Luminous signaling glazing unit, vehicle incorporating same and manufacture

The invention claimed is: 1. A vehicle luminous signaling glazing unit forming a vehicle front windshield comprising: a laminated glazing unit including: a first glazing pane, forming an exterior glazing pane, with first and second main faces; a lamination interlayer made of a polymeric material of thickness e 1 of at most 1.8 mm; and a second glazing pane, forming an interior glazing pane, with third and fourth main faces, the second main face of the first glazing pane and the third main face of the second glazing pane being the internal faces of the laminated glazing unit; and a set of inorganic light-emitting diodes positioned on a front face, facing the third main face of the second glazing pane, of a PCB printed circuit board, an assembly of the PCB printed circuit board and inorganic light-emitting diodes being of total thickness et 2 , the inorganic light-emitting diodes being of thickness e 2 and the PCB printed circuit board being of thickness e′ 2 , each light-emitting diode having an emitting face configured to emit in a direction of the interior glazing pane, and each light-emitting diode having an edge face, the inorganic light-emitting diodes being configured to emit signaling light, the lamination interlayer having a through-aperture, wherein for each of the light-emitting diodes, the lamination interlayer comprises a through-aperture encircling the edge face of the light-emitting diode and wherein the lamination interlayer is between the third main face of the second glazing pane and the front face of the PCB printed circuit board and wherein et 2 ≤e 1 . 2. A vehicle luminous signaling glazing unit, chosen from a rear windshield and a side window, comprising: a laminated glazing unit including: a first glazing pane, forming an exterior glazing pane, with first and second main faces; a lamination interlayer made of a polymeric material of thickness e 1 of at most 1.8 mm; and a second glazing pane, forming an interior glazing pane, with third and fourth main faces, the second main face of the first glazing pane and the third main face of the second glazing pane being internal faces of the laminated glazing unit; and a set of inorganic light-emitting diodes positioned on a front face, facing the second main face of the first glazing pane, of a PCB printed circuit board, an assembly of the PCB printed circuit board and inorganic light-emitting diodes being of total thickness et 2 , the inorganic light-emitting diodes being of thickness e 2 and the PCB printed circuit board being of thickness e′ 2 , each light-emitting diode having an emitting face configured to emit in a direction of the exterior glazing pane, and each light-emitting diode having an edge face, the inorganic light-emitting diodes being configured to emit signaling light, the lamination interlayer having a through-aperture, wherein for each of the light-emitting diodes, the lamination interlayer comprises a through-aperture encircling the edge face of the light-emitting diode, wherein the lamination interlayer is between the second main face of the first glazing pane and the front face of the PCB printed circuit board and wherein et 2 ≤e 1 . 3. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the lamination interlayer is spaced apart by at most 0.5 mm from the edge face of the light-emitting diodes. 4. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein e 1 is subcentimeter-sized and e 1 −et 2 <0.5 mm. 5. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein each light-emitting diode is an electronic component including a semiconductor chip, and is equipped with a peripheral package encapsulating the edge face of the electronic component, said package defining the edge face of the light-emitting diode, projecting over the front face of the component and encircling the semiconductor chip, and wherein the lamination interlayer extends as far as to be between a front surface of the package and the third main face of the second glazing pane of the front windshield without making contact with the emitting face. 6. The vehicle luminous signaling glazing unit as claimed in claim 2 , wherein each light-emitting diode is an electronic component including a semiconductor chip, and is equipped with a peripheral package encapsulating the edge face of the electronic component, said package defining the edge face of the light-emitting diode, projecting over the front face of the component and encircling the semiconductor chip, and wherein the lamination interlayer extends as far as to be between a front surface of the package and the second main face of the first glazing pane without making contact with the emitting face. 7. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the lamination interlayer is made of PVB with e 1 ranging from 0.7 to 0.9 mm, the light-emitting diodes are components surface mounted on the front face of the PCB printed circuit board, e′ 2 being at most 0.15 mm. 8. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the PCB printed circuit board is adhesively bonded or pressed against the second main face of the first glazing pane for the front windshield, with an adhesive of thickness e 3 ≤0.1 mm. 9. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the lamination interlayer is between a back face of the PCB printed circuit board and the second main face of the first glazing pane for the front windshield. 10. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the light-emitting diodes are power diodes that in operation are under supplied electrically with current so as to maintain a temperature below the softening temperature of the polymeric material of the lamination interlayer. 11. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the PCB printed circuit board includes a plastic film provided with conductive tracks and is equipped with surface mount diodes. 12. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the PCB printed circuit board is placed in a region of the front windshield, region in which the exterior glazing pane is rendered opaque by an opaque layer and/or in which the interior glazing pane is rendered opaque by an opaque layer and then including apertures at least in line with the diodes. 13. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the front windshield includes on the third main face of the second glazing pane or the fourth main face of the second glazing pane facing the diodes a scattering layer, optionally forming a pictogram. 14. The vehicle luminous signaling glazing unit as claimed in claim 1 , wherein the PCB printed circuit board extends at least as far as to the edge face of the laminated glazing unit, and wherein between a back face of the PCB printed circuit board and the second main face of the first glazing pane of the front windshield is housed an adhesive that is tight to liquid water and of thickness of at most 0.1 mm. 15. A vehicle including at least one luminous signaling glazing unit as claimed in claim 1 , wherein the luminous signaling glazing unit forms a front windshield and is an anti-collision device. 16. A process for manufacturing the luminous signaling glazing unit as claimed in claim 1 , comprising: automatically cutting a lamination interlayer taking the form of a single sheet of at most 0.9 mm thickness to form local through-apertures or, the lami