Patent Document

BACKGROUND INFORMATION 
       [0001]    U.S. Patent Application No. 2003/0160736 describes a portable display device for a vehicle, which device is disposed on an instrument panel of a vehicle. The display device has a liquid crystal display in which an image is displayed, and which is disposed so that the image is reflected in the windshield. The observer in the vehicle can thus see a virtual image as a result of the reflection in the windshield. 
       SUMMARY OF THE INVENTION 
       [0002]    The calculation device according to the present invention has the advantage that the calculation device has in one housing both a planar display and additionally a projection unit for generating a virtual image, in particular by way of light deflection on a windshield of a vehicle. It is thus on the one hand possible to make complex information available to the driver in the planar display, while particularly important information to be perceived quickly by the driver can be generated as a virtual image, in particular by reflection on the vehicle&#39;s windshield. The driver can use the planar display for operation of the calculation device and, for example, for the depiction of complex information, while he or she can also perceive important information via the windshield without having to look away from the vehicle&#39;s surroundings. Integration of the two display devices into the housing of the calculation device makes possible space-saving and economical implementation of both display variants. 
         [0003]    It is advantageous to embody the projection unit with a plurality of light-emitting diodes that can at least in part be triggered separately, in order to allow various symbols to be depicted in the virtual image in simple fashion. Light-emitting diodes represent, in this context, a light source for projection that can be mounted easily and economically in the housing, and that furthermore can be installed in space-saving fashion. 
         [0004]    It is further advantageous to dispose the projection unit on the narrow side of the housing, since in this fashion the display is visible from the front side for the observer, while the narrow side is directed onto a suitable reflective surface, for example the windshield. 
         [0005]    It is furthermore also advantageous to configure the housing so it can be folded out, so that the projection unit is disposed on an inner side of the housing. If the calculation unit is embodied as a portable calculation unit, so that it can also be brought along by a user as a mobile device, the projection unit can correspondingly be protected by being folded together. It is further advantageous to provide an antenna unit, in particular an antenna unit of a satellite positioning system, in a part that can be folded out. At the same time, optimum reception of the satellite position signal can be enabled by a horizontal configuration of the folded-out flap having the projection unit. 
         [0006]    It is further advantageous to configure the projection unit so that it can display multiple symbols. Advantageously, a separate light source assemblage is provided for each symbol, for independent triggering. Corresponding light-source surfaces for symbol formation can thus also be pre-shaped, so that only one of several symbols needs to be triggered in order to depict a symbol. 
         [0007]    It is furthermore advantageous to provide a holder in order to attach the calculation device, advantageously, in such a way that the planar display is visible to an observer, while operation of the projection unit enables depiction of a virtual image. When the calculation device is removed from the holder, further operation of the projection unit is generally not useful, since a corresponding uniform orientation with respect to a reflective surface for generating the virtual image is not present. The projection unit is therefore advantageously automatically deactivated after a removal of the calculation device from the holder. 
         [0008]    It is furthermore advantageous to embody the calculation device as a route determination unit for determining a route of travel to a destination and for outputting driving advisories, since corresponding devices are utilized particularly in vehicles, and with the calculation device according to the present invention, particularly good information to the vehicle driver regarding a route to be traveled increases driving safety. It is correspondingly advantageous to use a calculation device according to the present invention in a vehicle in order to generate a virtual image via the windshield of the vehicle, since in this case the mounting of further reflection apparatuses in the vehicle can be omitted, and the windshield is already sufficient for depiction of the virtual image. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0009]      FIG. 1  schematically depicts a calculation unit according to the present invention. 
           [0010]      FIG. 2  is a first view, from the driver&#39;s position in the vehicle, of an installation example for installing in a vehicle a calculation unit according to the present invention in a first embodiment. 
           [0011]      FIG. 3  is a further view, from outside the vehicle looking toward the driver&#39;s seat, of the calculation unit according to the present invention of  FIG. 2 . 
           [0012]      FIG. 4  is a detail view, from the side, of the calculation unit according to the present invention in accordance with  FIGS. 2 and 3 . 
           [0013]      FIG. 5  is a side view, looking toward the projection unit, of the calculation unit according to the present invention in accordance with  FIGS. 2 to 4 , removed from the vehicle. 
