EP3837126A1 - Roof module for a vehicle roof of a passenger motor vehicle - Google Patents

Abstract

The invention relates to a roof module (10) for a vehicle roof of a passenger car, having a module frame which comprises a front and a rear module frame transverse element (26) and respective lateral module frame longitudinal elements, comprising at least one cover element (20) which is held on the module frame. The roof module is characterised in that the front module frame longitudinal element (26) is designed as a shell element, which can be connected to a shell element (22) on the body shell side, forming a roof cross-member (24) enclosing a cavity (42).

Description

 Roof module for a vehicle roof of a passenger car

The invention relates to a roof module for a vehicle roof of a passenger car according to the preamble of claim 1. Furthermore, the invention relates to a passenger car according to the preamble of claim 6. Furthermore, the invention relates to a method for producing a vehicle roof of a motor vehicle according to claim 13.

Such a roof module for a vehicle roof of a passenger car is known from DE 10 2015 013 751 A1 and comprises a front and a rear

Module frame cross element and respective lateral module frame longitudinal elements which are connected to one another to form a circumferential, at least substantially rectangular module frame. In addition, the roof module comprises at least one cover element in the form of a displaceable sliding and / or lifting cover, which is guided or supported on the module frame.

The entire roof module is inserted into a roof opening in the vehicle body, which is delimited by cross-section and longitudinal frame parts on the shell side. These are usually formed from two shell elements each, which are joined together by means of corresponding flanges or the like to form a respective cavity. This arrangement of the roof module on the vehicle roof requires a relatively large amount of space overall, on the one hand for the respective transverse and longitudinal frame parts of the vehicle roof designed as hollow beams and on the other hand for the respective module frame transverse and longitudinal elements of the roof module. For example, components of the roof module, such as the drive of the sliding and / or lifting cover, can only be seen in front of the vehicle when viewed in the forward direction of travel

front roof cross member on the shell side. This in turn means that the see-through opening of the roof module that is visible to a vehicle occupant can at most extend forward to the said components, as a result of which the light dimension of the inspection opening can be dimensioned correspondingly lower overall.

Furthermore, from DE 100 46 674 A1 a roof module emerges, in which the drive motor for a sliding / lifting cover according to a first embodiment variant in a hollow chamber of the front module frame cross member, which in

Shell construction is carried out, is housed. According to a second

Design variant of the roof module, the drive motor is arranged directly under the front module frame cross member designed as a hollow beam. Both design variants have in common that the roof module has a correspondingly large height, at least in its front area, which has an unfavorable effect on the headroom of the occupants sitting in front.

The object of the present invention is to provide a roof module for a vehicle roof and a passenger car with a roof module arranged in a roof opening, which at the same time reduces the overall weight of the

Vehicle roof construction have a relatively high rigidity. Task of

The invention is also to provide a manufacturing method for a vehicle roof that is suitable for receiving a roof module with a relatively large see-through area and also allows only a low overall weight of the roof structure.

This object is achieved by a roof module with the features of claim 1 and by the arrangement of such a roof module in one

Roof opening of a vehicle roof according to the features of claim 6 and solved with a method according to claim 13. Advantageous configurations with

Expedient developments of the invention are the subject of the dependent claims.

The roof module comprises a module frame, which has a front and a rear module frame cross element and respective lateral module frame longitudinal elements, and at least one cover element which is held on the module frame. The roof module is characterized by the fact that - in the forward direction of the

Passenger car seen - the front module frame cross element is designed as a shell element which is to be connected to a shell element on the shell side to form a roof cross member enclosing a cavity. in the

Difference to known roof modules, in which the front

Module frame cross element to an already finished, usually double-shell Roof crossmember is connected, it is therefore now provided according to the invention to create a single, that is, common front roof crossmember for the body roof and the module frame, which on the one hand by a shell shell element and on the other hand by the front

Module frame cross member is formed as a second shell element. With this

The roof crossmember is therefore a type of hybrid part, consisting of a lower, shell side and an upper, roof module side each

Shell element, wherein the two shell elements can be formed from respective metal alloys or also from plastic. A classic hybrid component is also conceivable here, that is to say one of the shell elements can consist, for example, of a metal material and the other shell element can consist of plastic material.

