1. Field of the Invention
The invention concerns a motor vehicle with a roof, which has at least one part that can be fully moved to allow the roof to be opened.
2. Description of the Related Art
DE 199 26 474 A1 describes a convertible that allows two roof positions, namely, a completely closed position and a completely open position, especially in a high construction vehicle. To this end, the roof is divided transversely into several roof sections arranged one behind the other. However, besides the two specified roof positions, no others are possible. In addition, the conversion of the roof from its closed position to its open position and vice versa must be carried out with the vehicle stopped or nearly stopped, because a rear roof part makes an acute angle with the direction of travel as it is opened and therefore presents a large surface of attack to the airflow over the vehicle.
The invention is based on the problem of creating a motor vehicle that has a high degree of flexibility with respect to the opening of the roof parts.
The invention solves this problem with a motor vehicle that has a roof with at least one movable roof part that can be fully opened and extends from an area adjacent to a windshield frame to a rear roof part, wherein a raisable rear section of the movable roof part is raisable in such a way that a section of the movable roof part located in front of the raisable rear section remains in a closed position.
The invention makes it possible to raise only one rear section of a roof part that can also be fully opened, and this makes it possible to realize a large number of opening states of this roof part. As a result of the fact that when the rear section of this roof part is raised, the roof part remains otherwise closed, an especially low-draft ventilation position can be realized. The total opening movement does not have to be initiated to allow the partial opening in the rear section, so that the mechanism for the partial opening can be kept simple. Another advantage is that the airflow attack surface is minimized, so that the movement into the raised position and the return movement are also possible while the vehicle is moving, even at high speeds.
If the movable roof part occupies the whole width between the side windows, then a convertible vehicle or targa-top vehicle can be formed with the roof part completely opened. Even if only the rear section is raised, then a ventilation opening that covers the entire interior width is created. The open-air feeling is greatly enhanced compared to vehicles with solid roof frame parts, in which only a sliding or tilt sunroof has been installed in the central area of the roof.
Whether the rear roof part can also be lowered into the automobile body to create a convertible, or only a partial opening of the roof is to remain possible is independent of the roof part design of the invention. Therefore, this design can be used for a wide variety of roofs and thus allows maximum flexibility.
It is advantageous that it is also possible for the rear roof part of a vehicle also to be optionally lowered, depending on the loading situation, or, if, for example, more storage space is needed, to remain in the targa position.
If the movable roof part is covered by a flexible, especially textile, covering, it is advantageous to provide a roof bow to allow the rear section of the movable roof part to be raised. This roof bow can be displaced relative to lateral frame parts on which it is mounted but can be moved with the lateral frame parts to allow complete opening of the roof. The additional mechanical expense to mount the roof bow displaceably on the frame parts is small and does not require much construction space. In the closed position, the roof bow can ensure that the moving roof part presses against and seals the rear roof part.
Other advantages and features of the invention are apparent from the specific embodiment of the object of the invention that is illustrated in the drawings and described below.
a shows the same state of movement of the roof as
The vehicle 1 of the invention that is shown in
The movable roof part 3 is essentially horizontal when the roof 2 is closed. In the illustrated embodiment, it extends over the entire width of the interior of the vehicle, and in the closed state of the roof, it is in contact with the upper edges of the side windows 7. Since the roof covers an interior with at least two rows of seats arranged one behind the other, the movable roof part 3 has a transverse division 8 to allow the sections 3a, 3b, which are arranged one behind the other, to be folded towards each other. The sections 3a, 3b can be formed both by rigid panels and by frame constructions that are covered by a flexible covering 9. In the latter case, lateral frame parts 10 and 11 are assigned to the sections 3a and 3b, respectively.
In a shorter vehicle 1, say, in a two-seater, the movable roof part 3 can also get by without a transverse division 8.
The rear roof part 5 that encloses the rear window 6 can also be either completely rigid, as shown in the present embodiment, or flexible, at least in certain regions. The rear window 6 can be moved into the tailgate 12 below it, as shown, for example, in
The roof parts 3 and 5 can be moved independently of each other and are completely separated from each other. The roof part 3 is movably connected with the automobile body by lateral linkages 13, each of which is designed as a four-bar linkage. In this regard, each side of the vehicle is provided with two linkages 14, 15, which are pivoted on bearings 16, 17 that are fixed with respect to the automobile body. Details of this are illustrated in
The linkage 15 acts on a joint 20 of the front roof part 3 by means of a drive element 18. The joint 20 is assigned to the rear end of the longitudinally extending frame part 11. The linkage 14, on the other hand, acts indirectly on the frame part 11 by means of a horizontal pivot axis 19 that is located at a vertically higher level. The height displacement of the points of force application 18 and 20 results in a lever arm, by which the frame part 11, when the drive element 18 is moved out, can be swiveled in the direction of arrow 21 about the axis 19, which remains motionless to effect the first lowered position of the roof. In this way, the front roof part 3 can be opened into a first lowered position above the rear roof part 5 (
In addition, the linkages 14 and 15 can also be swiveled about the axes 16 and 17, which are fixed with respect to the automobile body, in the directions of arrows 22, 23 and in the opposite directions (
The linkage 14 is divided into sections 14a and 14b at at least one additional joint 24. Section 14a extends from the main bearing 16, which is fixed with respect to the automobile body, to the joint 24, and section 14b extends from there to the axis 19. The linkage 15 is divided at at least two joints 25, 26. Section 15a extends from the main bearing 17, which is fixed with respect to the automobile body, to the joint 26, section 15b extends from there to the other joint 25, and section 15c extends from there to the drive element 18. The pivoted attachment of section 15c to the drive element 18 is located on a common horizontal pivot axis with the joint 24 of the first linkage 14.
