DE10022742A1 - Multi layer construction element with at least one honeycomb layer, has honeycomb formed by thin layers with intermeshing positive and negative hollow bodies - Google Patents

Abstract

The individual layers (2, 4) comprise a very thin honeycomb plate or partial honeycomb film, which include a base construction (16) and positive and/or negative hollow bodies or partially hollow bodies (26, 27) protruding beyond the base construction. Intermeshing these bodies causes them to interlock and/or to dig into each other, so that any force acting upon the honeycomb elements will be evenly distributed. The embossed individual layers are in flat contact with the adjacent layers to form a wall.

Description

The invention relates to a component that consists of several individual layers is set, of which at least one individual layer has a honeycomb structure.

Components in the form of material plates are known, both the Honeycomb construction as well as the two cover plates made of paper or cardboard are. The honeycomb construction similar to that of honeycombs is supported by its approx from the vertical partition walls on the cover plates, so that plates result with increased stability and advantageously low weight. From the correspond The material panels can be used to manufacture doors, for example. But you will also used in interior construction and trade fair construction (DE-OS 197 48 192.2). Disadvantageous is that the overall construction can be affected by moisture. Problem In addition, the design of the border area with the corresponding one is also mathematical Edge reinforcement, because this is separate from the other parts of the known here Material plate must be connected. DE-OS 19 22 693.8 is a method and a component known that is also sandwiched. The two Metal cover plates and the interposed cell walls or the corresponding The honeycomb structure is connected to the cover plates by welding or soldering the, in particular the soldering material is guided so that it can also be in the Cell corners with and so the cover plate particularly well with the honeycomb structure tion connects. Despite the strengthening of the cell corners, it essentially remains that the nearly vertical cell walls are on the two cover plates support and thus have to transfer the forces to be taken over. Dementia With such a lightweight honeycomb structure, the stability is almost exclusively from depending on the top layers. The inherent stability of the sandwich core is neglected sigbar small. Another disadvantage is the relatively complex production method, as well the use of different materials and the impossibility, for example also use plastic.

The invention is therefore based on the object of minimizing a component  To create weight and with favorable stability and insulation properties.

The object is achieved according to the invention in that the individual layers as a honeycomb panel or honeycomb film having a very small wall thickness forms that have a basic construction and positive and / or negative, about it protruding hollow body or partial hollow body and when plugging into each other interlocking and / or clawing each other and on them acting forces are distributed homogeneously on all honeycomb elements by the embossed individual layers with the adjacent individual layers in the area Connection are preferably formed and arranged forming a wall.

Deviating from the prior art, all elements here take the same thing Part of the force absorption and force distribution, so that the peculiarity or the Stability of the top layers is no longer important. Rather, the entire building bears ment consistently uniform, so that it is possible to use both vertical and waa to produce fair as well as inclined walls and components realize. Take regardless of the respective arrangement of the component all single layers or better said single layer parts on the force absorption and force forwarding part and ensure that a total of one component is available, the high stability values with extremely low weight and more provides optimal sound and temperature insulation. The latter mainly because that the individual individual layers have either hollow bodies or partial hollow bodies or form such together, the air contained in the hollow bodies as opti painter isolator works against both temperature and sound. Another advantage is that such a component can not only take on vertical loads, but also shear forces or other loads deviating from the rule without it this requires an increase in wall thickness or other measures. The correspond The corresponding hollow body or partial hollow body can also be used to gas, Absorb liquid or inert material and thus, for example, a fire pit to provide performance that makes it possible to use it even in extreme situations. The individual component is made from individual nested individual layers, whereby this gives the possibility of specifying a construction that once  due to the extensive training and on the other hand due to the corresponding Shaping to create wall thicknesses of practically any thickness or with corre sponding mutually contacting hollow bodies, which are those described above Bring advantages. The low weight of such is particularly impressive Components and the high stability that u. a. also by the areal ver binding and formation of stable walls is achieved.