It is essential, however, that a hollow box-shaped roof cross member is formed from a shell element on the shell and from a shell element on the roof module side, which is only obtained when the roof module is mounted on the motor vehicle. Compared to the classic design, i.e. a multi-layer body roof crossmember, the front roof crossmember assembled in this way enables a frame cross element of the roof module in

The vehicle's longitudinal direction is set back or set back, in addition to weight advantages, also the possibility of reducing the installation space to be provided in the vehicle's longitudinal direction and thus an enlarged inspection opening for the vehicle occupants.

A further advantage of this assembly of the shell element on the shell side and the shell element on the roof module side is that the cavity enclosed by it or the installation space of the roof cross member can also be used, in particular for accommodating other components, for example a drive for the cover element or a shade blind, so that in particular that Clearance of a viewing opening for the vehicle occupants can be increased towards the front. For the vehicle occupant, this means more space or a more comfortable view through the enlarged

Viewing opening of the roof module upwards.

An embodiment of the roof module in which

at least one drive for displacing the cover element or a roller blind for shading a vehicle interior is provided, with at least part of the drive being arranged and fixed in position in a pre-assembly step on the side of the front module frame cross element facing the shell side shell element is fixed, so that when the roof module is mounted on the vehicle roof, this part of the drive is arranged inside the cavity. The drive is preferably an electric drive, in particular an electric motor, which drives at least one drive cable which interacts with the cover element or the roller blind, preferably with tension and compression resistance, or serves to displace it.

According to an advantageous embodiment, the cavity of the

Roof crossmember for housing parts of the drive for the movable

Cover element and / or a shade blind used, the drive being attached to the shell-shaped, front module frame cross element before the roof module is inserted into the roof opening. This results in the assembly of the roof module, an arrangement of the drive within the cavity of the roof cross member created by inserting the roof module from above into an opening in the vehicle roof, which previously had to be arranged outside this and consequently limited the installation space in the manner described. So far, this has not been possible because the front roof cross member has already been completed on the shell side and consequently no components could be arranged in the cavity of the roof cross member in the subsequent assembly of the roof module. The fact that the front roof cross member is now only formed or closed when the roof module is installed is the

Accommodation of the components in the circumference, preferably closed

Cavity of the roof crossmember is now possible. It is also advantageous that at least one component of the drive is arranged on an inside of the front module frame cross element facing the cavity of the roof cross member. When the module frame cross element is connected to the shell element on the shell side, the arrangement of the respective drive component within the cavity of the roof cross member is inevitable.

In addition to the components of the drive, other components can of course also be accommodated within the cavity of the roof cross member being created, for example by fastening these components to the front module frame cross element and then positioning them within the cavity when connecting to the shell element on the shell side.

In a further embodiment of the invention, the front module frame cross element on its side facing away from the shell element on the shell side has an indentation for receiving a wind deflector, the indentation in the cavity of the Roof cross member protrudes. A wind deflector is accommodated in this groove-shaped or groove-shaped recess, which extends over at least a considerable part of the length of the roof cross member. The wind deflector can thus also be accommodated in a particularly space-saving manner. Because of the invention

There is an embodiment of the front roof crossmember, on which the front window is adjacent or rests with its rear upper edge region

Possibility of placing the wind deflector in the vehicle longitudinal direction (x direction) significantly further forward, namely in the roof frame area, in contrast to the arrangement customary in known motor vehicles in principle in the x direction behind the roof frame, which significantly improves the mode of operation of the wind deflector, in particular the aeroacoustics.

The above in connection with the roof module according to the invention

The advantages described result in the same way for the passenger car according to claim 6. This is further characterized in that the front module frame cross element is designed as a shell element which is connected to a shell shell element on the shell side to form a roof cross member enclosing a cavity. In this way, a particularly favorable positioning of the module frame cross element with respect to the installation space can be achieved, so that, for example, a roof opening of the roof module located behind it in the x-direction against the forward direction of travel of the passenger car can be made particularly large or that the shell element formed by the front module frame cross element and the shell element on the shell side

Roof crossmember particularly far forward and thus particularly space-saving

can be arranged.

An embodiment of the passenger car is preferred in which, after the roof module has been inserted into the roof-side body opening, the front one

Module frame cross element is also connected at its end regions directly or by means of at least one connecting element, for example a connecting bracket or the like, to the A-pillars. This can despite the

Space-saving, especially in the vehicle vertical direction (z direction) relatively flat and in the vehicle longitudinal direction (x direction) relatively short, combined

Roof cross member module frame cross elements shell construction a relatively high body rigidity can be achieved. In a preferred embodiment, it is provided that the front one designed as a shell element

Module frame cross element and the shell shell element each flanges have at which these abut each other and are also connected there. The cavity of the roof cross member, which is quasi designed as a hollow beam, is limited between these parts and is virtually closed at the end when the module frame cross element is connected to the A-pillars.

