Vehicle headlamp device having at least one region in its main beam disribution being selectively suppressed by deactivating light source

What is claimed is: 1. A headlamp device for a motor vehicle comprising a segmented light source, which has individually deactivatable light source segments for generating a glare-free main beam with the aid of an automatic dimming system and is configured such that at least one region in the main beam distribution of the headlamp device can be suppressed selectively by deactivating the individual light source segments, and that each light source segment in an activated state lights up a main beam segment region with a respectively preset width in the main beam distribution of the headlamp, wherein the width of the main beam segment region is preset in the main beam segment region depending on an expected average dynamic of objects to avoid dazzling under normal traffic conditions, wherein the headlamp device comprises a first headlamp with a first light source segmentation inclined towards the oncoming carriageway and a first main beam segmentation, and a second headlamp inclined away from the oncoming carriageway with a second light source segmentation and a second main beam segmentation asymmetrical with the first main beam segmentation. 2. The headlamp device according to claim 1 , wherein the headlamp device is configured such that the main beam segment regions in which a higher average dynamic of objects to avoid dazzling from the perspective of the motor vehicle driver is to be expected in real traffic conditions are wider on average than the main beam segment regions for which a lower average dynamic of objects to avoid dazzling from the perspective of the motor vehicle driver is to be expected in real traffic conditions. 3. The headlamp device according to claim 1 , wherein the headlamp device is configured such that a main beam distribution is created that is substantially mirror-symmetrical about a central axis when all light source segments of the first and second headlamps are activated. 4. The headlamp device according to claim 3 , wherein the main beam distribution on the half directed away for the oncoming carriageway has more main beam segment regions than the half directed toward the oncoming carriageway. 5. The headlamp device according to claim 3 , wherein the main beam distribution comprises a first outer region directed at the oncoming carriageway, a second outer region directed away from the oncoming carriageway and a middle region, wherein the main beam in the middle region of the main beam distribution is produced substantially by the first headlamp. 6. The headlamp device according to claim 3 , wherein the first headlamp and the second headlamp have the same number of light source segments. 7. The headlamp device according to claim 3 , wherein the first and second headlamps viewed from the front present a substantially mirror-symmetrical construction about a center line extending vertically between the first and second headlamps. 8. The headlamp device according to claim 3 , wherein at least one of the first and second headlamps is equipped with a dummy light source segment. 9. The headlamp device according to claim 1 , wherein the headlamp device is configured such that wider main beam segment regions are located substantially in outer regions of the main beam distribution. 10. The headlamp device according to claim 1 , wherein adjacent main beam segment regions partly overlap each other. 11. The headlamp device according to acclaim 1 , wherein the light source segments are deactivated by switching them off. 12. The headlamp device according to acclaim 1 , wherein the light source segments are deactivated by dimming them to below a lighting threshold. 13. The headlamp device according to claim 1 , wherein the light source segments comprise semiconductor light sources. 14. The headlamp device according to claim 13 , wherein each of the semiconductor light source is selected from the group consisting of an LED and a semi-conductor laser. 15. The headlamp device according to claim 13 , wherein the semiconductor light sources form an LED matrix headlamp having the light source segments configured as LED matrix segments. 16. A motor vehicle comprising a headlamp device according to claim 1 and further comprising a sensor device having at least one sensor configured to detect a current driving situation, and a control unit configured to suppress the main beam selectively in response to the current driving situation. 17. The motor vehicle according to claim 16 , wherein the current driving situation presents a risk of dazzling other road users is detected. 18. A headlamp device for a motor vehicle comprising a segmented light source, which has individually deactivatable light source segments for generating a glare-free main beam with the aid of an automatic dimming system and is configured such that at least one region in the main beam distribution of the headlamp device can be suppressed selectively by deactivating the individual light source segments, and that each light source segment in an activated state lights up a main beam segment region with a respectively preset width in the main beam distribution of the headlamp, wherein the width of the main beam segment region is preset in the main beam segment region depending on an expected average dynamic of objects to avoid dazzling under normal traffic conditions, wherein the light source segments are deactivated by dimming them to below a lighting threshold.