A corresponding structure of such a component is particularly there achieved by that the hollow body or partial hollow body assigned to the individual layers with the hollow bodies or partial hollow bodies of others, which represent the middle individual layer showing the individual layers and the corresponding areas are trained. The corresponding partial hollow body or hollow body are ent speaking hollow bodies or even closed hollow bodies, if that corresponds corresponding individual layers, as mentioned above, are inserted into one another or into one another to be nested. The separately produced individual layers, on their separate opening construction further down are coordinated so that they in each case specify the partial hollow body or hollow body described and at the on relocate also form accordingly. The individual layers or the partial hollow bodies and hollow bodies have a very small wall thickness, with further details above It has been pointed out that they are designed, for example, as a partial honeycomb film can. These individual thin-walled honeycomb panels are complemented by combined with each other when nesting or nesting and also added so that the surfaces of the individual partial hollow bodies lie against each other or hollow body results in the favorable transmission of the forces and others on the other hand, an additional stabilization of the entire component structure.

It has turned out to be particularly expedient that the individual layers assigned hollow body or partial hollow body with those of other individual layers when Result in a nesting pyramid or mirror image double pyramid leads are. This pyramid shape has the advantage that four or more surfaces are used Are available to the neighboring pyramid or the hollow body or part hollow body can be created and adjusted so as to transfer the area  Ensure forces. The pyramid can be standing, lying or otherwise formed be or only arise when the individual layers are joined together without thereby fear of a reduction in the stability of the entire component would.

Expediently, the individual layers are made of partial hollow bodies or Hollow bodies formed pyramids arranged and formed so that adjacent, pyramids or mirror image double pyramids also formed when nesting which lie flat against it, with the flat connection of the individual layers static cross wall is created, which absorbs the forces from all sides forms is. Here it is also pointed out once again that the pyramid shape is particularly well suited to a flat "connection" of the individual pyramid parts to ensure each other. The surfaces of the individual pyramids are all used for Creation of adjacent pyramids of the same or different individual layers, so that it follows from the description that an optimized construct tion structure is created that the properties of the low weight and high stability. The result is an advantageous one Cross wall that can absorb forces from all sides.

In the normal case, it is advantageous if five individual layers form a combination element resultant are put together, with a middle and a positive and negative Partial hollow body has individual layer, which is an intermediate on both sides cell position and then assigned a single layer provided with partial hollow bodies on one side is. The individual layers become, as can be seen from the description assembled or nested, so that an overall stabilized Component shows that, in particular, the pyramid surfaces make it a cheap addition ensures conduction or derivation of the occurring forces. Different from the previous ones The usual sandwich components are to be used in some respects as cover plates drawing outer individual layers also integrated into the stability structure by on its underside also with corresponding hollow bodies or partial hollow bodies are equipped with the one between the individual layer and the middle class Design that guarantees the desired stability properties. Because of  the hollow bodies or partial hollow bodies assigned to the "cover layers" can also Shear forces or other unusual forces are easily absorbed because these forces from the "cover layers" into the intermediate layer or intermediate on cell situation be initiated so that a safe removal or forwarding is possible. Because the "cover layers" do not have a stability task or at least no separate task or the sole task of stability, it is possible that the entire combination element can also be carried out in an arc or otherwise, because this one on the edge Cell layers are made of the same thin-walled material as that between joined individual layers.

A honeycomb structure that can be expanded into the room, or rather hollow body Perstructure can be achieved by one or two intermediate individual layers Single adapter layer or the subsequent middle layer on both sides adapter single cell resulting in any structure height and / or width due to the spatial construction assigned. The individual adapter layers make it possible, so to speak, on the middle layer building up again to build a corresponding construction so that in the room the component has to be cleverly and specifically expanded. Here too is one Homogeneous power transmission secured so that no matter at which point a force is applied engages, this force is evenly distributed over all elements, whereby this com combination is created to build any wall thickness.

This further expands the component into the room possible that the adapter single layer alternately positive partial hollow body or hollow body and recesses. For example, a middle class can together with adapater single cell layers arranged on both sides on one side "Single layer" acting like an edge-side single layer or accordingly be constructed, whereby the corresponding additional structure into the room is achieved.

The strength of the component structure can according to the invention by the Choice of material can be varied, the invention provides that the one Cell layers made of paper soaked in liquid plastic, aluminum, steel  or made of plastic films. The corresponding individual layers show thereby, as already mentioned above, a wall thickness in the µ range, whereby this in the invention is clarified further above by the term "film". Depending on the one In this way, components can be used for the exact purpose be created, which both in terms of price and stability values Possibility to provide optimal components. It is it is also conceivable that the individual layers are made from woven, preferably from plastic threads or fiber composite materials woven foils, so the strength inherent and thus the stability values are targeted to the respective on to be able to adapt the terms of use.

