DETAILED DESCRIPTION OF THE DRAWINGS

[0012] FIG. 1 is a basic diagram of the arrangement of the individual components for controlling the multipart sliding roof, in which case, for reasons of clarity, the ratios of sizes were not taken into account. The vehicle and the vehicle roof respectively are shown here only schematically in the form of rectangles, the rectangle 10 representing the roof of the vehicle. A multipart sliding roof 11 is integrated in the vehicle roof 10 , which sliding roof 11 includes a wind deflector WA, a first sliding roof part SD 1 movable in a longitudinal direction, and a second sliding roof part SD 2 movable in a longitudinal direction. These movable roof sections are followed by a fixed roof section FD, which is illustrated as a section indicated by a broken line in FIG. 1 .

[0013] All roof sections may also have a transparent construction. In this case, a sun blind R, which is shown in FIGS. 3A to 3 F, is arranged below the multipart sliding roof. This sun blind R is controlled by a rocker-type key 12 which has four different switching points. These four different switching points consist of two switching points A 1 and A 2 for the OPEN position and two switching points Z 1 and Z 2 for the SHUT position. This means that a closing of the switching contact A 1 causes a movement of the blind as long as the rocker key 12 is operated, while a continued movement of the rocker key beyond the switching point A 1 to the switching point A 2 causes a movement of the sun blind without the requirement that the rocker switch 12 has to be operated continuously. For a closing of the sun blind R, the same applies analogously to the switching points Z 1 and Z 2 . An operation of the switching contact Z 1 , by means of the so-called “keying” function, causes a blind movement, as long as the rocker key 12 is being pressed. The switching point Z 2 is called a “tipping” function and, after an operation, causes an automatic movement of the sun blind. Each of these described movements for the opening or closing can be stopped by another operation of the rocker key 12 .

[0014] The multipart sliding roof 11 is controlled by way of a rotary switch 20 . This rotary switch 20 is connected with a control unit 14 which is operable to detect the position of the individual parts of the multipart sliding roof before the operation of the rotary switch 20 and, on the basis of a new selected switching position of the rotary switch 20 , triggers a corresponding control of a motor M 1 for the first sliding roof part SD 1 or of a motor M 2 for the second sliding roof part SD 2 . The motor M 1 for controlling the first sliding roof section SD 1 is mechanically also coupled with the wind deflector WA, so that an opening of the first sliding roof section SD 1 automatically also results in an adjusting of the wind deflector WA. During a triggering of the motor M 1 for the opening of the first sliding roof part SD 1 , a tilting of the wind deflector WA therefore takes place at the same time in a restrictedly controlled manner. In this case, the slope of the wind deflector WA, as a function of the opening width of the first sliding roof section, is controlled such that a completely open first sliding roof section SD 1 causes a maximal tilting of the wind deflector WA.

[0015] The control unit 14 is connected with the supply voltage UB of the battery of the vehicle and is linked with additional control units of the vehicle and/or sensors for detecting the operating condition and receives, for example, by way of a CAN bus, additional information required for controlling the multipart sliding roof. Thus, it becomes possible, for example, to analyze the information of a sun sensor not shown here or of a rain sensor not shown here and, when a permissible sun radiation is exceeded, operate the sun blind SR or, at the start of rain, close the multipart sliding roof. Furthermore, the control unit 14 coordinates the controlling of the three driving motors M 1 , M 2 and MR in order to prevent a jamming in the case of a superimposed time sequence of the individual movable roof parts.

[0016] FIG. 2 shows the rotary switch 20 for the selection of the different positions of the multipart vehicle roof. The illustrated rotary switch 20 shows 16 positions which can be preselected, six positions A to F being defined as preferred positions which are provided as haptic switching points. However, this illustrated construction of the rotary switch 20 is only one possibility of selecting various opening positions. It also contemplated according to other preferred embodiments that, in a simplified form, different selection positions are eliminated or that individual positions are combined. Before the multipart sliding roof is released for a movement, various conditions, which have to be present, are defined in the control unit 14 . Otherwise, the control unit 14 will not release the movement. One of these conditions is the querying of the ignition. Only if the control unit 14 recognizes an ON ignition, will a release signal to the driving motors take place.

[0017] FIGS. 3 A- 3 F indicate six different opening positions of the multipart sliding roof of the vehicle. Here, the respective FIGS. 3A to 3 F correspond to a preferred position A to F of the rotary switch 20 from FIG. 2 . In FIG. 3 A, which corresponds to the switching position A, the wind deflector WA, the sliding roof 1 SD 1 , the sliding roof 2 SD 2 and the sun blind R are closed. When the rotary switch 20 is now moved from position A to position B, the wind deflector WA opens in such a manner that it takes up an inclined position, as illustrated in FIG. 3B . The controlling of the opening angle can take place here as a function of the vehicle speed.