In a particularly advantageous embodiment (Figure 1) of the

Passenger motor vehicle is provided that the front module frame cross element projects with a front end region under a front window of the motor vehicle and that the front window in its rear, upper transverse edge region extends from the front

Module frame cross member is supported from below. So that means that

Front window on the front roof crossmember, especially the top one

Shell element, which is formed by the front module frame cross element of the roof module, rests and is preferably attached thereto, in particular by means of an adhesive connection and / or a releasable mechanical connection, for example a screw connection.

In an alternative exemplary embodiment (FIG. 3) of the passenger car, the shell element on the bodyshell side projects forward over the front one

Module frame cross member with a flange to which the front window is attached, and that the front module frame cross member rests and is attached to this flange, as seen in the longitudinal direction of the vehicle. This embodiment enables the windshield to be fitted with the

Shell shell element connected, in particular is or can be glued, before the roof module is inserted into the roof opening of the body and the front roof cross member is completed by fitting the front module frame cross element.

Furthermore, an embodiment of the passenger car is preferred, in which the front window adjoins a front transverse edge of the cover element of the roof module with a rear upper transverse edge. A gap or a joint is therefore formed between the windshield and the displaceable cover element which is arranged in a closed position and extends in the transverse direction of the vehicle. Due to the extension of the cover element in the longitudinal direction of the vehicle right up to the windshield, the front roof cross member of the vehicle body, which is arranged underneath, is covered upwards or partly by the windshield and partly by the cover element of the roof module. A further advantageous embodiment (FIG. 1) of the invention provides that the front module frame cross element and the shell shell element at the front end at least essentially flush and the front one

 Module frame cross element projects beyond the shell shell side element to the rear with an end region. Towards the front, a connecting flange of the two shell elements can thus be arranged particularly far forward, so that a maximum cavity of the roof cross member formed is available, for example, for accommodating respective components of the roof module. Further functional areas can be provided on the end area of the front module frame cross element projecting towards the rear, for example receptacles for seals of the displaceable one

Cover element of the roof module.

Finally, it has proven advantageous if the front

 The module frame cross element on its side facing away from the shell shell element is provided with an indentation for receiving a wind deflector, the indentation protruding into the cavity of the roof cross member and being so deep that the front module frame cross element and the shell shell element can be connected to one another in this area of the roof cross member respectively are. Such a center, preferably seen in the longitudinal direction of the motor vehicle

Connecting the two shell elements has the particular advantage that the roof crossmember that is created can be made particularly stable and rigid. In addition, the size of the respective hollow chambers of the roof rack can be varied by positioning the connection point of the two shell elements, for example in order to achieve a stable hollow chamber in the front area, which can fully fulfill the function of the previous shell cross member on the shell side.

To achieve the object, a method according to claim 13 is also proposed. This provides that, in order to produce a vehicle roof of a motor vehicle provided with a roof module according to one of claims 1 to 5, first a lower window element forming part of a roof cross member arranged on the upper transverse edge of a front window of the motor vehicle with a respective front window in the finished state of the motor vehicle laterally holding and limiting A-pillars. Then the roof module according to the invention is inserted from above into a roof opening of the vehicle roof, which is from the

body-side roof frame is used. Here, an as

Shell element formed, front module frame cross element placed on the shell / body side lower shell element, which together form a cavity include, and connected to this. Only by inserting the roof module is the body-side, front roof cross member manufactured or completed.

According to a first embodiment variant of the method, only after the roof module has been inserted into the roof opening of the bodywork, the windshield is inserted into the side of the A-pillars, from the upper roof cross member above and a lower one

body-side cross member, which is also referred to as the lower windshield cross member, inserted limited front opening and connected there, in particular glued, to the components delimiting the front opening. This results in a particularly narrow frame construction of the vehicle longitudinal direction

Vehicle roof and also the roof module, which also have a low overall height. The advantages in the possible accommodation of the at least part of the drive for moving the cover element and / or a roller blind for shading a vehicle interior are thus readily apparent, as already described above.

