WO2007107376A1

WO2007107376A1 - Composite of two sandwich panels

Info

Publication number: WO2007107376A1
Application number: PCT/EP2007/002591
Authority: WO
Inventors: Ulrich Schwartau
Original assignee: Innovida Factories, Ltd.
Priority date: 2006-03-23
Filing date: 2007-03-23
Publication date: 2007-09-27
Also published as: DE202006004646U1

Abstract

The invention relates to a composite (100) of two sandwich panels (19, 20) and a common core (10), the core being arranged at right angles in a corner region (15) of the composite (100). In order to improve such a composite (100) of sandwich panels (19, 20) in such a way that the composite (100) has an increased energy absorbing capacity in its corner region (15), while at the same time maintaining the existing lightweight structure of the composite, the invention proposes that the core has a higher density and a greater weight in the corner region (15), or in parts of the corner region (15), than in the other regions of the core (10).

Description

description

Composite of two sandwich panels

Technical area

The invention relates to a composite of two sandwich panels with a common core, wherein in a corner region of the composite, the core is arranged at right angles.

State of the art

Sandwich panels of this kind are known and familiar to the person skilled in the art in a wide variety of embodiments.

As a sandwich construction is generally called a structure of several interconnected layers with different properties. The construction of plate-shaped sandwich constructions is usually characterized by the fact that it consists of two outer layers and an intermediate core (or central layer). The aim of this design is, inter alia, to achieve an improved load capacity over the starting materials while saving material and weight. Such a construction usually implies high bending stiffnesses and a high energy absorption capacity, for example when an external force is applied to the cover layer of the sandwich structure. Such an external force occurs, for example, when a jerk force acts on the sandwich structure. Both the outer layers and the core layer must absorb different forces and stresses and be coordinated with each other in the most appropriate way. The core has primarily the task of keeping the two outer layers at a distance and thereby absorb the corresponding forces. Another task of the core is to ensure a shear transfer between the outer layers, as well as layers to stabilize against bumps. The deformation stiffness of a sandwich panel grows with increasing tensile stiffness of the core.

A number of structured core designs are known in the art which have been constructed according to manufacturing (or economics) considerations. Furthermore, a number of solid core constructions are known. Previously known cores often have a honeycomb structure.

Honeycomb constructions are based on the principle of disc carrying action. The forces can be almost removed in the core by the upright discs. Honeycomb constructions are characterized by their low weight and high compressive strength.

The choice of material for the cover layers and the core of sandwich elements is in principle not limited. Through various combinations of materials, the most diverse properties of sandwich elements can be achieved, for example, the fire behavior, the acoustic and mechanical properties.

For the production of a composite of sandwich panels, which have a corner region in which the core is arranged at right angles, individual sandwich panels are frequently mitred together, so that, for example, honeycomb constructions are arranged both in the corner area and in the remaining areas of the core. However, it has been found that, in particular, honeycomb constructions are not always able to absorb force effects, for example hard impacts, precisely in the corner region of a composite of sandwich panels. In other words, has a honeycomb structure, especially in a corner region of a composite of sandwich panels, only a low energy absorption capacity. Presentation of the invention, object, solution, advantages

It is therefore an object of the invention to improve a composite of sandwich panels of the type mentioned in such a way that the composite has an increased energy absorption capacity in its corner with simultaneously existing lightweight construction of the composite.

This object is solved by the features of claim 1.

The core idea of the invention is to provide the core in a corner area with a higher density and a higher weight than the remaining areas of the core. Consequently, for example, apart from a honeycomb structure in a corner region of a composite of sandwich panels, other core material for the corner area has a higher density and a higher weight than the honeycomb structure. The composite according to the invention implies that any structures can use materials for the core as long as it is ensured that the core material has a higher density or a higher weight in the corner area than in the remaining areas of the core.

Due to the higher weight and higher density in the corner area, force effects due to the increased energy absorption capacity in the corner area can be better absorbed, especially at this critical point of the composite. Due to the fact that the core can still have, for example, a honeycomb structure in the remaining regions, it is further ensured that the composite is characterized by a lightweight construction.

For this reason, an advantageous embodiment of the invention provides that the remaining regions of the core consist of a honeycomb profile material.

It is advantageous that the corner area consists of a Glasfaserflächengelege. Glasfasergelege is characterized by a high density and thus by a high Weight off. Fiberglass is therefore the ideal supplement in the corner area. Preferably, upper cover layers are applied to the corner region, a colored cover material being arranged between the cover layers and the corner region. In this way, a shine through, for example, a greenish colored fiberglass fabric is avoided.

The composite preferably has lower cover layers which do not converge at an opening in the corner region, the opening being closed by a material surface attached to the lower cover layers. This takes into account the production of the composite according to the invention. In the production of the composite according to the invention, it is provided that in the corner region, for example, an existing honeycomb profile material is first milled away, at the same time also a part of the lower cover layers of the composite being removed. In this way, in the corner region, a cavity into which the Glasfaserflächengelege can be introduced. When the cavity is filled, the opening is closed with an applied material surface. The material surface may be a glass fiber surface.

For the purpose of further weight savings, a practicable variant of the invention provides that the common core is partially interrupted.