The corresponding hollow body or partial hollow body should according to the Support the invention optimally flat against each other, the intermediate areas between contribute to the pyramids, as explained later. This stable However, individual layers can nevertheless be bent into the respective shape according to the invention or be edged, since according to the invention lead up to the top of the pyramid edges are perforated and / or slotted. With appropriate Bela This perforation or slitting is not problematic because it is nonetheless the areas are contiguous and the corresponding forwarding or recording of Secure forces. Perforating or slitting also allows bending in loading of the individual pyramid without causing a deformation of the pyramid or of the corresponding hollow body must come.

Another expedient embodiment provides that the honeycomb structure tion resulting hollow body with inclined surfaces, preferably on a Edge are arranged at an angle. This sloping arrangement of the surfaces is optimal because the entire hollow body is then included in the line of force can, without there being differently loaded or unloaded sections of the hollow body pers there. The oblique surfaces of the hollow bodies lie against one another and pass on the impact force or ensure an optimal distribution and thus Utilization of the entire honeycomb structure and ultimately also the corresponding the component.  

The individual layers on the edge act or serve in the construction according to the invention element no longer as a top layer. Rather, they are in the entire component integrated by their hollow body or partial hollow body. Still, an exterior is smooth Formation possible in that the edge-side individual layers on the inside hollow body or partial hollow body and have a flat cover on the outside. The flat Ab cover enables the corresponding components to be stacked, al intermeshing of the components is dispensed with. Are advantageous such trained components in particular, for example, in the manufacture of Partitions or the like.

The individual layers on the edge also consist of the same material with the same wall thickness as the other individual layers, so that the edge-side individual layers fully participate in the movements or better in the shapes of the other individual layers men. This can be supported by the fact that the upper and the lower Single layer are made of flexible material or material to be made flexible. For example, it is conceivable here that a softer one for the individual layers on the edge Plastic is used as for the remaining individual layers.

If the respective component is brought into the intended shape, it can be used be moderate to connect the individual layers, with this in particular re is achieved in that the hollow body or the partial hollow body, the honeycomb con structure resulting with each other taking into account the material property or also releasably connected, preferably welded, glued, ver screwed or connected by friction. How to get out of this wording take, the respective shape can also be produced by this connection and thereby then be made the same.

On the appropriate pyramid shape for the individual hollow body or part hollow body has already been received. In addition, the invention provides that the Partial hollow body or hollow body of the individual layer pyramid-shaped and the honeycomb construction-forming hollow body double pyramid-shaped or a mirror image double resulting in a pyramid. These double pyramids or rather  Mirror image double pyramids support each other across the lower edges and thus form a stable spatial structure that fulfills the described and required tasks optimally sufficient. Here is also a gluing, screwing, etc. possible to to effectively connect the pyramids or double pyramids to one another and to each other to couple others.

The high stability of such components is due to the flat support of the elements involved in the honeycomb construction, with the Edges or clashing components of the basic construction are included can be by the pyramidal partial hollow body or the hollow body the base construction are spaced to form a spacer, while the seg elements of the double pyramid-shaped hollow body parallel to the central axis running edge strips are interconnected. So that is also in this Areas ensured a flat support instead of the previously usual linear support.

The stability of the entire component is thus specifically increased. The In joining the individual segments of the double pyramid-shaped hollow bodies or the honeycomb panels and the secure flat support is favored in that the tips of the segments of the double pyramid-shaped hollow body or the partial hollow bodies are flattened. This is a threading of the honeycomb panels favors and facilitates merging.

A precise support of the pyramid tips in addition to each other surfaces of the cooperating pyramids or mirror image double py ramiden can be achieved according to the invention in that the flattening at the top the pyramid or the mirror image double pyramid with the spacer strip and / or Edge strips corresponding and designed to provide a flat support is. The tip is also integrated into the flat support structure by the Flattening - as described - is done specifically, so that the Pyramids or mirror image double pyramids exactly in or on the spacer strips or have the edge strips fitted.  

