METHOD FOR DISPLAYING INFORMATION FOR A USER OF A VEHICLE

Abstract

A method for displaying information for a user of a vehicle by means of a projection system, which has a projection unit, a control device, a first projection field, and at least one second projection field, wherein the information is transferred from the control device to the projection unit, and wherein the projection system is switched over from a first beam path, in the case of which light beams produced by the projection unit are directed onto the first projection field, to a second beam path, in the case of which light beams produced by the projection unit are directed onto the at least one second projection field, in accordance with the current position of a seat of the user, the light beams produced by the projection unit being deflected to a field of view of the user by the at least one second projection field.

Claims

1-7. (canceled)

8. A method for displaying information for a user of a vehicle by a projection system comprising: a projection unit, a control device, a first projection field arranged on a windshield, and at least one second projection field arranged on a roof liner, wherein the information is transferred from the control device to the projection unit, and wherein the projection system is switched from a first beam path, in the case of which light beams produced by the projection unit are directed onto the first projection field, to a second beam path, in the case of which light beams produced by the projection unit are directed onto the at least one second projection field, when the seat of a user is moved from a driving position in which the user is oriented substantially vertically with respect to a chassis of the vehicle, into a comfort position in which the user is oriented substantially horizontally with respect to a chassis of the vehicle, the light beams produced by the projection unit being deflected to a field of view of the user by the at least one second projection field.

9. The method according to claim 8, wherein, when the projection system is switched from the first beam path to the second beam path, an orientation of the projection unit with respect to the at least one second projection field is changed as a function of the current position of the seat until the light beams produced by the projection unit meet the field of view of the user.

10. The method according to claim 8, wherein an orientation of the at least one second projection field with respect to the seat is changed until the light beams produced by the projection unit meet the field of view of the user.

11. The method according to claim 8, wherein, in the event that the user activates a calibration mode, an orientation of the projection unit and/or of the at least one second projection field with respect to the user is changed until the user ends the calibration mode.

12. The method according to claim 8, wherein the projection system is switched from the first beam path to the second beam path when an autonomous driving mode of the vehicle has been activated.

13. A projection system for displaying information in a vehicle, comprising: a projection unit, a control device, a first projection field arranged on a windshield, and at least one second projection field arranged on a roof liner, wherein the projection system is configured to be switched from a first beam path, in the case of which light beams produced by the projection unit are directed onto the first projection field, to a second beam path, in the case of which light beams produced by the projection unit are directed onto the at least one second projection field, when the seat of a user is moved from a driving position in which the user is oriented substantially vertically with respect to a chassis of the vehicle, into a comfort position in which the user is oriented substantially horizontally with respect to a chassis of the vehicle, wherein the at least one second projection field is configured to reflect the light beams produced by the projection unit to a field of view of the user.

14. The projection system according to claim 13, wherein the at least one second projection field is configured to reflect the light rays produced by the projection unit to the field of view of the user when an autonomous driving mode of the vehicle has been activated.

15. The method according to claim 9, wherein an orientation of the at least one second projection field with respect to the seat is changed until the light beams produced by the projection unit meet the field of view of the user.

16. The method according to claim 9, wherein, in the event that the user activates a calibration mode, an orientation of the projection unit and/or of the at least one second projection field with respect to the user is changed until the user ends the calibration mode.

17. The method according to claim 10, wherein, in the event that the user activates a calibration mode, an orientation of the projection unit and/or of the at least one second projection field with respect to the user is changed until the user ends the calibration mode.

18. The method according to claim 9, wherein the projection system is switched from the first beam path to the second beam path when an autonomous driving mode of the vehicle has been activated.

19. The method according to claim 10, wherein the projection system is switched from the first beam path to the second beam path when an autonomous driving mode of the vehicle has been activated.

20. The method according to claim 11, wherein the projection system is switched from the first beam path to the second beam path when an autonomous driving mode of the vehicle has been activated.

Description

[0035] The figures are described coherently and comprehensively. Like features are identified by like reference numerals.

[0036] FIG. 1 shows a schematic representation of a possible embodiment of the projection system according to the invention in a driving position.

[0037] FIG. 2 shows a schematic representation of the projection system of FIG. 1 in a comfortable position.

[0038] FIG. 1 shows a vehicle 1 with a seat 3 and a projection unit 5. Projection unit 5 generates an image and projects said image onto a first projection field 7. For this purpose, projection unit 5 generates light beams and projects said light beams via a first beam path 9 onto first projection field 7. The light rays are reflected from the first projection field 7 at least partially at an angle between a first axis of view 13 of a driver 11 and the first beam path 9, so that the light beams produced by projection unit 5 are at least partially in a field of view of driver 11 and can be recognized by driver 11. Accordingly, information displayed on first projection field 7 and environmental features located in a driver's field of view combine to form an overall image 15 which is ultimately perceived by driver 11. In the present case, the field of view, which of course extends spatially, is indicated by the axis of view 13, which runs centrally through the field of view of driver 11. Accordingly, projection field 7, which is intersected by the axis of view 13, is in the field of view of driver 11.

[0039] In FIG. 2, seat 3 is shown in a comfortable position, in which seat 3 has been moved after vehicle 1 has been switched over from a manual driving operation, as shown in FIG. 1, to an automatic or autonomous driving operation.

[0040] In the comfortable position, seat 3 is tilted further compared to the position for the manual driving operation, so that the driver 11 is oriented significantly further horizontally with respect to a chassis of vehicle 1 as compared with the position for the manual driving operation. Correspondingly, the first axis of view 13 together with a field of view of driver 11 has been shifted to a second axis of view 23 compared to the position shown in FIG. 1.

[0041] In order to continue to project the information to be displayed by projection unit 5 into the field of view of the driver 11, projection unit 5 is switched over, so that light beams produced by projection unit 5 are no longer radiated on first projection field 7 in a second beam path 17, but on a second projection field 19. The second projection field 19 is arranged at an angle to the second axis of view 23 of driver 11, so that the second projection field 19 reflects at least partially the light beams incident through the second beam path 17 into a field of view of driver 11. Accordingly, respective light beams transferred through the second beam path 17 and redirected by means of the second projection field 19 form together with the surroundings in the field of view of driver 11 an overall image 25, which is perceived by driver 11.