DE102021116809A1 - Motor vehicle with a projection unit and method for operating a motor vehicle - Google Patents

Abstract

A motor vehicle (10) is described with at least one projection unit (12) for projecting graphic or written information onto a projection surface (18), the projection unit (12) being connected to a monitoring circuit (20) of the motor vehicle (10), which is adapted to project the graphic or textual information. The monitoring circuit (20) includes a brightness sensor (22) for determining a value (30) for the brightness in the area surrounding the motor vehicle (10) and a computing unit (24) for controlling the luminous intensity of a light source (14) of the projection unit (12), with which the graphic or written information is projected onto the projection surface (18), depending on the value (30) received from the brightness sensor (22) for the ambient brightness.

Description

The present invention relates to a motor vehicle with at least one projection unit for projecting graphic or written information onto a projection surface. The invention also relates to a method for operating such a motor vehicle.

Such a motor vehicle is, for example, from DE 10 2010 034 853 A1 famous. In this known motor vehicle, the projector is connected to a monitoring circuit of the motor vehicle in order to project information detected by the monitoring circuit in real time as the graphic or written information. Any information that would conventionally be displayed on a dashboard of the motor vehicle can be used as such information. In particular, a roadway surface, a wall or the like is used as a projection surface. A front headlight and/or at least one rear headlight of the motor vehicle are designed as a digital projector in order to make the ascertained information visible on the surface illuminated by the headlight. Means for detecting the brightness of the projection surface and for controlling the luminous intensity with which the graphic or textual information is projected based on the detected brightness promote the reliable perception of the projected information by the driver. Depending on the distance of the projection surface from the projector and the reflectivity of the projection surface, good visibility should be ensured. A camera for detecting traffic signs in connection with an image evaluation system for the images supplied by the camera is provided as a means for detecting the brightness.

In the above-mentioned procedure, the focus is on the ability of the driver of the motor vehicle to recognize the projection. However, if the projection is optimized for the driver, other road users may be dazzled.

The object of the invention is to specify a motor vehicle in which a built-in projection unit enables a projection that is easily recognizable for the user of the motor vehicle and is not disruptive to other road users.

A further object consists in specifying a method for operating a motor vehicle with a projection unit according to the invention.

The object is achieved by a motor vehicle with at least one projection unit for projecting graphic or written information onto a projection surface, the projection unit being connected to a monitoring circuit of the motor vehicle which is designed to project the graphic or written information. The monitoring circuit includes a brightness sensor for determining a value for the brightness in the area surrounding the motor vehicle and a computing unit for controlling the light intensity of a light source of the projection unit, with which the graphic or written information is projected onto the projection surface, depending on the value received from the brightness sensor for the ambient brightness. Any information that has an illumination effect, such as a manufacturer's logo or an image, can be used as information. Such information is also possible as information that would normally be displayed on a display device of the motor vehicle.

Determining a value for the brightness in the area surrounding the motor vehicle using a brightness sensor has the advantage that the luminosity of the projection unit can be adjusted as a function of the brightness in the area. On the one hand, a high-quality projection that is easily recognizable to the viewer can be displayed at any time of the day. On the other hand, it ensures that no other road user, especially at night, is dazzled or distracted by excessive light levels.

The computing unit is thus expediently designed to control the luminous intensity of the light sources in order to adapt the brightness of the graphic or written information to the ambient brightness. It is also expedient if the light source of the projection unit can be dimmed steplessly or in at least two brightness levels by the computing unit, e.g. full brightness through maximum light intensity and reduced brightness through reduced light intensity compared to the maximum light intensity. In this context, a projection unit that is switched off and does not produce a projection on the projection surface is not considered to be operating at a brightness level.

It is also expedient if the light intensity of the projection unit is controlled as a function of one of at least two value ranges in which the value for the brightness in the area surrounding the motor vehicle falls. There can be any number of value ranges. In this way it is possible to define several "thresholds" for the ambient lighting, with the help of which the light intensity of the projection unit is regulated. The more value ranges are provided, the more likely it is that the projection will be presented as valuable and not disruptive by a road user felt. In principle, the number of value ranges can be arbitrary. The number of value ranges is expediently greater than three, greater than four or even greater than five.

A further expedient embodiment provides that the light intensity of the projection unit increases with values that represent increasing ambient brightness. In other words, the luminous intensity of the projection unit is reduced at night, or in a dark environment, in order in particular not to distract and/or dazzle other road users. If, on the other hand, the motor vehicle is in a bright environment, for example in a sunny environment during the day, the luminous intensity of the projection unit is increased or maximized in order to improve recognisability and value.