An advantageous balance of forces or a flexible component arises if the hollow body or the surfaces of the individual layers ge by means of an elastic mass are connected together to form a wall. Depending on the thickness and type of elastic The individual layers or the hollow bodies can move without any loss of stability This training offers advantages especially when there are only a few individual layers formed hollow body contour honeycomb. Blows can also be recorded, yourself the impact of a stone is springed up.

For insulation, fire retardancy and other reasons, it can be useful be the hollow body after connecting with a gaseous or liquid medium to fill in whole or in part, with an exchange between each hollow body is reached via recesses left in the walls. The kind of "Filling" depends on the application.

A further training is also advantageous, in which the so-called neutral Fibers with the flat connections connected to the next neutral fiber and the intermediate layers represent the intermediate spaces, the surfaces of which also get a connection.

The invention is characterized in particular by the fact that all of the structure such a honeycomb structure elements involved in the inclusion on the Involve component forces. That means the powers of the outside ren level and added to the subsequent elements, d. H. the individual layers and their individual parts are forwarded. So the individual elements are one such component together for the stability of the entire component ver responsibly. The top layers or individual layers on the edge no longer need anything special to be constructed in terms of stability, but have the same wall thickness as that other individual layers and usually consist of the same material. Not only are they simpler in terms of their structure, they also hinder them the shape of the entire component is no longer, since it with the intermediate one cell layers can be bent together or deformed in some other way to give the construction ment to give the desired shape. They are also from the "internal structure"  Individual layers are specified in such a way that the overall structure is shaped accordingly mentes is possible. The individual hollow bodies or partial hollow bodies are on the edges, that lead to the top of the pyramid, cut open or otherwise weakened, so that they are the do not conflict with the corresponding shape. It is particularly advantageous that with With the help of the corresponding individual layers of components of practically any wall thickness can be manufactured, but with an extremely low overall weight. In addition, it is possible not only the entire wall thickness of such building elements te to adapt to the respective conditions, but also their extension in the level ne, because the individual layers are interlocked, arranged and assembled in this way can, that it is practically possible without transitions, according to large-scale construction elements to realize. This creates and is possible for a room construction that is not even conceivable with any other component. Finally, from further The advantage that it is possible with such components, even the most varied of works use materials in order to adapt to a wide variety of tasks enable.

Further details and advantages of the subject matter of the invention result from the following description of the accompanying drawing, in which a preferred Embodiment with the necessary details and items shown is. Show it:

Fig. 1 tion a device with internal Wabenkonstruk,

Fig. 2 a hollow body in the form of a double pyramid in side view,

Fig. 3 shows the double-pyramid-shaped hollow body in plan view,

Fig. 4 is a plan view of an edge-side single layer from the inside,

Fig. 5 is a perspective interior view of the reproduced edge-side individual layer according to FIG. 4,

Fig. 6 is an exploded drawing of a five-part component,

Fig. 7 shows the device according to Fig. 6 shortly before the other push Inein or clawing of the individual layers,

Fig. 8 shows the perspective of FIG. 7 and

Fig. 9 is an exploded view of an eleven-part component with an element connecting the individual layers adapter single layer.

Fig. 1 shows a component 1 in a finished state. The upper edge A cell layer 2 is partially open to make the honeycomb structure 3 visible, which is supported on the upper edge-side individual layer 2 and the other on the lower edge-side individual layer 4 . The honeycomb structure 3 is simplified here again. As explained further below, the individual layers 2 , 3 , 4 are integrally formed.

The side edge 5 of the component 1 a smooth plane is again shown decisive here that a cover is applied 29 as well as the edge-side single layer 2, which is achieved there by the further back still shown edge-side single layer. 2

The honeycomb structure 3 consists of a multiplicity of individual layers 23 , 24 , 25 with hollow bodies 7 , 8 , 9 or partial hollow bodies 26 , 27 ; the corresponding reference characters are found in the following figures.

Both the edge-side individual layer 2 as well as the edge-side individual layer 4 and the honeycomb structure 3 interposed therebetween with the corresponding individual layers 23 , 24 , 25 consist of partial honeycomb panels 17 of low wall thickness. This partial honeycomb panel 17 is usually even designed as a partial honeycomb film, ie it has a wall thickness in the μ range.