According to a second embodiment variant of the method, the windshield is already provided with a flange of the front protruding in the longitudinal direction of the vehicle

Shell-side shell element connected, in particular glued, before the roof module is inserted into the roof opening of the body shell. The connection area on the shell shell element for the front

Shell element forming the module frame cross element is accordingly in

Seen vehicle longitudinal direction set back to the rear.

Further advantages and details of the invention result from the following description and from the drawing. Show:

Fig. 1 shows a section along in the vehicle vertical direction and in

 Section plane extending in the longitudinal direction of the vehicle through the arrangement of a first exemplary embodiment of a roof module in a roof opening of a first exemplary embodiment of a vehicle roof of a passenger vehicle in the region of a front roof cross member arranged adjacent to a front window of the motor vehicle

Motor vehicle body; Fig. 2 is a perspective view of a lower shell element of a shell-side, front roof cross member, on which several drive components of a drive of a displaceable cover element of the roof module are shown in their installed position, and

Fig. 3 shows a section along in the vehicle vertical direction and in

 Section plane extending in the longitudinal direction of the vehicle through the arrangement of a second exemplary embodiment of the roof module in a roof opening of a second exemplary embodiment of the vehicle roof of a passenger car in the region of a front roof cross member arranged adjacent to a front window of the motor vehicle

 Motor vehicle body.

In Fig. 1 is a partial sectional view along a in

Vehicle longitudinal direction (x-direction) and in the vehicle vertical direction (z-direction), with respect to the vehicle transverse direction (y-direction) laterally offset to the vehicle longitudinal central axis arranged an arrangement of a sectional plane

Roof module 10 in a roof opening 12 of a vehicle roof

Passenger car shown. First of all, a windshield 14, often also referred to as a windshield, can be seen, which has a rear upper transverse edge 16 adjoining a front transverse edge 18 of a further cover element 20 of the roof module 10, which is explained in more detail.

The body / bodyshell-side roof opening 12 of the motor vehicle, into which the

Roof module 10 is used is by extending in the vehicle longitudinal direction

Longitudinal roof frame elements and connecting them together, in

Roof frame transverse elements running in the transverse direction of the vehicle, which are also referred to as longitudinal or transverse bars. The

Roof frame cross members / spars are also referred to as roof cross members. The roof frame longitudinal and

 Cross elements are common, even with a particularly preferred one

Embodiment of the invention, each in the form of a shell construction, that is, each of these body-side frame elements is each formed from at least two shell elements which are joined together by means of corresponding flanges or the like to form a respective cavity. The frame elements can optionally be provided with reinforcement and to the outside of the motor vehicle with an outer paneling. It's important, that at least the front of the roof frame longitudinal and transverse elements

Roof frame cross element or the front roof cross member in

Shell construction is carried out.

Furthermore, a shell element 22 on the shell side of a roof cross member 24, which will be explained in more detail below, can be seen in FIG

Front window 14 laterally holding and delimiting A-pillars, not shown here. The shell element 22 is therefore an integral part of the motor vehicle body, which is also referred to as the body-in-white or support structure. The shell element 22 is therefore part of the roof frame of the motor vehicle body which delimits the roof opening 12.

The shell element 22 is made, for example, from the same sheet metal from which the respective shell elements forming the A-pillar are formed. Of course, other materials based on respective metal alloys or plastic materials are also conceivable. In a preferred exemplary embodiment, the shell element 22 is a deep-drawn part, which is formed from a sheet metal blank, for example a plate, board, board or the like, or a corresponding semi-finished product by means of a corresponding deep-drawing process into a hollow body which is open on one side. It is important that the shell element 22 extends between the A-pillars and is firmly connected to the A-pillars with or at its end regions.

According to the invention it is provided that the shell element 22 the front

Roof cross member 24 of the motor vehicle body forms or at least the

Basic body of the roof cross member 24, on which then reinforcement parts,

Insulating materials and the like can be attached. In contrast to known motor vehicles, the roof cross member 24 is therefore not a classic hollow profile, at least not before the roof module 10 according to the invention is attached to the motor vehicle body, which will be discussed in more detail below.

The roof module 10 comprises a module frame which is preferably closed on the circumference and has a receiving opening for the cover element 20 and which is formed from a front module frame cross element 26 and a rear module frame cross element (not shown in the figures) and lateral module frame longitudinal elements connecting the module frame cross elements to one another. In this exemplary embodiment, the module frame has an overall rectangular shape. The

Module frame cross elements and the module frame longitudinal elements can be formed in one piece or in several parts and to a corresponding

Assembled or otherwise connected.

