ROLLER BLIND ARRANGEMENT FOR A MOTOR VEHICLE

Abstract

A roller blind arrangement for a motor vehicle is disclosed which may have a roller blind web which has guiding tapes on its lateral edges on either side of a longitudinal center plane of the roller blind, a winding shaft onto which the roller blind web can be wound or from which the roller blind web can be unwound and which comprises a flexible hollow tube arrangement penetrated by a vehicle-attached mounting beam and comprising a flexible middle tube which is provided with bearing bushes in a co-rotating manner on both ends, each guiding tape of the roller blind web being attached to one bearing bush. At least one of the bearing bushes can shift relative to the middle tube in the longitudinal direction of the hollow tube.

Claims

1. A roller blind arrangement for a motor vehicle, the roller blind arrangement comprising: a roller blind web which has guiding tapes at its lateral edges on either side of a longitudinal center plane of the roller blind, a winding shaft onto which the roller blind web can be wound or from which the roller blind web can be unwound and which comprises a flexible hollow tube arrangement penetrated by a vehicle-attached mounting beam and comprising a flexible middle tube which is provided with bearing bushes in a co-rotating manner on both ends, each guiding tape of the roller blind web being attached to one of the bearing bushes, wherein at least one of the bearing bushes can shift relative to the middle tube in the longitudinal direction of the hollow tube.

2. The roller blind arrangement according to claim 1, wherein the hollow tube arrangement is provided with a coupling element which is connected to the middle tube in a co-rotating manner, the coupling element connecting the bearing bush that can shift relative to the middle tube in the longitudinal direction of the hollow tube to the middle tube.

3. The roller blind arrangement according to claim 1, wherein the bearing bush comprises at least one guiding element which engages into a guiding track of the coupling element or of the middle tube.

4. The roller blind arrangement according to claim 3, wherein the guiding element is formed by a hook-shaped resilient guiding tab.

5. The roller blind arrangement according to claim 1, wherein the bearing bush that can shift relative to the middle tube in the longitudinal direction of the hollow tube has an outer profile which engages into an inner profile of the coupling element or of the middle tube.

6. The roller blind arrangement according to claim 1, wherein the bearing bush that can shift relative to the middle tube in the longitudinal direction of the hollow tube has an annular collar via which the bearing bush is supported on a vehicle-attached support surface.

7. The roller blind arrangement according to claim 1, wherein the winding shaft comprises a winding spring which is connected to the mounting beam at one side and to the hollow tube arrangement at the other side.

8. The roller blind arrangement according to claim 7, wherein the winding spring is attached to the bearing bush that can shift relative to the middle tube in the longitudinal direction of the hollow tube.

9. The roller blind arrangement according to claim 1, wherein the mounting beam is curved.

Description

[0021] A preferred embodiment of a roller blind arrangement according to the invention is illustrated in a schematically simplified manner in the drawing and will be explained in more detail in the following description.

[0022] FIG. 1 is a top view of a vehicle roof having a roller blind arrangement according to the invention;

[0023] FIG. 2 is a schematic longitudinal section through a winding shaft of the roller blind arrangement;

[0024] FIG. 3 is a perspective top view of a first bearing area of the winding shaft;

[0025] FIG. 4 is a perspective top view of a second bearing area of the winding shaft;

[0026] FIG. 5 is a perspective bottom view of the first bearing area;

[0027] FIG. 6 is a perspective bottom view of the second bearing area;

[0028] FIG. 7 is a top view of the first bearing area;

[0029] FIG. 8 is a top view of the second bearing area;

[0030] FIG. 9 is a longitudinal section through the first bearing area along line IX-IX in FIG. 7;

[0031] FIG. 10 is a longitudinal section through the second bearing area along line X-X in FIG. 8;

[0032] FIG. 11 is a perspective top view of a bearing bush of the first bearing area;

[0033] FIG. 12 is another perspective view according to FIG. 11, showing the bearing bush in a position rotated by 180; and

[0034] FIG. 13 is a perspective top view of a bearing bush of the second bearing area.

[0035] The drawing shows a vehicle roof 10 of a passenger vehicle not shown in further detail, vehicle roof 10 having a roof cutout 12 which can be closed or at least partially opened by means of a not shown transparent lid element.

[0036] Vehicle roof 10 comprises a roller blind arrangement 14 as a shading element for roof cutout 12, roller blind arrangement 14 comprising a roller blind web 16 made of a foldable or windable opaque fabric. At its free edge, roller blind web 16 has a pull bar 18 which extends in the transverse direction of the vehicle. At its edge facing away from pull bar 18, roller blind web 16 is attached to a winding shaft 20 which extends in the transverse direction of the vehicle. Winding shaft 20, which is illustrated schematically in FIG. 2, is curved in the transverse direction of the vehicle and comprises a curved mounting beam 22 which is attached to the vehicle and which is connected to vehicle-attached bearing elements 24A and 24B on either side of a vertical longitudinal center plane of the roller blind. Bearing elements 24A and 24B are disposed on the rear sides of guiding rails 26A and 26B which extend in the longitudinal direction or in the pulling direction of roller blind web 16 and in which lateral edges of roller blind web 16 are guided via guiding tapes 28A and 28B which are connected to roller blind web 16.