The honeycomb structure 3 or the individual layers 2 , 4 , 23 , 24 , 25 are formed with hollow bodies 7 , 8 , 9 according to FIGS . 2 and 3 or partial hollow bodies 26 , 27 according to FIG. 6. For the sake of simplicity, a distinction is not clearly made in the following between hollow bodies 7 , 8 , 9 and partial hollow bodies 26 , 27 , because when the individual layers 2 , 4 , 23 , 24 , 25 are joined together, hollow bodies 7 , 8 , 9 as well as partial hollow bodies are again formed Form 26 , 27 , which lead to the honeycomb structure 3 or the component 1 .

The individual hollow bodies 7, 8, 9 according to Fig. 2 and Fig. 3 form in the re gel pyramids 14, 14 'or mirror image of double pyramids 19, wherein the individual seg ments 20, 21 serve to provide a total area support of the individual elements of the To reach and ensure honeycomb construction. As can be seen from FIGS. 2 and 3 and the other figures, the pyramids 14 or mirror image double pyramids 19 are particularly suitable for supporting the individual elements in this way, because surfaces 10 , 11 which are offset in relation to one another are available and which are also so large are that the corresponding forces acting on the construction element 1 can be safely absorbed and transmitted.

The mirror image double pyramid 19 consists of the two pyramids 14 , 14 'which are connected to one another via a coupling web 22 . The central axis 30 separates the two elements or they are connected to one another along this central axis.

At the tips 12 of the individual pyramids 14 , 14 ', flattenings 13 are seen in front, so as to enable an additional inexpensive support of the individual parts or individual elements on the edge strips 31 or the spacer strips 18 or the base construction 16 .

While the "dividing line" in FIG. 2 joins the two pyramids 14 , 14 'to form a double pyramid 19 , the central axis 30 in FIG. 3 is at the same time the dividing line which leads through the flattened tips 12 . It is not recognizable that the edges 15 , 15 'can be perforated or cut open so as to allow the respective individual layer and also the entire component 1 to bend or bend without excessive forces having to be applied .

FIG. 4 shows an individual layer 2 or 4 on the edge, which has hollow bodies 7 , 8 or pyramids 14 on the inside 28 . These individual pyramids 14 are all of the same dimensions and connected to one another via the basic construction 16 . This base construction 16 simultaneously forms the spacer strips 18 , which ensure that the individual pyramids 14 are arranged at the same distance from one another and which simultaneously ensure that the individual layers 2 , 4 , 23 , 24 , 25 formed when the individual layers are pushed together Partial hollow bodies 26 , 27 and 7 , 8 , 9 can also be supported with their tips 12 on this spacer strip 18 . This optimizes the stability of the corresponding overall construction of the component.

By using the same reference number 18 for all basic constructions 16 running between the pyramids 14 , it is made clear that they should all have the same dimensions. They are provided with 18 'and 18 ".

Fig. 5 corresponds in principle to the representation of Fig. 4 only that a perspective is shown here, which at the same time makes it clear that the corresponding surfaces 10 , 10 ', 11 , 11 ' all on the mutual support and thus on the forwarding of occurring or involved forces are involved. The corresponding pyramids 14 also formed here on the inside 28 have the same shape and thus also the same surfaces 10 , 11 . The basic construction 16 or the spacer strips 18 run between the individual pyramids 14 .

FIG. 6 shows a component 1 , which here is composed of a total of five individual layers 2 , 4 , 23 , 24 , 25 . 2 and 4, the edge individual layers are referred to, while the middle layer 25 or the middle individual layer 25 with its both sides in front stationary part bodies 26 and 27 at the same time the coupling member serving as the individual layers 23, 24 and then the edge-side individual layers 2; 4. It can be seen that the so-called middle layer, that is to say the middle individual layer 25, has pyramids 14 and 14 'protruding on both sides, in order to enable and bond with the correspondingly formed individual layers 23 and 24 , where then complementary hollow bodies 7 , 8 , 9 or partial hollow bodies 26 , 27 also arise.