A further expedient embodiment provides that the brightness sensor is a light and/or rain sensor for controlling headlights and/or a windshield wiper of the motor vehicle. As a result, the monitoring circuit can be designed in a technically simple manner and using means that are already present in the motor vehicle. In particular, no image evaluation of an image taken by a camera of the motor vehicle is required to determine a value for the light intensity. This makes the technical implementation easier and cheaper.

A further expedient embodiment provides that the computing unit is a central control unit of the motor vehicle.

The light source of the projection unit expediently comprises one or more (white and/or colored) LEDs which, as is known, can be dimmed steplessly or in several stages.

The invention further proposes a method for operating a motor vehicle as described above. The method comprises the steps of determining a value for the brightness in the area surrounding the motor vehicle and controlling the luminous intensity of a light source of the projection unit with which the graphic or written information is projected onto the projection surface, depending on the value determined for the ambient brightness. The method has the same advantages as those described above in connection with the motor vehicle according to the invention.

A value range in which the value for the ambient brightness falls is expediently determined first. The luminous intensity of the projection unit is then determined as a function of the range of values in which the value for the ambient brightness falls. An assigned value for the light intensity of the projection unit is expediently defined for each of the value ranges.

A further expedient embodiment provides that the light intensity of the projection unit is chosen to be higher with values that represent increasing ambient brightness.

The invention is described in more detail below using an exemplary embodiment with reference to the attached figure.

The only 1 shows a schematic representation of a motor vehicle according to the invention.

1 shows a schematic block diagram of a motor vehicle 10 according to the invention. The motor vehicle 10 comprises a projection unit 12 and a monitoring circuit 20. In this exemplary embodiment, the projection unit 12 comprises at least one light source 14 and an information output unit 16, for example in the form of a projector or microlens array. Alternatively, the light source 12 and the information output unit 16 could also be designed as one unit. Monitoring circuit 20 includes at least one brightness sensor 22 and a computing unit 24.

The projection unit 12 is designed to project graphic or written information onto a projection surface 18 . For example, the projection surface 18 may be on the ground next to, in front of, or behind the motor vehicle. The projection surface 18 can also be a wall. The direction of the light propagation of the graphic or written information emitted by the information output unit 16 is identified by reference number 26 .

The graphic or textual information can be a manufacturer's logo. Alternatively, the graphic or textual information may be any information that would typically be displayed on a display unit of the motor vehicle 10 . Depending on the information to be projected by the projection unit 12 onto the projection surface 18 , the information output unit 16 can be arranged in a door sill, in one or both exterior mirrors of the motor vehicle 10 or in another component of the motor vehicle 10 .

The brightness sensor 22, which is, for example, a light and/or rain sensor for controlling headlights and/or a windshield wiper of the motor vehicle, is used to determine a value 30 for the brightness in the vicinity of the motor vehicle craft 10 trained. The value 30 determined by the brightness sensor 22 for the brightness in the area surrounding the motor vehicle 10 is transferred to the computing unit 24 . The arithmetic unit 24 can be a control unit of the monitoring circuit 20 or a central control unit of the motor vehicle 10 .

The computing unit 24 is designed to determine a value 32 for the light intensity to be generated by the light source 14 from the value 30 for the brightness of the surroundings, with the value 32 serving as a control signal for the light source 14 . The light source 14 of the projection unit 12 receiving the value 32 as a control signal then projects the graphic or written information onto the projection surface 18 via the information output unit 16, depending on the value 30 for the ambient brightness received from the brightness sensor 22.

As a result, the computing unit 24 is designed to adapt the brightness of the graphic or written information to the ambient brightness by controlling the luminous intensity of the light source 14 . The determination of the value 30 for the ambient brightness of the motor vehicle by the brightness sensor 22 has the advantage that the luminosity of the projection unit 12 can be adjusted as a function of the ambient brightness. On the one hand, a high-quality projection that is easily recognizable to the viewer can be displayed at any time of the day. On the other hand, it ensures that no other road user, especially at night, is dazzled or distracted by excessive light levels. In addition, in situations where projection of graphic or textual information at maximum light intensity is not required, such as in dark ambient conditions, there is the advantage of saving energy, since the energy consumption of the light source 14 is proportional to the light intensity to be generated.

The luminous intensity of the projection unit 12 or the light source 14 preferably increases with values 30, which represent increasing ambient brightness. In other words, the luminous intensity of the projection unit 12 is reduced at night, or in a dark environment, in order in particular not to distract and/or dazzle other road users. If, on the other hand, the motor vehicle 10 is in a bright environment, such as in a sunny environment during the day, the light intensity of the projection unit 12 or the light source 14 is increased or maximized in order to improve the recognizability and value of the projection of the graphic or written information .