[0037] Furthermore, winding shaft 20 has a flexible hollow tube arrangement 30 which surrounds mounting beam 22. Hollow tube arrangement 30 comprises a flexible plastic middle tube 32, which is realized as a corrugated tube and which is provided with plastic overmolds on its ends disposed on either side of the vertical longitudinal center plane of the roller blind, said overmolds forming coupling elements 34A and 34B and being disposed rigidly with respect to middle tube 32. Via coupling elements 34A and 34B, bearing bushes 36A and 36B are connected to middle tube 32 on both sides. Bearing bushes 36A and 36B are mounted in a rotating manner on bearing journals 38A and 38B which are part of mounting beam 22 and formed on bearing elements 24A and 24B.

[0038] In addition to bilaterally disposed bearing journals 38A and 38B, mounting beam 22 comprises a central tube 40 which is connected to bearing journal 38A at one end via a connecting pin 42 and plugged onto bearing journal 38B at the other end.

[0039] Bearing bush 36A, which is disposed on the left with respect to the forward direction of travel of the vehicle in question and which is mounted in a rotating manner on mounting beam 22 or, more precisely, on its bearing journal 38A, has fixing pins 44 at its circumference, which serve to attach tape 28A of roller blind web 16. In its end portion facing away from bearing element 24A, bearing bush 36A has, at the circumference, an outer profile 46 which engages into a corresponding inner profile of coupling element 34A, whereby a co-rotating connection is established between bearing bush 36A and coupling element 34A and middle tube 32. Outer profile 46 thus forms outer gear teeth which engage into inner gear teeth of coupling element 34A.

[0040] Furthermore, bearing bush 36A comprises a hook-shaped resilient guiding tab 48 which extends in the axial direction and whose hook portion 50 engages into a guiding track 52 when in the mounted position, which is illustrated in the drawing, said guiding track 52 being oriented axially with respect to winding shaft 20 and being formed in the manner of a window on the plastic overmold, i.e. coupling element 34A. Guiding tab 48 or, more precisely, hook portion 50 of guiding tab 48 has an introduction slope 54 which facilitates introduction of bearing bush 36A into coupling element 34A during assembly.

[0041] On its front side facing away from bearing element 24A, bearing bush 36A has an annular collar 56 which faces radially inward and which is supported on bearing journal 38A at one side and on an annular collar 58 of connecting pin 42 of mounting beam 22 at the other side, thereby defining an exact position of bearing bush 36A with respect to the axial direction of winding shaft 20.

[0042] As is implicitly apparent from the description above and from the drawing, bearing bush 36A is disposed for co-rotation with middle tube 32 because of outer profile 46, which engages into the inner profile of coupling element 34A, but can shift relative to middle tube 32 in the axial direction, whereby changes in the length of middle tube 32 due to temperature and/or humidity fluctuations can be compensated.

[0043] As can be gathered from FIGS. 9 and 12, in particular, bearing bush 36 has, at its circumference, a mount 60 which delimits a nose-like protrusion and which serves to mount a winding spring 62 which, as a coil spring, is guided along central tube 40 as far as to bearing journal 38B of mounting beam 22, where its end facing away from bearing element 24A is mounted in a vehicle-attached manner. Winding spring 62 is pre-loaded in such a manner that hollow tube arrangement 30 is subject to permanent pre-load in the winding direction of roller blind web 16. This ensures that roller blind web 16 is automatically wound onto winding shaft 20 when pull bar 18 is released.

[0044] Bearing bush 36B, which is mounted in a rotating manner on bearing journal 38B, largely corresponds to bearing bush 36A, but differs from the latter in that it does not have a mounting feature for winding spring 62 in the form of a mount or the like, nor does it have an annular collar projecting inward in the direction of its axis. Like bearing bush 36A, however, bearing bush 36B has fixing pins 44 for guiding tape 28B, an outer profile 46 engaged with an inner profile of coupling element 34B, and a guiding tab 48 engaging into a window-like guiding track 52 of coupling element 34B and having a hook portion 50 and an introduction slope 52. Thus, bearing bush 36B is connected for co-rotation with coupling element 34B, i.e. with middle tube 32 of hollow tube arrangement 30, while being able to shift in the axial direction relative to middle tube 32 in order to compensate changes in the length of middle tube 32.

REFERENCE SIGNS

[0045] 10 vehicle roof

[0046] 12 roof cutout

[0047] 14 roller blind arrangement

[0048] 16 roller blind web

[0049] 18 pull bar

[0050] 20 winding shaft

[0051] 22 mounting beam

[0052] 24A, B bearing element

[0053] 26A, B guiding rail

[0054] 28A, B guiding tape

[0055] 30 hollow tube arrangement

[0056] 32 middle tube

[0057] 34A, B coupling element

[0058] 36A, B bearing bush

[0059] 38A, B bearing journal

[0060] 40 central tube

[0061] 42 connecting pin

[0062] 44 fixing pins

[0063] 46 outer profile

[0064] 48 guiding tab

[0065] 50 hook portion

[0066] 52 guiding track

[0067] 54 introduction slope

[0068] 56 annular collar

[0069] 58 annular collar

[0070] 60 mount

[0071] 62 winding spring