct light exiting the first emitting surface has a luminance profile (Ldirect(x, y, θ, φ)) which has a peak in an angular distribution around the direct-light direction and is uniform across the first emitting surface, wherein each light-emitting device comprises a light emitter having an emitting surface and at least a pair of collimation lenses illuminated by the light emitter, each pair of collimation lenses comprising a pre-collimation lens comprising a light inlet surface facing the light emitter emitting surface and a light outlet surface, the pre-collimation lens being positioned proximal to the light emitter and a collimation lens comprising a light input surface and a light output surface, the collimation lens being positioned distal from the light emitter, the light emitter and the pre-collimation lens being housed in a hollow housing which is at least partially made of or internally coated with light absorbing material and has at least an aperture where the collimation lens is positioned, wherein the pre-collimation lens of each pair of collimation lenses is configured to emit with a substantially angularly constant intensity within an emission cone and to uniformly illuminate a whole light input surface of the collimation lens of the pair of collimation lenses, wherein, with the pre-collimation lens having a pre-collimation lens height (b 2 ), and a base of the input surface of the collimation lens being spaced apart from a base of the inlet surface of the pre-collimation lens of a lenses distance (h), the ratio (b 2 /h) between the pre-collimation lens height (b 2 ) and the lenses distance (h) is in the range of 0.2-0.8, in the range between 0.25-0.75, or in the range between 0.3-0.7; and/or wherein, with the pre-collimation lens having a pre-collimation lens maximum width (b 1 ) and the collimation lens having a collimation lens maximum width (C), the ratio (b 1 /C) between the pre-collimation lens maximum width (b 1 ) and the collimation lens maximum width (C) is in the range of 0.3-0.85, in the range between 0.35-0.75, or in the range between 0.4-0.7. 2. The direct-light generator of claim 1 , wherein the ratio (C/h) between the collimation lens maximum width (C) and the lenses distance (h) and the ratio (b 1 /b 2 ) between the pre-collimation lens maximum width (b 1 ) and the pre-collimation lens height (b 2 ) is in the range between 0.8-1.6, in the range between 0.85 and 1.4, or in the range between 0.90 and 1.3; and/or wherein the ratio (a 1 /b 1 ) between a width (a 1 ) of the light emitter emitting surface and the pre-collimation lens maximum width (b 1 ) is between 0.2 (1:5) and 0.04 (1:25). 3. The direct-light generator of claim 1 , wherein the light emitter emitting surface is spaced apart from the light inlet surface of the pre-collimation lens by a gap (d) lower than a maximum value that is between 0.01 and 0.04 times the lenses distance (h), 0.015-0.035 times the lenses distance (h), or substantially equal to 0.025 times the lenses distance (h). 4. The direct-light generator of claim 1 , wherein the light output surface of the collimation lens is convex-curved. 5. The direct-light generator of claim 4 , wherein the pre-collimation lens has a first optical axis (O P ) and the light outlet surface of the pre-collimation lens has a first radius of curvature (r 1 ) measured at the first optical axis (O P ), and the collimation lens has a second optical axis (O C ) and the light output surface of the collimation lens has a second radius of curvature (r 2 ) measured at the second optical axis (O C ), wherein a ratio (r 2 /r 1 ) between the second radius of curvature (r 2 ) of the light output surface of the collimation lens and the first radius of curvature (r 1 ) of the light outlet surface of the pre-collimation lens ranges between 1.5 and 6, or between 1.5 and 10. 6. The direct-light generator of claim 5 , wherein the light input surface of the collimation lens has a third radius of curvature (r 3 ) measured at the second optical axis (O C ), the third radius of curvature (r 3 ) being larger than the second radius of curvature (r 2 ) of the light output surface of the collimation lens, larger than three times the second radius of curvature (r 2 ) of the light output surface of the collimation lens, larger than five times the second radius of curvature (r 2 ) of the light output surface of the collimation lens, or larger than ten times the second radius of curvature (r 2 ) of the light output surface of the collimation lens. 7. The direct-light generator of claim 1 , wherein the light outlet surface of the pre-collimation lens and/or the light output surface of the collimation lens have a spherical or an aspheric profile. 8. The direct-light generator of claim 1 , wherein the hollow housing is internally coated or made of light absorbing material having an absorption coefficient for visible light greater than 70%, greater than 90%, or greater than 95%; and/or comprises at least one perimetric baffle structure projecting from an inner wall of the hollow housing towards the inside of the hollow housing and configured to prevent that pre-collimated light exiting the light outlet surface of the pre-collimation lens impinges onto the inner wall of the hollow housing. 9. The direct-light generator of claim 8 , wherein the at least one perimetric baffle structure is positioned more proximal to the input surface of the collimation lens than to the inlet surface of the pre-collimation lens, the first baffle structure is positioned at a distance from the input surface of the collimation lens which is less than half of the lenses distance (h), or at a distance from the input surface of the collimation lens that is less than a third of the lenses distance (h). 10. The direct-light generator of claim 8 , wherein the at least one perimetric baffle structure has a wedge-shaped cross-section with a side of the perimetric baffle structure facing the pre-collimation lens being parallel to the collimation lens inlet surface base. 11. The direct-light generator of claim 1 , wherein the concave-curved light inlet surface of the pre-collimation lens has an aspheric profile. 12. The direct-light generator of claim 1 , wherein the pre-collimation lens is at least one of: a singlet made of a thermoplastic polymer; a glass doublet; and a thermoplastic polymer doublet. 13. A direct-light generator comprising: an array of light-emitting devices configured to generate, from a primary light, a direct light which exits a first emitting surface along a direct-light direction, wherein the direct light exiting the first emitting surface has a luminance profile which has a peak in an angular distribution around the direct-light direction and is uniform across the first emitting surface, wherein each light-emitting device comprises a light emitter having an emitting surface and at least a pair of collimation lenses illuminated by the light emitter, each pair of collimation lenses comprising a pre-collimation lens comprising a light inlet surface facing the light emitter emitting surface and a light outlet surface, the pre-collimation lens being positioned proximal to the light emitter and a collimation lens comprising a light input surface and a light output surface, the collimation lens being pos