Patent Application
20080209659
The invention relates to a windshield wiper device, in particular for a motor vehicle, comprising a fastening device for fastening the windshield wiper device to the motor vehicle.
Until now windshield wiper devices were mainly fastened to the vehicle body by means of screwed connections and plugging locations. Special tools, multiple assembly manipulations and therefore a relatively great amount of time are required for this.
The objective of the invention is reducing the assembly effort for fastening the windshield wiper device to the vehicle body.
The invention attains the stated objective with a windshield wiper device of the type cited at the outset, which, according to the invention, can be clamped firmly to a vehicle body panel by the fastening device. The windshield wiper device can be fastened to the vehicle body in this way without screws or plugging locations. Consequently, mounting the windshield wiper device requires considerably less time than before. Special tools for assembly can also be eliminated.
The fastening device can have at least one resilient clamping element, which is provided in particular with at least two guide surfaces. A vehicle body panel can be inserted between the at least two guide surfaces. The resilient property of the clamping element makes it possible to compensate for different thicknesses of the vehicle body panel.
In order to be able to clamp the vehicle body, the guide surfaces can be arranged so that they can move towards one another.
The fastening device can have a snap lever, made particularly of plastic, which is positioned eccentrically and pivotably in an axis situated in a bracket. Due to the pivoting of the snap lever and its eccentric positioning, the guide surfaces can be moved towards one another with a single manual manipulation in order to firmly clamp the windshield wiper device to the vehicle body.
If the bracket has an undulated region, then this region is extended when the snap lever is pivoted, whereby the waves of the undulated region become flatter. Tolerances in the thickness of the vehicle body panel can be compensated for in this manner.
The fastening device can have at least one rubber buffer and/or a spacer sleeve. The rubber buffer also compensates for tolerances in the thickness of the vehicle body panel. The spacer sleeve prevents the rubber buffer from being compressed too much.
So that the spacer sleeve can reliably prevent the rubber buffer from being compressed too much, said spacer sleeve has an inner hole, which extends tubularly towards the vehicle body panel.
The snap lever can have an elongated form so that it can be operated easily. It can be locked by a movement, in particular of between 40° and 100°, preferably of between 45° and 95° transverse to its longitudinal axis. In this position, the guide surfaces are spaced apart from one another so that the vehicle body panel can be inserted between the guide surfaces.
The snap lever can have support surfaces in order to lock it in a closed position, i.e., after mounting has been completed, or in an assembly position, i.e., for the purpose of mounting.
So that the clamping element can be locked to the body of the motor vehicle, it can have at least one spring leg, which can engage in a recess in the body panel.
In order to secure the snap lever in the closed position, it can be provided with a hook, which, in the closed position, engages in a recess provided for this purpose.
The guide surfaces can be roughed up on their respective facing sides. This increases the friction of the guide surfaces on the vehicle body in a clamped state.
The snap lever can be manufactured especially favorably if it is manufactured of an unreinforced or fiber reinforced plastic or of a metal diecast.
The fastening of the windshield wiper device to the vehicle body can be realized very simply if the fastening device is arranged on a molded tube.
A preferred exemplary embodiment will be explained in greater detail in the following on the basis of the enclosed drawings.
The drawings show in detail:
The clamping element 12 has two guide surfaces 30 (see
The clamping element 12 features a bracket 32, which is provided with an undulated region 33. The bracket 32 is provided on its free end with a support element 34, which presses against the underside of the guide surface 40 from below (see
The snap lever 14 is positioned eccentrically and pivotably in an axis 17 situated in a bracket 32 (
In order to insert the vehicle body panel 13 between the guide surfaces 30 and 40, the snap lever 14 is situated in an assembly position (see
As soon as the vehicle body panel 13 is slid between the guide surfaces 30 and 40, the snap lever 14 is pivoted to the right into a closed position. Because of the eccentric positioning of the snap lever 14 on the axis 17, said lever is simultaneously pressed upwards during its rightward pivoting thereby pulling the bracket 32 upwards. At the same time, the support element 34 below is pressed against the underside of the guide surface 40 so that the vehicle body panel 13 situated between the guide surfaces 30 and 40 is clamped firmly.
The clamping element 12 is provided with two spring legs 41 (see
The snap lever 14 features a hook 60 (see
Furthermore, the snap lever 14 is provided with support surface 61 and 62 (see
The spacer sleeve 16 features an inner hole 70 (see
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2005 028 118.4 | Jun 2005 | DE | national |
| 10 2005 048 341.0 | Oct 2005 | DE | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/EP2006/063103 | 1/12/2006 | WO | 00 | 9/21/2007 |