The luminous intensity of the projection unit 12 or the light source 14 can preferably be controlled as a function of one of at least two value ranges in which the value 30 for the ambient brightness of the motor vehicle 10 falls. Depending on the number of predetermined value ranges for the value 30, the brightness of the graphic or written information can be adapted to different ambient brightness.

For this purpose, it is expedient if the light source 14 of the projection unit 12 can be dimmed continuously or in at least two brightness levels by the computing unit 24, e.g. full brightness through maximum light intensity and reduced brightness through reduced light intensity compared to the maximum light intensity. In this context, a projection unit that is switched off and does not produce a projection on the projection surface is not considered to be operating at a brightness level. In general, the number of brightness levels of the light source 14 corresponds to the number of predefined value ranges for the value 30 for the ambient brightness.

The number of value ranges for the value 30 for the ambient brightness can be specified as desired. In this way it is possible to define several “thresholds” for the ambient lighting, with the help of which the luminous intensity of the projection unit 12 is regulated. The more value ranges are provided for the value 30 for the ambient brightness, the more likely it is that a road user will perceive the projection as valuable and not disturbing. In principle, the number of value ranges for the value 30 for the ambient brightness can be arbitrary. The number of value ranges is expediently greater than three, greater than four or even greater than five.

For this purpose, after determining a value 30 for the brightness in the area surrounding motor vehicle 10, the range of values in which value 30 for the ambient brightness falls is first determined. The luminous intensity of the projection unit 12 or the light source 14 is then determined as a function of the value range in which the value 30 for the ambient brightness falls. As described, this value 32 for the luminous intensity is then processed or used as a control signal for the light source 14 .

This determination is made by the monitoring circuit 20 and in particular by its computing unit 24 . As already described above, computing unit 24 can be a central control unit (central control unit or ECU) of motor vehicle 10 .

Reference List

10

motor vehicle

12

projection unit

14

light source

16

information output unit

18

projection surface

20

monitoring circuit

22

brightness sensor

24

unit of account

26

direction of light propagation

30

Ambient brightness value

32

value for the light intensity

QUOTES INCLUDED IN DESCRIPTION

This list of the documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 102010034853 A1 [0002]

Claims (12)

Motor vehicle (10) with at least one projection unit (12) for projecting graphic or written information onto a projection surface (18), the projection unit (12) being connected to a monitoring circuit (20) of the motor vehicle (10) which is designed to to project the graphic or written information, characterized in that the monitoring circuit (20) has a brightness sensor (22) for determining a value (30) for the brightness in the area surrounding the motor vehicle (10) and a computing unit (24) for controlling the light intensity a light source (14) of the projection unit (12), with which the graphic or written information is projected onto the projection surface (18), depending on the value (30) received from the brightness sensor (22) for the ambient brightness. motor vehicle after claim 1 , characterized in that the computing unit (24) for controlling the light intensity of the light source (14) is designed to adapt the brightness of the graphic or written information to the ambient brightness. motor vehicle after claim 1 or 2 , characterized in that the light source (14) of the projection unit can be dimmed steplessly or in at least two brightness levels by the computing unit (24). Motor vehicle according to one of the preceding claims, characterized in that the luminous intensity of the projection unit (12) is controlled as a function of one of at least two value ranges in which the value for the brightness in the area surrounding the motor vehicle (10) falls. Motor vehicle according to one of the preceding claims, characterized in that the luminous intensity of the projection unit (12) increases with values which represent increasing ambient brightness. Motor vehicle according to one of the preceding claims, characterized in that the brightness sensor (22) is a light and/or rain sensor for controlling headlights and/or a windshield wiper of the motor vehicle. Motor vehicle according to one of the preceding claims, characterized in that the computing unit (24) is a central control unit of the motor vehicle (10). Motor vehicle according to one of the preceding claims, characterized in that the light source (14) of the projection unit (12) comprises one or more LEDs. Method for operating a motor vehicle (10) with at least one projection unit (12) for projecting graphic or written information onto a projection surface (18), the projection unit (12) being connected to a monitoring circuit (20) of the motor vehicle (10), which adapted to project the graphic or pictorial information, comprising the steps of: a) determining a value (30) for the brightness in the area surrounding the motor vehicle (10) and b) controlling the luminous intensity of a light source (14) of the projection unit (12), with which the graphic or written information is projected onto the projection surface (18), depending on the determined value (30) for the ambient brightness. Method according to Claim 9, in which a value range in which the value (30) for the ambient brightness falls is determined. procedure after claim 10 , in which the light intensity of the projection unit is determined as a function of the range of values in which the value (30) for the ambient brightness falls. procedure after claim 11 , in which the light intensity of the projection unit (12) is chosen to be higher with values that represent increasing ambient brightness.

Images