This application is a U.S. national phase application filed under 35 U.S.C. ยง 371 of International Application No. PCT/EP2017/052562, filed Feb. 6, 2017, designating the United States, which claims priority from German Patent Application No. 10 2016 001 629.9, filed Feb. 15, 2016, which are hereby incorporated herein by reference in their entirety for all purposes.
The invention relates to a cover for a vehicle roof having a glass panel, a cover frame arranged on the inside of the cover or glass panel, and components arranged on the inside of the cover, in particular functional components and/or lighting components of a cover lighting device, as well as a method for producing a vehicle roof cover.
DE 199 42 038 C1 discloses a vehicle roof cover, which is formed, e.g., by a glass panel, and which has a cover frame mounted on the inside of the cover by means of plastic foaming. Heating elements, heating wires or aerial wires are embedded in the plastic foaming and can be attached to the cover frame before mounting to the cover by means of plastic foaming. Attachment is done by gluing at the cover frame or by a plug receptacle, which receptacle is a plastic profile shape and attachable to the cover frame.
DE 10 2012 109 900 A1 discloses a vehicle roof cover having a glass panel and a photoconductive layer cohesively bonded to the inside of the glass panel by means of a bonding layer, whereby a light source may irradiate light into the end face of said photoconductive layer. The light source is attached to the inside of the glass panel.
The object of the invention is to provide a cover, as mentioned above, which is improved by simplifying its production, and to provide an improved method for producing a vehicle roof cover.
This object is achieved according to the invention with regard to the cover mentioned above in that the cover frame or a blind forms an assembly unit carrying the components, and which is attached to the inside of the cover by plastic foaming, gluing or mechanical connections, and attached to the cover, upon correct positioning of the components.
Advantageous embodiments of the invention are specified in the dependent claims.
With the cover according to the invention, the pre-assembly of all individual parts or components, which previously were to be attached individually to the cover itself, may be done on the cover frame or the blind. Thus, the cover frame or the blind each form an assembly unit carrying the components and is placed in a die and there connected to the glass panel(s) of the cover by foaming or foam coating. Alternatively, the blind is attached as an assembly unit provided with components to the cover or the cover frame mounted on the cover, e.g., by means of bonding or mechanical connections. Thus, final assembly of the cover is simplified and accelerated. Moreover, the components placed in the assembly unit, such as electronic or lighting components, may be checked for proper functioning prior to final assembly.
The cover frame may be, e.g., an inner cover sheet attached to the inside of the cover by foaming or foam coating.
Thus, in a preferred embodiment, the cover frame forms a mounting support upon which the blind is placed as an assembly unit. Thus, the in particular integrally formed blind may be attached to the cover frame by means of mechanical connections in the form of latching hooks, snap hooks or expansion clips, which engage, e.g., in openings or holes in the cover frame. Alternatively, the mechanical connections or the latching hooks, snap hooks or expansion clips or other mechanical parts may be used in linear guides on the cover frame and displaced in a linear sliding movement of the blind into a locking position.
The cover frame is conveniently attached to the inside of the cover by means of foaming or foam coating, whereby at least the connection points are formed without foaming for mechanical connection to the blind.
In a preferred embodiment, the blind has a lighting device with at least one LED module comprising a light guide and a cable or wiring harness for electrical connection of the LED module to a contact module on the cover or cover frame, and which provides a power supply via the cover frame.
Furthermore, a preferred embodiment may provide that the cover frame, as the assembly unit supporting the components, be attached to the inside of the cover by means of foaming or foam coating, that the components comprise at least one light guide, which irradiates light into a cover plate and in particular irradiate a structure on the cover plate, and that in particular the foaming or foam coating may cover the light guide in a blind-like fashion. In this embodiment, the foaming or foam coating may form a blind-like cover on the visible side, which may also prevent stray light from the light guide to the inside of the cover or the vehicle interior.
The cover may be formed such that it has an outer glass panel and an inner glass panel connected to the outer glass panel, in particular by means of a hot-melt film adhesive, that the cover frame is mounted on the inside of the outer glass panel with foaming or foam coating, and that the light guide is arranged for radiating light in an end face at the rim of the inner glass panel.
The inner glass panel appropriately contains a structure that emerges visually, when light is being irradiated into the inner glass panel. The structure is produced, e.g., by screen printing or imprinting the inner glass panel. The structure may represent, e.g., a pattern, an emblem or a font, or combinations thereof.