A rear transverse roof bow 27, which can be moved relative to the lateral frame parts 10, 11 and is mounted on two levers 28, 29 that extend parallel to the frame part 11, is assigned to the roof section 3, which is covered with a textile material in the present embodiment. By raising these levers, the roof bow 27 can be displaced with unchanged orientation essentially parallel upward and forward with respect to the travel direction F. This results in the raising of the rear edge region of the roof part 3, so that a ventilation position is reached. This position can also be set during travel, since the movement of the levers 28, 29 does not require much force, and the textile covering 9 (
The actuation of the movement of the roof bow 27 can be remotely controlled from the dashboard and can be effected, for example, by electric or hydraulic drives.
Instead of the roof bow 27, other raising mechanisms can be provided, especially in the case of rigid roof parts, for a rear region of the moving roof part 3. In this regard, the use of a roof bow, which is present anyway, simplifies the manufacturing compared to expensive auxiliary mechanisms. The weight of the vehicle is also not significantly increased by the additional mobility of the rear roof section that is achieved in accordance with the invention.
To convert the movable roof part 3 from the closed position shown in
In this process, the linkages 14, 15 are not swiveled about their bearings 16, 17, which are fixed with respect to the automobile body. The bearing 24 thus maintains its position, as does the pivot axis 19.
When the drive element 18 is moved out further, the roof part 3b swivels farther in the direction of arrow 21 until an flip-over position has been reached. At the same time, parts 3a and 3b are folded together until they lie almost parallel one above the other (
Since the axis 19 maintains its position, the roof parts 3a, 3b also do not change their vertical position in the direction of a lowering to the belt line 31 but rather are lowered in the elevated position above the rear roof part 5. As
Furthermore, the folded stack, in which the frame parts 10 and 11 lie one on top of the other, is very flat, so that the air resistance of the vehicle is only slightly increased by this lowered position of the roof. As a result of the fact that only a part 3 of the roof 2 is moved and that it is moved only in one plane, the movement is accomplished much faster than a full opening or a lowering of the roof part 3 below the belt line 31. The trunk is unaffected by this, as is visibility to the rear. Nevertheless, with the side windows down, a spacious open-air feeling is obtained.
On the other hand, to convert the movable roof part 3 from the closed position shown in
Here again, in this process, the linkages 14, 15 at first are not yet swiveled about their bearings 16, 17, which are fixed with respect to the automobile body. The bearing 24 still maintains its position, as does the pivot axis 19, until the flip-over position of the roof part 3b as shown in
This position of the movable roof part 3 corresponds to the position shown in
The aforementioned roof-lowering positions show that various roof-lowering positions can be realized in accordance with the invention. Other positions, which are not shown here, are also possible. Completely different roof kinematics are likewise possible.
A stationary and thus less expensive roll bar 32 can be used on the basis of the lowering kinematics shown here. Moreover, in the illustrated embodiment, the roll bar 32 is covered by the rear roof part 5 in every position of the roof—and thus in every lowered position of the movable roof part 3—and is thus visually inconspicuous and invisible from the outside. The opening for the passage of the movable roof part 3 lies above the roll bar 32 and is thus not restricted by the roll bar. Moreover, the ability to swivel open the rear roof part 5 ensures that the opening for the passage of the front roof part 3 is also sufficiently large towards the top to allow undisturbed movement of the roof part 3 and yet provide the desired visual covering of the roll bar 32 in the closed position. If the rear roof part 5 cannot be lowered below the belt line 31, then, as mentioned above, the roll bar can be fully concealed from the outside in every final position of the roof 2.
It is advantageous for the roll bar 32 to be designed as a preassembled module that can be mounted as a unit in the automobile body.
Number | Date | Country | Kind |
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102 48 344 | Oct 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE03/03367 | 10/10/2003 | WO | 00 | 4/15/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2004/037583 | 5/6/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4644235 | Ohta | Feb 1987 | A |
5042868 | Nothaft et al. | Aug 1991 | A |
5558388 | Furst et al. | Sep 1996 | A |
5582454 | Grover | Dec 1996 | A |
6095589 | Kinnanen et al. | Aug 2000 | A |
6250707 | Dintner et al. | Jun 2001 | B1 |
6267433 | Bayer et al. | Jul 2001 | B1 |
6270144 | Schenk | Aug 2001 | B1 |
6299233 | Mentink | Oct 2001 | B1 |
6305735 | Neubrand | Oct 2001 | B1 |
6742829 | Reihl | Jun 2004 | B2 |
6802554 | Just et al. | Oct 2004 | B1 |
20010017478 | Reinsch | Aug 2001 | A1 |
20020125732 | Dietl | Sep 2002 | A1 |
20030038501 | Heselhaus | Feb 2003 | A1 |
20030047961 | Nania | Mar 2003 | A1 |
20050088008 | Quindt et al. | Apr 2005 | A1 |
Number | Date | Country |
---|---|---|
39 25 150 | Feb 1990 | DE |
42 03 229 | Aug 1993 | DE |
197 31 330 | Feb 1999 | DE |
19731330 | Feb 1999 | DE |
197 41 264 | Mar 1999 | DE |
199 26 474 | Dec 2000 | DE |
19926474 | Dec 2000 | DE |
Number | Date | Country | |
---|---|---|---|
20050280280 A1 | Dec 2005 | US |