           [0014]      FIGS. 6 through 8  show a further exemplifying embodiment of a calculation unit according to the present invention having a projection unit provided at a different point on the housing, with the housing in the folded-out state. 
           [0015]      FIG. 9  shows the calculation device according to the present invention in accordance with  FIGS. 6 to 8 , in a folded-up state. 
       
    
    
     DETAILED DESCRIPTION 
       [0016]    The calculation device according to the present invention can be used in any vehicles. What is described below is the use of a calculation device according to the present invention for use in a motor vehicle. 
         [0017]      FIG. 1  schematically depicts a calculation device  1  according to the present invention. A control device  2 , which triggers a planar display  3  and a projection unit  2 , is disposed in a housing of calculation device  1 . Calculation device  1  can be embodied as any computer, for example a portable one, which e.g. serves for appointment management, image reproduction, or sound reproduction. For acoustic output, a loudspeaker  5  is correspondingly connected to control device  2 . In an embodiment, calculation device  1  is embodied as a navigation unit. For this purpose, calculation device  1  has a positioning unit  6  that is embodied, in particular, as a satellite positioning unit. Positioning unit  6  makes possible reception of a signal from satellites of a satellite positioning system. By way of a planar display  3  embodied, in particular, as a touch screen surface, a user can then enter a destination into calculation device  1 . Control device  2  calculates a route of travel from the present position (ascertained via positioning unit  6 ) to the inputted destination, making use of a memory device  7  in which a corresponding road network is stored. When the driver needs to perform a driving maneuver along the calculated travel path, for example make a turn, a driving instruction is outputted via planar display  3 , but in particular via projection unit  4 . Acoustic driving instructions can correspondingly also be outputted via loudspeaker  5 . 
         [0018]    Planar display  3  is embodied, for example, as a liquid crystal display. A road map, for example, but also an input menu for inputting a destination, can be depicted in planar display  3 . Driving instructions in particular, for example turn arrows, but optionally also warning symbols, can be outputted via projection unit  4 . Projection unit  4  can also be constituted by any display. In an embodiment, projection unit  4  has a plurality of light-emitting diodes, which correspondingly have sufficient light intensity that the light emitted from projection unit  4  can reflect in the windshield of the vehicle in such a way that a virtual image is visible to an observer. 
         [0019]    A first exemplifying embodiment of a use of a display apparatus according to the present invention in a motor vehicle is depicted in  FIG. 2 . A calculation device  10  according to the present invention is mounted on a holder (not visible in  FIG. 2 ) that in turn is attached with a suction cup  11  on windshield  12  above an instrument panel  13  of the motor vehicle. A map depiction  15  is shown in planar display  14  of calculation device  10 . In the embodiment shown here, position  16  of the motor vehicle is furthermore indicated in map depiction  15 . The vehicle is now intended to turn to the left, as indicated e.g. by a left-turn arrow  17  in map depiction  15 . In particular, however, display of a left-turn arrow is accomplished by way of a projection unit, disposed on the upper narrow side  18  of calculation device  10 , that correspondingly emits a light beam  20  of light toward windshield  12 . An arrow depiction  21  is correspondingly visible to an observer, as a result of reflection of the light on windshield  12 , in the form of a virtual image. An acoustic advisory can be outputted in supplementary fashion via a loudspeaker  22  of calculation device  10 . In a further embodiment, calculation device  10  can also possess a radio interface, such that a corresponding turn datum can be transferred to a display instrument  23  of the vehicle, so that a corresponding turn symbol  24  can also be depicted in display instrument  23  in front of the driver. 
         [0020]    In the embodiment shown here, calculation device  10  is mounted above center console  25  of the vehicle on instrument panel  13 . Because of the variable configuration using suction-cup attachment, however, the calculation device can also be positioned in a region above, or to the left alongside, display instrument  23 . It is moreover also possible to position calculation device  10  in front of the passenger on windshield  12 . In another embodiment (not shown in  FIG. 2 ), it is alternatively also possible to attach calculation device  10  to instrument panel  13 . 