The method according to the invention for producing a vehicle roof cover, in particular a cover according to one of claims 1 to 5, provides that the components, in particular the functional components and/or lighting components of a cover lighting device, be mounted on a cover frame or a blind, and that either the cover frame forming a prefabricated assembly unit on the inside of the cover be attached by means of plastic foaming, e.g., polyurethane foam, or the blind forming a prefabricated assembly be attached by means of bonding or by in particular detachable mechanical connections to the cover or a cover frame arranged on the cover.
The invention will be explained in more detail below based on exemplary embodiments of a cover according to the invention and with reference to the drawing. The following is shown:
A vehicle, such as a passenger vehicle, comprises a vehicle roof 1 (
The cover 3 includes an outer glass panel 4 (see
Moreover, a wiring harness 21 is attached to the abutment web 13 of the outer leg 12 of the cover frame 9 by means of mounting elements 22, which are inserted, e.g., in holes 23 in the abutment web 13 of the outer leg 12. The wiring harness 21 forms a power supply between a contact unit (not shown), via which power is provided from a power supply on the vehicle roof side to an LED module (not shown), which is connected to the light guide 16 and generates light, which is irradiated via the elongated light guide 16 and the end face 17 of the inner glass panel 5 into the inner glass panel 5. Thus, the cover frame 9, as an assembly unit, contains the components or lighting components of a cover lighting. The foaming or foam coating 10 of polyurethane plastic encloses the entire cover frame 9 and overlaps the light guide 16 with a rim portion 24 in a blind-like fashion. A narrow gap 26 may be provided between the foaming or foam coating 10 or the rim portion 24 and the inner glass panel 5, and which is formed by a shadow gap sealing 25 shown in
The cover frame 9 with its mounted components is then placed as an assembly unit, with the die 27 open, on the outer glass panel 4 with correct positioning of the light guide 16 relative to the inner glass panel 5 (see
The cavity for applying the foaming or foam coating 10 may also be provided in the lower die 29, whereby the outer glass panel 4 and the cover frame 9 with its components are correspondingly inserted in the die 27.
In a further exemplary embodiment (see
Components such as functional components or lighting components of the first exemplary embodiment may be attached to the blind 36. Thus, a light guide 16 and LED modules 38 arranged at both ends may be mounted, e.g., on each of the two lengths 37 of the blind 36, which LED-modules 38 irradiate light into the light guide 16. In addition, light guides 16 on all four sides or a circumferential light guide may be attached to the blind 36, thereby providing at least one LED module 38 for light generation and irradiation. The blind 36 thus represents an assembly unit, which may be provided with components and subsequently mounted on the cover frame 34 forming a mounting support.
Attachment of the blind 36 to the cover frame 34 may be done using clips 41 or expansion clips (see
Power supply for the LED modules 38 may occur via at least one wiring harness 21, which is arranged on the cover 3 or on the cover frame 34, and be connected via contacts or plug connectors 39 to the LED modules 38. At least one contact module 40 may be arranged on the cover 3 or the cover frame 34, which is electrically connected to the wiring harness 21, and which may make available a power supply, when contacting a contact device on the vehicle roof side. Alternatively, the wiring harness 21 may be attached to the blind 36, electrically connected to the LED modules 38, and connected to the contact module 40 via a plug connection.
A further type of attachment of the blind 36 on the cover frame 34 may be realized by mechanical fasteners (
Finally, the blind 36 may furthermore be glued as an assembly unit to the cover frame 34 as a mounting support.
The individual features of the invention disclosed in the specification and based on the exemplary embodiments and the figures may be combined with the inventive subject matter in its general form and in any technically useful arrangements and configurations.
Number | Date | Country | Kind |
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10 2016 001 629 | Feb 2016 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/052562 | 2/6/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/140524 | 8/24/2017 | WO | A |
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20140204601 | Bäuerle et al. | Jul 2014 | A1 |
20140362597 | Verrat-Debailleul et al. | Dec 2014 | A1 |
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11 24 528 | Jul 1992 | DE |
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10 2015 000 071 | Jul 2016 | DE |
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Entry |
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Notification Concerning Transmittal of International Preliminary Report on Patentability (Chapter I of the Patent Cooperation Treaty) against PCT/EP2017/052562 dated Aug. 30, 2018. |
Notification of Transmittal of Translation of the International Preliminary Report on Patentability (Chapter I or Chapter II) against PCT/EP2017/052562 dated Aug. 30, 2018. |
International Search Report issued against German Application No. DE 10 2016 001 629.9 dated Dec. 12, 2016. |
International Search Report for PCT/EP2017/052562 dated May 19, 2017 and English translation submitted herewith (5 Pages). |
Number | Date | Country | |
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20190047388 A1 | Feb 2019 | US |