The invention relates to a convertible vehicle comprising a roof which can be stowed in the rear vehicle region. More particularly, the present invention relates to a hold down device for retaining the top in an open position.
Convertible automotive vehicles include retractable roofs that are movable between a closed position covering a passenger compartment and an open position disposed in a storage space behind the passenger compartment. While driving with the roof in the open position, vibrations or bumps may cause parts of the roof to rub against each other resulting in premature wear.
To secure the stowed roof against such movements and also against an uncontrolled unfolding of the roof, it is known to provide holding-down devices for the positional securing of the roof stowed in the car body. For example, they can be associated with a top storage well cover which engages over the stowed roof. Such holding-down devices, however frequently press on the cover material, which again promotes wear. In addition, it is often desired as part of simplification and weight saving and optimization of the trunk volume to dispense with such a top storage well cover, in particular when the front region of the actual roof adjoining the windshield frame when the roof is closed remains unturned in the stowed state and substantially fills up the inlet opening.
It is the underlying problem of the invention to achieve a securing of the open roof which is as advantageous as possible in a generic convertible vehicle.
One or more holding down devices for the roof is or are formed by the configuration of a convertible vehicle in accordance with the invention independently of the presence of a top storage well cover. In addition, an abrading contact between the holding down device, on the one hand, and the roof cover or a painted surface of a fixed roof part, on the other hand, is prevented by the action on lateral roof linkage parts of the stowed roof. The contact surface of the holding down device at the roof linkage part must not be visible when the roof is closed.
A plurality of holding down devices can be realized per vehicle side without any great effort, which can effect a particularly good roof securing.
If each holding down device includes a pressure piece which can be pivoted open onto the roof linkage parts from above, the pressure device can be pivoted in through the inlet opening during the roof passage without restricting the inlet opening. The pressure nevertheless acts downwardly in the outwardly pivoted state and secures the roof against upward movements. The pressure piece can advantageously be angled such that it engages around the roof linkage at least partially and therefore also secures the latter against lateral movement.
A particular saving in moving parts and thus also a weight saving results when, in a dual function, the linkage keeps a trimming part for the covering or releasing of a part of an inlet opening of the roof movable into the car body. No separate linkage is required for this.
The linkage can particularly favorably be held in flat contact at a rear wall bounding the passenger compartment such that it holds the trimming part in a releasing position in a location beneath the plane of the inlet opening displaced at least partially with respect to its covering position in the direction of a vertical longitudinal central plane of the vehicle, set upright and extended transversely to the vehicle, with it being pivotable outwardly from this position into an intermediate position set upright. An optimization of the trunk is thus achieved with a simultaneously maximum available movement space for the roof.
Provided the trimming parts have been pivoted inwardly in a releasing position from an intermediate position set upright, in particular the trimming parts can then be pivoted outwardly with the roof stowed without colliding with the roof peak, even if the roof peak reaches closely up to the trimming parts initially still disposed in the released position. This permits a very favorable stowage position moved far to the front for the roof.
If, with the roof open, the front roof end connected to a windshield frame with the roof closed is stowed in a constant orientation and if its side facing upwardly with a closed roof forms a visual termination surface for a substantial part of the middle region of the inlet opening, the roof end falls off toward its transverse sides with a customary vehicle design so that the use of trimming parts with the holding down devices in accordance with the invention can particularly be realized with good visual and mechanical aspects in these marginal regions.
Further advantages and features of the invention result from an embodiment of the subject matter of the invention shown schematically in the drawings and described in the following descriptions.
Referring to the figures, a convertible vehicle is indicated at 1 in accordance with the invention, which can be either a four-seater or a five-seater vehicle having a rear seat or a two-seater. The vehicle 1 includes a roof 2 that is movable between a closed position covering a passenger compartment and adjoining a windshield frame and an open position disposed in a storage space behind the passenger compartment. The roof 2 may be in the form of a retractable hard top or a soft top.
The roof 2 includes lateral roof linkage rails or parts 12, which extend longitudinally in a direction of travel F and along opposite sides of the vehicle 1. The lateral roof linkage parts 12 generally provide the connection between the roof 2 and main bearings arranged in the car body 4 and partly hold a plurality of roof parts to one another in the manner of lateral frame parts. The roof 2 can be stowed in the open position in a rear vehicle, for which purpose an inlet opening 3 into the car body 4 is provided which the roof 2 passes through completely or at least substantially during its stowing.
The roof 2 can be moved manually or fully automatically or semi-automatically.
In the present embodiment, the roof 2 can be stored in the car body 4 in a “Z fold” configuration, wherein the front roof end 5 connected to a windshield frame in the closed state maintains its orientation in the stowed state, with outer side 6 facing upward in both the stowed position and the closed state.