         [0021]    In  FIG. 3 , calculation device  10  is shown in a view from outside the vehicle, looking toward driver&#39;s seat  26 . Calculation device  10  is inserted into a holding arm  27  that is connected to suction cup  11  via a connecting arm  28 . Holding arm  27  and/or connecting arm  28  is preferably supported movably with respect to calculation device  10  or with respect to suction cup  11 , respectively, so that a position of calculation device  10  can be adapted by a user in such a way that an optimum position of virtual image  21 , but also good readability of display surface  14 , can be achieved. 
         [0022]      FIG. 4  shows, in a detail, the disposition of the calculation device on the holder. Calculation device  10  is inserted into holding arm  27  in such a way that an engagement of holding arm  27  with respect to calculation device  10  can be released via an actuation of a release lever  29 . In an embodiment, calculation device  10  has a sensing unit, for example a switch element  30 , that records the release of holding arm  27 . According to this embodiment, the operation of projection unit  19  is deactivated after the holding arm is released, and thus after calculation device  10  is released out of holder  27 . It is correspondingly also possible for operation of projection unit  19  to be automatically activated upon insertion of calculation device  10  onto holding arm  27 . 
         [0023]    Connecting arm  28  preferably has a first element  31  and a second element  32 , which are connected pivotably with respect to one another via an articulation  33 , in order to enable adaptation of the position of the calculation device by pivoting about a rotation axis  34  that is drawn with a dashed line in  FIG. 4 . Suction cup  11  is preferably releasable from, and attachable to, windshield  12  via a lever element  35 . In another embodiment it is also correspondingly possible to provide an adhesive connection to windshield  12  instead of a suction cup. 
         [0024]      FIG. 5  is a detailed depiction, in a view toward narrow side  18 , of calculation device  10  and of projection unit  19  disposed on narrow side  18 . In the embodiment shown here, projection unit  19  has a first display  41  of an arrow to the left, a second display  42  of an arrow to the front, and a third display  43  of an arrow to the right. The individual displays  41 ,  43 ,  43  are preferably constituted by a plurality of light-emitting diodes that can respectively be triggered collectively in order to cause the various symbols to be displayed. In another embodiment it is also possible to provide a matrix display that is constituted from multiple light-emitting diodes, so that by controlled triggering of individual ones of these light-emitting diodes, corresponding symbols can be formed and can be projected into the windshield. It is also possible, however, to use other display technologies instead of light-emitting diodes, for example electroluminescent displays. 
         [0025]      FIGS. 6 to 9  depict a different exemplifying embodiment of a calculation device according to the present invention. A calculation device  50  according to the present invention has on its front side a display surface  51  in which, for example, an operating menu  52 , a map depiction  53 , and/or a text window  54  can be depicted. Display surface  51  is disposed in a first housing part  55  that is connected via an articulation element  56  to a second housing part  58  that is not visible in  FIG. 6 . A first operating element  69 , and a second operating element  68  for volume control, are mounted on articulated connection  56 .  FIG. 7  depicts calculation device  50  in a side view. Second housing part  58 , which is preferably supported in a holder  59  in the vehicle, for example on an instrument panel, is disposed at an angle of approximately 90° to first housing part  55 . A projection unit  65  is disposed on an upper side  60  of second housing part  58 . Second housing part  58  is supported in this context, with respect to a windshield  61 , in such a way that a light beam  62  from projection unit  65  strikes windshield  61  and is reflected therefrom, so that light is radiated in arrow direction  63 . Looking in a direction opposite to arrow direction  63 , a virtual image is visible to an observer as a result of reflection from windshield  61 .  FIG. 8  depicts a plan view in arrow direction  64  of  FIG. 7 . Projection unit  65  is now visible in a view looking toward second housing part  58 . In the embodiment shown here, projection unit  65  has a plurality of light-emitting diodes  66 , which are disposed in such a way that they can depict various symbols when connected appropriately. In the embodiment shown here, a variety of arrow symbols can be depicted, depiction of an arrow to the right being shown in the particular embodiment shown here. When calculation device  50  is removed from holder  59 , it can (as depicted in  FIG. 9 ) be folded up by rotating second housing part  58  relative to first housing part  57  about articulated connection  56 , so that the first and the second housing part  55 ,  58  rest against one another. In an embodiment, a GPS receiving unit  67 , which is depicted with dashed lines in  FIG. 8 , is disposed in second housing part  58 .

Technology Category: 3