For the production of the composite according to the invention is a method in which a part of a common core of the composite with two sandwich panels in a corner region of the composite, in which the core is arranged at right angles, is removed, wherein in the removal of the part of the common Kerns also a part of a cover layer of the composite is removed and an opening is formed. Then, an injection of core material through the opening in a resulting cavity of the corner region, wherein the introduced core material having a higher density and a higher weight than the remaining areas of the common core. Finally, in a further process step, the part of the cover layer which has been removed is replaced with a material closed area, wherein as a material surface, a glass fiber surface can be used.

As is known, a core of sandwich panels is arranged between upper and lower cover layers. According to the method of the invention, part of a lower cover layer (s) is removed in the corner region.

Finally, claim 12 of the invention provides for the use of the composite according to one of claims 1 to 7 in building construction, shipbuilding, aircraft construction, shell construction, finishing, expansion, interior work, for the sound and heat protection and for interior decoration before.

Brief description of the drawings

The invention will be explained in more detail with reference to a drawing. It shows in a schematic representation:

Fig. 1: a sectional view of a composite according to the invention.

Best way to carry out the invention

In FIG. 1, a composite according to the invention is designated by reference numeral 100.

The composite has two sandwich panels 19, 20 with a common core 10. For this purpose, the sandwich panels 19, 20 can be joined together by mitring. The composite 100 also has a corner region 15, in which the core 10 is arranged at right angles. It is essential for the invention that the core 10 in the corner region 15 has a higher density and a higher weight than in the conventional rigen areas of the core 10 has. Preferably, the corner region 15 consists of a Glasfaserflächengelege and the remaining regions of the core 10 of a honeycomb profile material 17th

Cover layers 12, 14 are applied both to the corner region 15 and to the remaining region of the core 10, with a colored cover material 18 being arranged between the cover layers 12, 14 and the corner region 15. In this way, a shine through, for example, a greenish colored fiberglass fabric is avoided.

Furthermore, the composite 100 has lower cover layers 11, 13 which do not converge at an opening 21 in the corner region 15 and which also serve as lower cover layers 11, 13 for the remaining regions of the core. A material surface 16, which is preferably formed as a glass fiber surface, covers the opening 21 from. This structural measure takes into account the production of the composite 100. Namely, for the production of the composite 100, a part of the common core 10 of the composite 100 is first removed in the corner region 15, thus also a part of the lower cover layers 11, 13 are removed, so that preferably the opening 21 is formed. Then, core material is injected into the resulting cavity of the corner region 15, the introduced core material according to the invention having a higher density and a higher weight than the remaining regions of the common core. Finally, the material surface 16 closes the opening 21.

LIST OF REFERENCES:

100 composite

11, 13 lower cover layers

12, 14 upper cover layers

15 corner area

16 material area

17 honeycomb profile material

18 colored cover material

19, 20 sandwich panel

21 opening

Claims

claims

1. composite (100) of two sandwich panels (19, 20) with a common core (10), wherein in a corner region (15) of the composite (100) of the core (10) is arranged at right angles, characterized in that the core ( 10) in the corner region (15) or in parts of the corner region (15) has a higher density and a higher weight than in other areas of the core (10).

2. Composite according to claim 1, characterized in that the corner region (15) or parts of the corner region (15) consists of a Glasfaserflächengelege.

3. Composite according to one of claims 1 or 2, characterized in that the remaining regions of the core (10) consist of a honeycomb profile material (17).

4. Composite according to one of the preceding claims, characterized in that on the corner region (15) and on the remaining areas of the core (10) upper cover layers (12,14) are applied, wherein between the cover layers (12,14) and the Corner region (15) a colored cover material (18) is arranged.

5. Composite according to one of the preceding claims, characterized in that the composite (100) at a lower opening (21) in the corner region (15) non-converging cover layers (11, 13), wherein the opening (21) with a on the lower cover layers (11, 13) applied material surface (16) is closed.

6. Composite according to claim 6, characterized in that the material surface (16) is a glass fiber surface.

7. Composite according to one of the preceding claims, characterized in that the common core (10) is partially interrupted.

8. A method for producing a composite (100) according to any one of the preceding claims comprising the following method steps: a) removal of a part of a common core (10) of the composite (100) with two sandwich panels (19, 20) in a corner region

(15) of the composite (100), in which the core (10) is arranged at right angles, with the removal of the part of the common core (10) also a part of a cover layer (11, 12, 13, 14) of the composite (100 b) injection of core material through the opening (21) into a resulting cavity of the corner region (15), wherein the introduced core material has a higher density and a higher weight than the remaining regions of the common C) closing the opening (21), which is removed in method step a), with a material surface (16).

9. The method according to claim 8, characterized in that a glass fiber surface is used as the material surface (16).

10. The method according to any one of claims 8 or 9, characterized in that a part of a (of) lower cover layer (s) (11, 13) in the corner region (15) is removed.

11. The method according to any one of claims 8 to 10, characterized in that as a core material Glasfaserflächengelege is introduced.

12. Use of the composite according to one of claims 1 to 7 in construction, shipbuilding, aircraft, shell, prefabricated, cultivation, interior, for sound and heat protection and for interior decoration.