The invention relates to a fastening device on a plastic attachment for motor vehicles.
Such a device is disclosed in DE 198 19 698 A1.
Therein the socket formed on the attachment to which the plug-in element is joined by a snap fastening is in the form of a circumferential collar. If such a collar lies in an adjacent surface of the attachment running concavely over the circumference of this ring, a plastic component of this kind is extremely difficult to manufacture, since the molds required for making it cannot be stripped out reasonably unless they are subjected to a complicated division.
To create a remedy, the problem with which the present invention is concerned is solved by a configuration of the generic device according to the present invention.
The solution according to the invention is based on the general idea of reducing the circumferentially continuous ring in the known device for holding the attachment to arms situated circumferentially opposite one another and connecting them by fastening means to the plug-in element such that, despite the individual arms of the receiver which are less stiff than a collar, an all-around stable connection capable of stress is assured. The circumferential spaces between the arms permit a simple stripping out of the manufacturing molds.
An appropriate embodiment of the invention is the subject of the sub-claims.
An especially advantageous embodiment is represented in the drawing.
Preferred embodiments are shown in the figures.
An outer portion consisting of plastic, of a bumper of a motor vehicle, serves in this embodiment as the attachment 1. The plastic is not materially appropriate for use in making it into a resiliently deformable snap fastening element. The fastening device is situated on the attachment 1 at an opening 2 into which a parking sensor, not shown, can be inserted as the part to be fastened.
On the inner surface of the bumper facing away from the seen side of the attachment 1 serving as a bumper, a receiver is formed around the opening 2 in a surface area running approximately concavely on all sides. This receiver consists of two diametrically opposite arms 3. Each of these arms 3 runs on the peripheral surface of a cone entering the opening 2, the cone diameter diminishing toward the opening. In relation to the plane of the opening 2, the arms 3 thus are at an obtuse angle as seen from this opening.
At the base of each of the two arms 3 an opening 4 is provided which is in the shape of an oblong rectangle. At their free ends the arms 3 have, in the center of their circumference, sections 5 projecting outwardly finger-like in the lengthwise direction.
As represented in
In order to assure a connection between the arms 3 and the plug-in element 6 that will be stable on all sides, pockets 9 are provided on the plug-in element, which engage the free ends of the arms with their areas laterally adjacent to the finger-like section 5 in a position-fixing manner on all sides. These pockets 9 are formed in each case by a pair of L-shaped comers formed on the plug-in element 6. By means of the middle sections 5 on the arms 3 a fixation is created circumferentially between the plug-in element 6 and the arms 3. The axial fixation between the plug-in element 6 and the arms of the socket is achieved at one axial end by the barbs 8 on the tongues 7 of the plug-in element 6 and an associated contact surface as well as at the other end within the pockets 9.
As shown in
Number | Date | Country | Kind |
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102 10 129 | Mar 2002 | DE | national |
Number | Name | Date | Kind |
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4620736 | Shanks | Nov 1986 | A |
4875728 | Copp et al. | Oct 1989 | A |
5269640 | Jonishi et al. | Dec 1993 | A |
5411310 | Viertel et al. | May 1995 | A |
6113164 | Setina | Sep 2000 | A |
6340187 | Villiere et al. | Jan 2002 | B1 |
6364589 | Wenglinski | Apr 2002 | B1 |
Number | Date | Country |
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19819698 | Nov 1999 | DE |
Number | Date | Country | |
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20040098844 A1 | May 2004 | US |