In a preferred embodiment it is provided that at least the front module frame cross element 26 of the module frame elements is a shell element which is therefore open on one side or has a hollow body open on one side. In connection with the present invention, the term “shell” or “shell element” is to be understood to mean a flat supporting structure, that is to say in particular a body, the thickness of which is only very small in relation to its other dimensions. This body can be curved or - seen in cross-sectional view - have a curvature. Additionally or alternatively, this body can also be provided with an at least partially angular, at least one recessed cross-sectional shape, or in extreme cases as a plate or disk and thus in the case of the

Module frame cross member 26 can ultimately be designed as a cover or closure plate for the body-side shell element 22.

Analogous to the shell element 22, the module frame cross element 26 can be a deep-drawn part, which consists of a sheet metal blank, for example a plate, board, circuit board or the like, or a corresponding semi-finished product by means of

corresponding deep-drawing process is formed into a hollow body open on one side. Of course, the module frame transverse element 26 and the shell element 22 forming part of the vehicle body can also consist of different materials, for example one made of metal and the other made of plastic material.

The cover element 20 is mounted on the module frame, which in the present case is displaceable in the longitudinal direction of the vehicle and / or can be opened with a rear end. According to a special exemplary embodiment of the roof module, in addition to the displaceable cover element 20, a further cover element can also be provided, which is fixedly arranged on the roof frame or the module frame.

In the state of the roof module 10 installed on the motor vehicle, the shell-side shell element 22 of the roof frame forms a lower shell element, onto which the roof module-side front module frame cross element 26 is placed from above when the roof module 10 is inserted into the roof opening 12 of the motor vehicle body. The shell element 22 and the module frame cross element 26 are connected to one another, for example glued to one another, and together form a hollow support , the module frame cross element 26 acting as a second shell element.

The present roof module 10 or its arrangement on the

Vehicle roof is now characterized in particular by the fact that the top-side and module-side shell element or module roof frame cross element 26 and the lower shell-side shell element 22 together form the front roof cross member 24, which extends at least partially in overlap with the rear end of the front window 14 or the front window 14 in Area of the rear transverse edge 16 is supported, which is not shown in Figure 1.

As can be seen in particular from FIG. 1, the module frame transverse element 26, which can be designed in one or more parts and is designed, for example, from a metal alloy or a plastic or in a mixed construction, extends forwardly with an end region 31 to below the windshield 14 and ends in

Essentially flush with a front end of the shell element 22 on the shell side, the two shell elements 22, 26 having respective flanges 28, 30, which are connected via an adhesive connection in the form of at least one adhesive bead 32.

Instead of such an adhesive connection, there would of course be another

Joining connection and / or mechanical connection conceivable.

Towards the rear, that is to say in the vehicle longitudinal direction (x direction), the module frame transverse element 26 extends further than the shell shell element 22 on the bodyshell side and projects over it with an end region 34. In front of this end region 34, the two shell elements 22, 26 are at least one further bead 36 of adhesive connected, which is arranged between a flange 38 of the shell shell member 22 and a wall 40 of the module frame cross member 26. The two

Shell elements 22, 26 enclose a circumferentially closed cavity 42 or form a box profile of the roof cross member 24.

In the exemplary embodiment shown in the figures, the roof cross member 24 has on its upper side, that is to say the side facing the cover element 20, at a distance from the front window 14, measured in the longitudinal direction of the vehicle (x-direction), which is essentially U-shaped in cross-section and has the cross-section is so deep that its bottom section extends right up to the lower shell element 22 and is additionally connected here to the lower shell element 22 by means of at least one additional bead of adhesive 46. Through the indentation 44 is thus the cavity 42 of the roof cross member 24 is divided into two hollow chambers, namely a front hollow chamber 48 and a rear hollow chamber 50, which results in an even further improved stability of the roof cross member 24.

In addition, the U-shaped indentation 44, which extends in the transverse direction of the vehicle and is therefore quasi-trough-shaped, is used to accommodate or accommodate a wind deflector 52 which, when the cover element 20 is moved in the vehicle longitudinal direction (x direction) to the rear or when the cover element 20 is opened in Vehicle vertical direction (z direction) up over the

Extends outside of the module frame cross member 26 to direct wind through the opening exposed by the cover member 20.

