Data-display glasses comprising an anti-glare screen

What is claimed is: 1. A pair of spectacles equipped with at least one lens and intended to be worn by a user, said spectacles comprising: displaying means emitting light rays to project data into a field of view of said user, and an anti-glare screen provided with a variable transmission coefficient allowing an intensity of incident light intended to pass through said at least one lens toward said user to be attenuated, wherein said displaying means and said anti-glare screen are positioned so that some light rays emitted by said displaying means, in order to display said data, strike said anti-glare screen, wherein said spectacles are configured to adapt said transmission coefficient of said anti-glare screen depending on said intensity of incident light, and wherein said displaying means is operatively coupled to said anti-glare screen so that said displaying means display said data only when said anti-glare screen transmits light. 2. The spectacles as claimed in claim 1 , wherein the coupling between the displaying means and the anti-glare screen is produced by controlling the light intensity of said displayed data depending on said transmission coefficient of said anti-glare screen, said light intensity of said displayed data being modified inversely proportionally to said transmission coefficient, in order to create a similar perception of said data by said user regardless of the amount of incident light. 3. The spectacles as claimed in claim 1 , wherein said transmission coefficient is determined by pulse width modulation with a set duty cycle. 4. The spectacles as claimed in claim 1 , wherein the light intensity of said displayed data is determined by pulse width modulation with a set duty cycle. 5. The spectacles as claimed in claim 3 , wherein the light intensity and said transmission coefficient are in phase and have the same duty cycle. 6. The spectacles as claimed in claim 3 , wherein said pulse width modulation is carried out with a fixed frequency and with a variable duty cycle. 7. The spectacles as claimed in claim 3 , wherein said spectacles comprise means for controlling said duty cycle or duty cycles. 8. The spectacles as claimed in claim 1 , wherein said anti-glare screen is in contact with said at least one lens. 9. The spectacles as claimed in claim 1 , wherein said anti-glare screen is placed on a second side of said at least one lens, incident light being intended to pass through said at least one lens from the second side of said at least one lens to a first side. 10. The spectacles as claimed in claim 1 , wherein said anti-glare screen is equipped with a microelectromechanical layer, which is placed on said at least one lens. 11. The spectacles as claimed in claim 10 , wherein said microelectromechanical layer is activatable to block or transmit light. 12. The spectacles as claimed in claim 1 , wherein said displaying means comprise a transmitting substrate so as to guide said light rays by internal reflection in said at least one lens. 13. The spectacles as claimed in claim 12 , wherein said displaying means comprises a light source able to emit said light rays into said at least one lens. 14. The spectacles as claimed in claim 1 , wherein said displaying means comprises an image generator. 15. A device for assisting with driving, especially at night, an automotive vehicle, comprising said spectacles as claimed in claim 1 . 16. The spectacles as claimed in claim 3 , wherein the light intensity of said displayed data is determined by pulse width modulation with a set duty cycle. 17. The spectacles as claimed in claim 4 , wherein said light intensity and said transmission coefficient are in phase and have the same duty cycle. 18. A pair of spectacles equipped with at least one lens and intended to be worn by a user, said spectacles comprising: a display emitting light rays to project data into a field of view of said user, and an anti-glare screen provided with a variable transmission coefficient allowing an intensity of incident light intended to pass through said at least one lens toward said user to be attenuated, wherein said display and said anti-glare screen are positioned so that some of the light rays emitted by said display, in order to display said data, strike said anti-glare screen, wherein said spectacles are configured to adapt said transmission coefficient of said anti-glare screen depending on said intensity of incident light, and wherein said display is operatively coupled to said antiglare screen so that said display displays said data only when said anti-glare screen transmits light. 19. The spectacles as claimed in claim 18 , wherein the coupling between the display and the anti-glare screen is produced by controlling the light intensity of the displayed data depending on the transmission coefficient of the anti-glare screen, said light intensity of said displayed data being modified inversely proportionally to said transmission coefficient, in order to create a similar perception of said data by the user regardless of the amount of incident light. 20. The spectacles as claimed in claim 18 , wherein said transmission coefficient is determined by pulse width modulation with a set duty cycle.