The component 1 shown in FIG. 6 is shown in FIG. 7 shortly before joining, whereby this is also intended to indicate optically that the edge-side individual layers 2 , 4 and the individual layers 23 , 24 , 25 can be nested and nested in one another, that this results in a flat component of high stability and low weight, with another advantage being the insulating effect of such a component.

Fig. 8 finally shows the component according to Fig. 6 and Fig. 7 in a perspective view also shortly before assembly, it being clear here that the edge-side individual layers 2 , 4 have no cover here.

Fig. 9 shows a component 1 , which consists of a total of eleven individual layers 2 , 4 , 23 , 24 , 24 'and 25 , wherein the individual layers 23 and 24 and 24 ' are each double pelt. The individual layers 2 , 4 and also the individual layers 23 , 24 , 25 are known from the previous figures, with two adapter individual layers 33 being added here, which make an edge-side single cell 2 and 4 from the middle individual layer 25 on both sides, because they alternate are provided with pyramids 14 and recesses 34 and thereby result in a coupling surface on both sides of the central individual layer 25 which produce the inside 28 of the edge-side individual layer 2 or 4. This is an extension of a corresponding component according to FIGS. 6, 7 , 8 into the room, so that components 1 of practically any wall thickness can be produced.

However, the individual figures also show that the special training of the individual layers 2 , 4 , 23 , 24 , 25 and 33 also give the possibility of arranging the individual individual layers 2 , 4 , 23 , 24 , 25 , 33 accordingly in a staggered manner to bring about an expansion in the plane that makes the expansion of the component 1 into a very large-area component possible.

All of the above-mentioned features, including those that can only be taken from the drawings alone and in combination are regarded as essential to the invention.

Claims (22)