In conjunction with FIG. 2, which shows the shell element 22 on the shell side in a perspective view, it can be seen that various drive components of the roof module 10, for example an electric drive 54 for the cover element 20, an electric drive 56 for a roller blind for shading the vehicle interior, provided that the cover element 20 is translucent, and respective, usually tension and compression-resistant drive cables 58 are provided for displacing the cover element 20 and the roller blind. In the pre-assembled state of the roof module 10

preferably all of these components, but at least the electric drive 54 for the cover element 20 and the at least one associated drive cable, which is to be coupled to the cover element 20, are arranged on the roof module 10. At least the electric drive 54 is positioned on the roof module 10 so that it is arranged in the roof module 10 attached to the motor vehicle in the cavity 42 of the roof cross member 24.

It is conceivable, for example, that the respective drive components 54, 56, 58 on the side of the module frame cross element 26 of the roof module 10 as a whole

to be pre-assembled so that the final assembly of the roof module 10 on the vehicle roof automatically results in the arrangement of the respective drive components 54, 56, 58 in the cavity 42 of the roof cross member 24.

It can be seen from FIG. 1 that the drives 54 and 56 are attached by means of brackets 57 to the side of the shell-shaped module frame cross element 26 which forms an inner wall of the cavity 42 of the roof cross member 24, and on the latter

Embodiment practically such that the drives 54, 56 of the

Hang the shell element of the module frame cross element downwards in the z direction and are arranged in contact-free manner with the other wall areas of the cavity 42, in particular with the shell element 22 on the shell side. Narrow tolerances for the module frame and the motor vehicle body are therefore not necessary at this point.

Finally, it can be seen from FIG. 1 that the rear end region 34 of the front module frame cross element has further functional regions, for example a stop 60 for a support and sealing element 62 on the part of the FIG

Vehicle longitudinally adjustable cover element 20.

Overall, it can thus be seen that in the present case a roof module 10 has been created, in which the front module frame cross element 26 is provided with the body-in-white side when the roof module 10 is installed in the roof opening 12 of the vehicle roof

Shell element 22 is joined together to form the roof cross member 24, using the resulting cavity 42 in which corresponding functional elements such as the respective drive components 54, 56, 58 are accommodated. By accommodating these various components, the rear end region 34 of the module frame transverse element 26 can be referred to

The vehicle longitudinal direction (x direction) ends further forward, so that a roof opening which adjoins this rear end region 34 can be pulled further forward. This inspection opening 64 is thus larger, that is to say has a larger light dimension. That is, the see-through opening 64 has at least a greater clear length (light width), which is an improved comfort for the

Seat occupants results. By accommodating the various functional components within the cavity 42 of the roof cross member 24, construction space can also be saved, which would otherwise have to be provided outside the roof cross member 24. In addition, the overall weight of the motor vehicle can be reduced with at least approximately the same stiffness of the body, since the shell-shaped

Complement the module frame cross element 26 and the shell element 22 on the shell side to form the hollow roof cross member 24 which has a high degree of rigidity.

Figure 3 shows a second embodiment of the passenger car with a roof module 10 according to the invention. The same parts are provided with the same reference numerals, so that reference is made to the description of the preceding figures. The essential difference compared to the exemplary embodiment according to FIG. 1 is that the flange 28 of the shell element 22 on the bodyshell side extends towards the front or according to another exemplary embodiment of the Flange 30 of the front module frame cross member 26 is shortened accordingly.

As a result, the front pane 14 can be connected to the shell element 22, as shown, before the roof module 10 is inserted into the roof opening and the roof cross member 24 is thereby completed. The front module frame cross element 26 also lies with its flange 30 on the flange 28 of the shell element 22 and is connected to it, in particular also glued. It is advantageous in this exemplary embodiment that the front pane 14 can already be inserted into the

Body opening used and can be attached to the components defining these openings (A-pillars, lower cross member, shell element 22) before the roof module 10 is used.

In summary, it should be noted that the inventive design of the roof module 10 or the body of the passenger car, in which the roof module is to be inserted, makes it possible to adjust practically all components, in particular drive (s), drive cable, guide / profile rails, etc., for adjusting the cover element 20 and, if provided, the at least one roller blind to be attached to the roof module or its module frame in a preassembly step, so that the roof module ultimately at least in

Can be delivered and used essentially fully functional to the body. It goes without saying that the at least one cover element 20 is already installed / mounted on the roof module.

