Information
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Patent Application
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20030038511
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Publication Number
20030038511
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Date Filed
August 21, 200222 years ago
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Date Published
February 27, 200321 years ago
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CPC
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US Classifications
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International Classifications
Abstract
An inner shell for a roof module in sandwich construction comprises an inner layer and a holding layer in which a reinforcement layer is embedded. The reinforcement layer is arranged within the holding layer at a side thereof which faces the inner layer. The holding layer is provided with pocket-like recesses on its side facing away from the inner layer which extend as far as to the reinforcement layer.
Description
TECHNICAL FIELD
[0001] This invention relates to an inner shell for a roof module in sandwich construction, comprising an inner layer and a holding layer in which a reinforcement layer is embedded, the reinforcement layer being arranged within the holding layer at a side thereof which faces the inner layer.
BACKGROUND OF THE INVENTION
[0002] Such an inner shell is provided for being connected with an outer shell in order to form a roof module in sandwich construction. In this arrangement, the holding layer, with its side facing away from the inner layer, is connected with the outer shell by means of gluing, clipping on or by other measures. As the reinforcement layer is arranged within the holding layer at the side thereof which faces the inner layer, there will be a maximum distance between the neutral line, in case of bending loads, of the roof module and the reinforcement layer; thus, the reinforcement layer offers the highest possible contribution to the strength of the roof module.
[0003] Hitherto, a so-called spacer has been incorporated in the foam of the holding layer, which spacer has ensured that the reinforcement layer is located during foaming on the side of the holding layer facing the inner layer. A coarsely porous spacer mat could be used as spacer. The spacer mat, however, is a costly component.
[0004] The object of the invention therefore consists in providing an inner shell of the type initially mentioned, which with small piece cost comprises a reinforcement mat that is precisely positioned in the holding layer. It is further the object of the invention to provide a method of producing such inner shell.
BRIEF SUMMARY OF THE INVENTION
[0005] According to the invention, an inner shell for a roof module in sandwich construction comprises an inner layer and a holding layer in which a reinforcement layer is embedded. The reinforcement layer is arranged within the holding layer at a side thereof which faces the inner layer. The holding layer is provided with pocket-like recesses on its side facing away from the inner layer which extend as far as to the reinforcement layer. The pocket-like recesses are the consequence of the method employed for producing the inner shell. With this method, a foaming mold is made available which on one side is provided with nub-like projections. An inner layer is laid into the open foaming mold and a reinforcement layer is placed on the inner layer. An expandable material is then applied onto the reinforcement layer, such material being capable of forming a holding layer in the cured state. Next, the foaming mold is closed so that the projections rest at the reinforcement layer and hold it against the inner layer, and the expandable material is cured so that the reinforcement layer adjoining the inner layer is embedded into the holding layer during foaming. Positioning the reinforcement layer in the holding layer is thus not obtained any longer by a component which is embedded into each inner shell during foaming, but through the design of the foaming mold that is used for the foaming operation. In adaptation to the respective demands, the size of the recesses produced in the holding layer and of the protrusions provided in the foaming mold, respectively, can be used as a trade-off between numerous parameters which are contrary in part. The lower limit for the portion of protrusions of the entire surface area is predefined by the flexibility of the reinforcement layer; i.e., the recesses have to be arranged so close to each other that the reinforcement layer can not go away from the inner layer also in the intermediate regions where it is not pressed—in the foaming mold—against the inner layer by the protrusions. The upper limit for the portion of recesses of the entire surface area is predefined by the required minimum strength of the holding layer as well as by the surface area, made available by it, for being glued together with the outer shell; the webs remaining between the recesses must have specific minimum cross-sections and a specific minimum surface area. The size of the recesses has still further effects. The recesses form hollow chambers in the roof module which are of advantage in terms of acoustic properties. These effects can be optimized by the design of the recesses. In addition, the volume of the holding layer is reduced due to these recesses, so that a smaller amount of expandable material has to be introduced during production. Costs are further reduced thereby. As long as the inner and outer shells are not glued together, the recesses in the holding layer also reduce the strength of the inner shell, so that the latter can be folded more easily. Finally, the recesses reduce that surface area of the holding layer that is glued to the outer shell. Thereby, the separability of inner and outer shells is facilitated during recycling. Size and number of the recesses may differ from each other in distinct regions of the roof module, in order to make use of differing properties in these regions.
[0006] Advantageous designs of the invention will be apparent from the subclaims.