[0018] During a continued rotation of the rotary switch 20 to position C, the sliding roof part 1 SD 1 opens in such a manner that it is lifted out of its closed position and subsequently moves toward the rear over the sliding roof part SD 2 . Simultaneously, the blind R opens so wide that it, in turn, opens up at least the now exposed roof opening so that the opening positions exist according to FIG. 3C . When the switch 20 is moved further in this direction to position D, the opening form of the multipart sliding roof will exist which is shown in FIG. 3D . This means that the wind deflector WA is adjusted and the two sliding roof parts SD 1 and SD 2 are in the open position. In this case, the first sliding roof section SD 1 is moved over the fixed roof FD and the sliding roof section SD 2 is moved under the fixed roof FD of the vehicle. The sun blind R is also again restrictedly controlled if it has not already been moved by the driver by operating the switch 12 into the corresponding open position. In addition, a function may also be integrated here which closes by a definable amount the second sliding roof section SD 2 again from the completely open position when the vehicle speed is above a defined threshold. As a result, unpleasant rumbling noises in the vehicle interior can be avoided or at least reduced.

[0019] The described switching positions A, B, C and D are situated in one rotating direction of the switch 20 and provide the logical sequence of movements of the individual roof sections, starting from the closed roof 3 A to the completely open roof 3 D. Corresponding to a logical sequence, here first the wind deflector WA, then the first sliding roof section SD 1 and subsequently the second sliding roof section SD 2 are opened. During the closing, the control takes place in the reverse sequence. This means that, when the rotary switch 20 is moved from the switching position D into the switching position A, first, the sliding roof section SD 2 is closed, then the sliding roof section SD 1 and finally the wind deflector WA, in which case the controlling of the first sliding roof section SD 1 and of the wind deflector WA takes place on the basis of the joint driving motor such that the two components reach the closed position approximately simultaneously.

[0020] When, starting from position A, the rotary switch 20 is moved into the other rotating direction, at the switching position E, a lifting of the second sliding roof section SD 2 takes place into a lifted position as shown in FIG. 3E .

[0021] The switching position F causes an opening of the second sliding roof section SD 2 in such a manner that, starting from the lifted position of the second sliding roof section SD 2 , first the second sliding roof section SD 2 is lowered and is subsequently moved under the fixed roof FD of the vehicle as shown in FIG. 3F . Optionally, in switching position F, the wind deflector WA can also be adjusted, which is indicated in FIG. 3F by indicating the wind deflector by a broken line. The sun blind is simultaneously moved into an open position. The following should be stated concerning the switching position F ( FIG. 3F ). When the rotary switch is switched directly from the switching position A without any intermediate stopping of the rotary switch 20 to position F, this will be detected by the control unit 14 and the passing through the switching position E ( FIG. 3E ) remains insignificant. The above applies to all switching positions to be taken up. When detecting a switching operation at the rotary switch 20 , the control unit has all information available concerning the momentary positions of the individual roof sections, and, starting from the “starting situation” and the now desired roof position, it will determine the respectively safest and fastest manner of controlling the individual driving motors. This means, for example, that, starting from switching position D ( FIG. 3D ) as the “starting position” and in the case of a desired end position F ( FIG. 3F ), the second sliding roof section SD 2 remains in the open position, while the first sliding roof section SD 1 and the wind deflector WA are closed.

[0022] The control unit 14 coordinates the movements of the individual sections of the multipart sliding roof. In the case of an immediately successive operation of the switch for the sun blind and of the switch for the full-size roof, the control unit has every momentary position of the roof paths stored in memory and will then, successively or in an overlapping manner relative to time, initiate a movement into the selected end positions. In this case, it may happen that an already initiated movement of the sun blind is stopped; then the roof section or sections are moved into their end position; and subsequently the movement of the sun blind is resumed.

[0023] FIG. 2 shows additional switching points between the six preferred positions, which switching points each determine only a partial taking-up of the end position. As a result, it becomes possible, for example, to open the first sliding roof section SD 2 only partially. Since the wind deflector and the first sliding roof section SD 1 are mechanically coupled, it becomes possible to eliminate the switching position B as a preferred haptic position, which only opens the wind deflector WA.

[0024] As initially mentioned, various blocking functions are available for the control. Thus, the sliding roof SD 1 cannot be opened when SD 2 , as in position E ( FIG. 3E ), is in the lifted position.

[0025] The sun blind should not be set in the open roof section, so that the sun blind is also moved into an open position without the operation of the switch 12 , when one of the sliding roof sections SD 1 or SD 2 is opened.

[0026] As another comfort function according to certain preferred embodiments, it is contemplated to provide an external operating unit, for example, at the ignition key, which permits the ventilation of the vehicle, particularly when the vehicle interior is overheated.

[0027] The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be constructed to include everything within the scope of the appended claims and equivalents thereof.