The transverse edges 7 of the front roof end 5 fall off due to the raised roof shape. When the region of the front roof end 5 at the middle with respect to the transverse direction of the vehicle is approximately disposed in the plane of the inlet opening 3, the transverse edges 7 therefore project further downwardly into the car body 4. With the roof 2 open, its upwardly facing side 6 can itself form a visual termination for a substantial part of the middle region of the inlet opening 3. A cover which engages over or similar can then be omitted here. Due to the falling off transverse edges 7, in contrast, a separate visual cover is advantageous outwardly, but not compulsory.
In the illustrated embodiment, a movable trimming part 8 is therefore shown at each side which is movably held at a linkage 9 transverse to the vehicle and parallel to a rear wall 11 bounding the passenger compartment to the rear. Depending on the course of this rear wall 11, transverse to the vehicle therefore does not necessarily mean an angle of 90° to the longitudinal axis of the vehicle. The linkage 9 simultaneously serves the movement of one or more holding down devices 10, 10a which each act, with an open roof 2, via an elastically deformable pressure body 13, 13 acting as a buffer on lateral roof linkage parts 12 of the stowed roof 2. The buffer 13, 13a is angled and its one limb 14, 14a engages around the roof linkage part 12 such that it is also secured against movement in the transverse direction of the vehicle. With a simultaneous forming of two holding down devices 10, 10a, which is only shown by way of example here, the limbs 14, 14 can be disposed opposite one another in the securing position to thus counteract a transverse movement of the stowed roof 2 to any side.
The linkage 9 for the holding down devices 10, 10a and the trimming part 8 here includes a four-bar linkage 15, 16, 17, 18 for its inward and outward pivot movement transverse to the vehicle 1. A single-bar linkage is alternatively possible, in particular when a large vehicle width is available.
The pressure piece 13 is arranged at the outer lever H1 of the four-bar linkage 15, 16, 17, 18 and is thereby pivotable open from above onto the roof linkage part or parts 12. In the embodiment, the same relationships are present at both vehicle sides; a one-side holding down device 10, 10a may also possibly be sufficient for a pure securing of the roof.
Since, in the outward displacement of the holding down device or devices 10, 10a, the linkage 9 displaces the latter with a component in the transverse direction of the vehicle, the lateral passage space is vice versa free for the roof linkage parts 12 with inwardly pivoted holding down devices 10, 10a. No adaptations therefore have to be made to the roof 2; the configuration in accordance with the invention can also be retrofitted on existing convertible vehicles.
For the movement of the holding down device 10, 10a, a separate actuator or (electric) drive 19 may be provided which, for example, acts on one of the levers H1, H2 via a pull-push bar 20.
To prevent an unintentional movement of the holding down device 10, 10a from its securing position, the outer lever H1 of the four-bar linkage 15, 16, 17, 18 can be held down by the inner lever H2 via a protruding arm or force communicator 21, whereby the four-bar linkage is also secured when the drive 19 is associated with the inner lever H2 of the four-bar linkage arranged more closely to the longitudinal central plane. The force communicator 21 can be made simply as a shaped part at the inner lever H2 which presses onto the outer lever H1 in the intermediate position or covering position. An upwardly directed force on the holding down device or devices 10, 10a can then be absorbed via the blocked drive 19. As an additional securing, which also permits a drive 19 when idling, a conical pin-type lock 22 is provided into which a co-moved axle stump 23 of a lever H1, H2 engages in the securing position.
The effort for the drive 19 and the linkage 9 is minimized here in that they also move and support the trimming parts 8 in a dual function.
The trimming part 8 can be pivoted upwardly out of the covering, substantially horizontal position in accordance with
This intermediate position permits the following inward pivoting via the four-bar linkage 15, 16, 17, 18 also moving the holding down device 10, 10a (
The drive 19 can also effect the pivoting of the trimming part 8 around the axis 24 via a corresponding force deflection; for this purpose, alternatively, a second drive or a compulsory movement with spring force assistance can also be provided. The pivot axis 24 is advantageously pivotable inwardly and outwardly together with the trimming part 8, just like the holding down device 10, 10a is moved along in a compulsory manner with this transverse displacement.
The holding down device 10, 10a secures the lateral roof linkage parts 12 both in the intermediate position and in the covering position of the trimming part 8 and is thus independent of the further pivoting around the axis 24.
Contrary to what is shown in the embodiments, the trimming parts 8 can also pivot from the intermediate position to the rear and then cover a region disposed further to the rear. The holding down device 10, 10a does not have to be changed for this.
The invention has been described in an illustrative manner. It is, therefore, to be understood that the terminology used is intended to be in the nature of the words of description rather than of limitation. Many modifications and variations of the invention are possible in light of the above teachings. Thus, within the scope of the appended claims, the invention may be practiced other than as specifically described.
Number | Date | Country | Kind |
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10 2004 041 539.0 | Aug 2004 | DE | national |
This application is the United States national phase of Patent Cooperation Treaty application No. PCT/DE05/001326, filed Jul. 28, 2005, which claims priority to German patent application No. DE 10 2004 041 539.0, filed Aug. 27, 2004, the entire content of both of which is incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE05/01326 | 7/28/2005 | WO | 11/5/2007 |