1. Component, which is composed of several individual layers ( 2 , 3 , 4 ), of which at least one individual layer has a honeycomb structure, characterized in that the individual layers ( 2 , 3 , 4 ) as a very thin wall panel part ( 17 ) or partial honeycomb film are formed which have a basic construction ( 16 ) and positive and / or negative hollow bodies ( 7 , 8 , 9 ) or partial hollow bodies ( 26 , 27 ) protruding above them and are interlocking and / or clawed when inserted into one another and forces acting on them are designed to be homogeneously distributing on all honeycomb elements by forming and arranging the embossed individual layers ( 2 , 3 , 4 ) with the respective adjacent individual layers in the flat connection to form a wall, if possible. 2. The component according to claim 1, characterized in that the hollow bodies ( 7 , 8 , 9 ) or partial hollow bodies ( 26 , 27 ) assigned to the individual layers ( 2 , 4 ) with the hollow bodies ( 7 , 8 , 9 ) or partial hollow bodies ( 26 , 27 ) other individual layers ( 23 , 24 , 25 ) which represent the middle individual layer ( 3 ) and which again have corresponding surfaces ( 10 , 11 ). 3. Component according to one of the preceding claims, characterized in that the hollow bodies ( 7 , 8 , 9 ) or partial hollow bodies ( 26 , 27 ) assigned to the individual layers ( 2 , 4 , 23 , 24 , 25 ) with those of other individual layers ( 2 , 4 , 23 , 24 , 25 ) when nesting one inside the other, a pyramid ( 14 ) or mirror image double pyramid ( 19 ) is produced. 4. Component according to one of the preceding claims, characterized in that
that the pyramids ( 14 ) formed by the individual layers ( 2 , 4 , 23 , 24 , 25 ) from partial hollow bodies ( 26 , 27 ) or hollow bodies ( 7 , 8 , 9 ) are arranged and designed in such a way
that adjacent pyramids ( 14 ', 14 ") or mirror-image double pyramids ( 19 ), which are also formed when nesting into one another, lie flat against it, with the flat connection of the individual layers ( 2 , 4 , 23 , 24 , 25 ) creating a static cross wall, which the forces is receiving from all sides. 5. Component according to one of the preceding claims, characterized in that five individual layers ( 2 , 4 , 23 , 24 , 25 ) are combined to give a combination element, with a positive and negative partial hollow body ( 26 , 27 ) having a single layer as the middle layer ( 25 ) is used, which is assigned an intermediate single-layer ( 23 , 24 ) on both sides and then an individual layer ( 2 , 4 ) provided with partial hollow bodies ( 26 ) or ( 27 ) on one side. 6. Component according to one of the preceding claims, characterized in that one or two intermediate individual layers ( 23 , 24 ) an adapter single layer ( 33 ) or the subsequent middle layer ( 25 ) on both sides adapter individual layers ( 33 ) structure of any height and / or width are assigned by the spatial construction. 7. Component according to one of the preceding claims, characterized in that the individual adapter layer ( 33 ) has alternating positive partial hollow bodies ( 26 , 27 ) or hollow bodies and recesses ( 34 ). 8. Component according to one of the preceding claims, characterized in that the individual layers ( 2 , 4 , 23 , 24 , 25 , 33 ) consist of foils impregnated with liquid plastic paper, aluminum, steel or plastic. 9. Component according to one of the preceding claims, characterized in that the individual layers ( 2 , 4 , 23 , 24 , 25 , 33 ) consist of woven foils, preferably made of plastic threads or fiber composite materials. 10. The component according to one of the preceding claims, characterized in that the edges ( 15 ) leading up to the top ( 12 ) of the pyramid ( 14 ) are perforated and / or slotted. 11. Component according to one of the preceding claims, characterized in that the honeycomb structure ( 3 ) resulting hollow body ( 7 , 8 , 9 ) with obliquely lying surfaces ( 10 , 11 ), preferably on an edge ( 15 ) are arranged obliquely . 12. The component according to one of the preceding claims, characterized in that the edge-side individual layers ( 2 , 4 ) have hollow bodies or partial hollow bodies ( 26 , 27 ) on the inside and a flat cover ( 29 ) on the outside. 13. Component according to one of the preceding claims, characterized in that the upper and lower individual layers ( 2 , 4 ) are made of flexible material or material to be made flexible. 14. Component according to one of the preceding claims, characterized in that the hollow body ( 7 , 8 , 9 ) and or the partial hollow body ( 26 , 27 ) the honeycomb construction ( 3 ) resulting with each other taking into account the material property permanently or also releasably connected, preferably welded, glued, screwed together or connected by friction. 15. Component according to one of the preceding claims, characterized in that the partial hollow body ( 26 , 27 ) or hollow body ( 7 , 8 , 9 ) of the individual layers ( 2 , 4 ) pyramid-shaped and the hollow body ( 7 ) forming the honeycomb structure ( 3 ) 8 , 9 ) are double pyramidal or a mirror image double pyramid ( 19 ) is formed. 16. The component according to one of the preceding claims, characterized in that the pyramid-shaped partial hollow body ( 26 , 27 ) or the hollow body ( 7 , 8 , 9 ) on the base structure ( 16 ) are spaced to form a spacer strip ( 18 ), while the Segments ( 20 , 21 ) of the double pyramid-shaped hollow body ( 7 , 8 , 9 ) are connected to one another via an edge strip ( 17 ) running parallel to the central axis ( 29 ). 17. The component according to one of the preceding claims, characterized in that the tips ( 12 ) of the segments ( 20 , 21 ) of the double pyramid-shaped hollow body ( 7 , 8 , 9 ) or the partial hollow body ( 26 , 27 ) are flattened. 18. Component according to one of the preceding claims, characterized in that the flattening ( 13 ) at the top ( 12 ) of the pyramid ( 14 ) or the mirror image double pyramid ( 19 ) with the spacer strip ( 18 ) and / or edge strip ( 31 ) correct sponding and surface support is formed. 19. Component according to one of the preceding claims, characterized in that the hollow bodies ( 7 , 8 , 9 ) or the surfaces of the individual layers ( 2 , 4 , 23 , 24 , 25 , 33 ) are connected together by means of an elastic mass to form a wall are. 20. Component according to one of the preceding claims, characterized in that the hollow body ( 7 , 8 , 9 ) are completely or partially filled after connecting with a gaseous or liquid medium. 21. The component according to one of the preceding claims, characterized in that the individual layers ( 2 , 4 , 23 , 24 , 25 , 33 ) in the walls and / or the spacing strips ( 18 ) have recesses which after nesting and connecting to flow or circulating gas or liquid flow serve. 22. The component according to one of the preceding claims, characterized, that the so-called neutral fibers with the flat connections with the next neutral fiber are connected and the intermediate layers provide the intermediate spaces, the surfaces of which also receive a connection.