BRIEF DESCRIPTION 0F THE DRAWINGS
[0007]
FIG. 1 schematically shows a roof including a roof module configured in sandwich construction;
[0008]
FIG. 2 shows a section along plane II-II of FIG. 1;
[0009]
FIG. 3 shows a detail of FIG. 2 on an enlarged scale; and
[0010]
FIG. 4 shows in a schematic, perspective view a foaming mold including a holding layer and an inner layer.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0011] In FIG. 1 there is shown schematically a vehicle with a vehicle roof 5 configured in sandwich construction. As can be seen in FIG. 2, the roof module consists of an outer shell 10 and an inner shell 12.
[0012] The outer shell essentially consists of an outer skin 14 which may be made of aluminum or plastics, and of a middle layer 16 made of polyurethane. The outer shell 10 is glued together with a longitudinal spar 20 of the vehicle body.
[0013] The inner shell 12 is formed essentially by an inner layer 22 and a holding layer 24 in which a reinforcement layer 26 is embedded. The inner layer can be a mat of a pliant plastics which may be provided with a decorative coating. The inner layer may also be formed of a fabric or a knitting, which possibly is provided with a barrier layer of plastics. The barrier layer prevents that the material of the holding layer penetrates the inner layer during foaming. The reinforcement layer 26 may be a mat made of a glass fiber fabric.
[0014] For producing the inner shell 12, the inner layer 22 is laid into a foaming mold. The foaming mold (in FIG. 4 schematically indicated by reference numeral 32) is provided with a plurality of (not shown) nub-like protrusions that have a rectangular basic shape here and taper towards their free end. Taking the foamed product out of the foaming mold is facilitated thereby.
[0015] The reinforcement layer 26 is placed on the inner layer 22. A curable, expandable material is applied onto the reinforcement layer 26. Then the foaming mold is closed, so that the protrusions of the foaming mold press the reinforcement layer 26 against the inner layer 22. Subsequently, the expandable material hardens to form the holding layer 24 in which the reinforcement layer 26 is embedded. As a negative shape of the nubs of the foaming mold 32, the holding layer 24 has a plurality of pocket-like recesses 25. At the bottom of the protrusions and when embedded in the holding layer 24, the reinforcement layer 26 is partially exposed.
[0016] As can be seen from FIG. 2, the inner shell 12 and the outer shell 10 are glued together in the middle of the roof module. As an alternative, a textile adhesive connection (Velcro fastener) could be used. As the reinforcement layer 26 is located on the side of the holding layer 24 facing the inner layer 22, it simultaneously is located at a large distance from the neutral line of the sandwich roof module. A high resistance to bending is ensured thereby. Towards the outer rim of the roof, the inner shell 12 is not glued to the outer shell 10, so that it can be guided over the longitudinal spar of the vehicle as far as to a seal 34. The recesses 25 present in the holding layer facilitate bending the inner layer 12.
Claims
- 1. An inner shell for a roof module in sandwich construction, said inner shell comprising an inner layer and a holding layer in which a reinforcement layer is embedded, said reinforcement layer being arranged within said holding layer at a side thereof which faces said inner layer, said holding layer being provided with pocket-like recesses on its side facing away from said inner layer which extend as far as to said reinforcement layer.
- 2. The inner shell according to claim 1, wherein said recesses have an essentially rectangular basic shape.
- 3. The inner shell according to claim 1, wherein said recesses taper towards said reinforcement layer.
- 4. The inner shell according to claim 1, wherein said recesses are arranged so as to lie uniformly side by side, a distance between neighboring recesses being smaller than a width of said recesses.
- 5. The inner shell according to claim 1, wherein an outer shell is provided which is connected with said holding layer.
- 6. The inner shell according to claim 5, wherein said holding layer and said outer shell are glued together.
- 7. The inner shell according to claim 1, wherein said holding layer is connected with said outer shell by means of a Velcro fastener.
- 8. A method of producing an inner shell for a roof module in sandwich construction, said inner shell comprising an inner layer and a holding layer in which a reinforcement layer is embedded, said reinforcement layer being arranged within said holding layer at a side thereof which faces said inner layer, said holding layer being provided with pocket-like recesses on its side facing away from said inner layer which extend as far as to said reinforcement layer,
a foaming mold being made available which on one side is provided with nub-like projections, an inner layer being laid into said open foaming mold, a reinforcement layer being placed on said inner layer, an expandable material being applied onto said reinforcement layer and capable of forming a holding layer in a cured state, said foaming mold being closed so that said projections rest at said reinforcement layer and hold it against said inner layer, and said expandable material being cured so that said reinforcement layer adjoining said inner layer is embedded into said holding layer during foaming.
Priority Claims (1)
Number |
Date |
Country |
Kind |
101 41 243.6 |
Aug 2001 |
DE |
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