Claims

claims

1. roof module (10) for a vehicle roof of a passenger car, with a

 Module frame, which comprises a front and a rear module frame cross element (26) and respective lateral module frame longitudinal elements, with at least one cover element (20) which is held on the module frame, characterized in that

 the front module frame cross element (26) is designed as a shell element which can be connected to a shell element (22) on the shell side, forming a roof cross member (24) enclosing a cavity (42).

2. roof module (10) according to claim 1,

 characterized in that

 at least one drive (54, 56) for displacing the cover element (20) relative to the module frame or a roller blind for shading a vehicle interior is provided, and that at least part of the drive (54, 56) is in one

 The pre-assembly step is arranged on the side of the front module frame cross element (26) facing the shell-side shell element (22) and is fixed in position, so that when the roof module is mounted on the vehicle roof, this part of the drive (54, 56) is arranged inside the cavity (42).

3. roof module according to claim 2,

 characterized in that

 the drive (54, 56) comprises a motor which is suspended from the front

Module frame cross element (26) and is arranged at a vertical distance from the shell shell element (22).

4. roof module (10) according to claim 2 or 3,

 characterized in that

 the drive (54, 56), in particular the motor, at a horizontal distance from at least one of the two side wall regions of the shell side

 Shell element (22) is held on the front module frame cross element (26).

5. roof module (10) according to any one of the preceding claims,

 characterized in that

 the front module frame cross element (26) is provided on its side facing away from the shell element (22) on the shell side with an indentation (44) for receiving a wind deflector (52), which in the cavity (42) of the

 Roof cross member (24) protrudes.

6. Passenger cars with a vehicle roof, one with a respective one

 Front window (14) laterally holding and delimiting A-pillars connected roof cross member (24), and with a roof module (10) inserted into a roof opening (12) according to one of claims 1 to 5,

 characterized in that

 the front module frame cross element (26) is designed as a shell element which is connected to a shell element (22) on the shell side, forming the roof cross member (24) including a cavity (42).

7. Passenger car according to claim 6,

 characterized in that

 the front module frame transverse element (26) is also connected at its end regions directly or by means of at least one connecting element to the A-pillars.

8. Passenger car according to claim 6 or 7,

 characterized in that

 the front module frame cross element (26) projects with a front end region (31) under a front window (14) of the motor vehicle and that the front window (14) is in its rear, upper transverse edge region from the front

Module frame cross member (26) is supported from below.

9. Passenger car according to one of claims 6 to 8,

 characterized in that

 the front module frame cross element (26) and the shell shell element (22) end at least substantially flush towards the front and that the front module frame cross element (26) projects beyond the shell shell element (22) towards the rear with an end region (34).

10. Passenger car according to one of claims 6 or 7,

 characterized in that

 the shell-side shell element (22) towards the front over the front

 Module frame cross member (26) with a flange (28) on which the front window (14) is attached, and that on this flange (28) -in

 Seen in the vehicle's longitudinal direction - the front is also set back

 Module frame cross member (26) rests and is attached.

1 1. Passenger car according to one of claims 6 to 10,

 characterized in that

 the front module frame cross member (26) on its the shell side

 Shell element (22) remote from the side is provided with an indentation (44) for receiving a wind deflector (52), the indentation (44) in the

 Cavity (42) of the roof cross member (24) protrudes and is so deep that the front module frame cross member (26) and the shell-side shell element (22) can be connected to one another in this area of the roof cross member (24).

12. Passenger car according to one of claims 6 to 1 1,

 characterized in that

 the front window (14) with a rear upper transverse edge (16) adjoins a front transverse edge (18) of the cover element (20) of the roof module (1).

13. A method for producing a roof module (1) according to one of the

Claims 1 to 5 provided vehicle roof of a motor vehicle, the vehicle roof having a front roof cross member (24) in shell construction, the roof cross member (24) being composed of at least two shell elements (22, 26) delimiting a cavity (42) between them, of to those a lower shell element (22) is connected to respective A-pillars which laterally hold and delimit a front pane (14), and an upper one

Shell element from a front module frame cross element (26) of the

Roof module (10) is formed, and wherein when inserting the roof module (1) into a roof opening (12) of the vehicle roof, the module frame cross element (14) is placed on the lower shell shell element and towards the front

Roof cross member (24) is connected to this.