DE1609889C - Large-area component made of layered composite panels and the process for its manufacture - Google Patents

Description

of the type mentioned in such a way that it has the same strength and thermal conductivity as a single composite panel.

This object is achieved according to the invention in that at the butt joints of the layer composite panels the cavity between the core layers and the outer layers is filled with foam is. This makes it possible to create a large-area component from laminated composite panels that Top layers and core layers with the same non-positive fit at the joints Has strength values and the same insulating properties as each layer composite panel alone.

The foam connecting the core layers particularly advantageously has a density of approximately 80 kg per cubic meter. This foam hardens after the final crosslinking in the cavity liquid introduced, propellant reaction mixture, wherein the cavity is foamed according to the contour will. In the cavity protruding construction profiles od. Like. Are of the Foam is foamed according to the contour.

The foam connecting the core layers is advantageously a polyurethane foam.

Furthermore, the support devices used during the foaming can be left behind by the removal of the support devices Holes in the core layer through glued-in foam dowels and in the cover layers Stopper are closed.

The for homogenization and generation of the desired specific density of the in the The required hydrostatic pressure can be generated as a result of the cavity foamed foam that ventilation holes to the cavity, for example by means of nonwovens, are covered.

The invention is illustrated in the drawing using several exemplary embodiments. It shows

F i g. 1 a prefabricated composite sheet in a perspective view,

F i g. 2 a butt joint with cover layers connected by butt welding without joint filling,

F i g. 3 a butt joint with riveted or screwed Overlapping of the top layers,

F i g. 4 a butt joint with glued on through the outside Cover flaps connected cover layers and a support device to catch the during foaming the hydrostatic foaming pressure occurring in the cavity,

5 shows a large-area, planar layer composite component with butt joints,

F i g. 6 shows a butt joint after the support device has been removed and the state on the finished component and

F i g. 7 shows a butt joint with cover layers connected by means of cover flaps being riveted or glued and a structural profile protruding into the cavity and a support device for Interception of the foaming pressure.

For the production of large-area components from composite panels with non-positive continuous Cover layers and core layers according to the invention are required in two steps. Next the prepared composite panels are aligned in terms of assembly, namely in the Contour of the finished large-area component. Then the non-positive connections are then made the outer layers and the core layers. For example, planar composite panels are used I used the solid cover layers 1 and 2 and the core layer between them 3 are made of foam. The cover layers 1 and 2 can consist of any material, for example steel, light metal, fiberglass-reinforced plastic panels, plywood or asbestos-cement panels. Here, the cover layers can be made of the same on both sides of the composite panels or a different material. As indicated in the drawing, the protrude Cover layers 1 and 2, the core layer 3, so that the end faces 4 of the core layers 3 when assembled two layer composite panels delimit a cavity 5 between the core layers 3.

The cover layers 1 and 2 of two composite panels can be connected to one another in any way. Thus, Fig. 2 that the two cover layers 1 and 1 α and the two cover layers 2 and 2 a of two adjacent layer composite plates are connected to one another by butt welding, the cavity 5 being formed by the core layers 3 and 3 α, respectively. According to FIG. 3, the cover layers on both sides are connected to one another by means of rivets 6 or screws 7, for example.

To when foaming the cavity 5 between the core layers 3 as a result of the foaming pressure To absorb forces acting perpendicular to the cover layers 1 and 2, according to FIG. 4 a support device are used, the butt joints between the cover layers 1 and la or 2 and 2a, z. B. are covered by channel steels 16 and 17, which in turn are connected to one another by stud bolts 18 are.

In Fig. 5, the foaming of the cavity between prefixed layer composite panels V, VI, VII and VIII is indicated schematically. The foam reaction mixture is introduced in one shot into the lower filling space 19, which can hold at least the entire amount of the reaction mixture required to fill the cavity 5, with an initial density of 1.1 to 1.2 g / cm ³ assumed for its volume dimension can be. From this filling space 19, the

z. B. is arranged as a tube with jacket bores in the lowest, horizontally lying part of the cavity 5 and in which the introduced reaction mixture is to be evenly distributed until the start of the blowing process, the mixture pushes as a liquid-creamy foam evenly into the individual parts 5 a, 5 b, 5 c, 5d, 5e and 5 / of the cavity 5. The upper horizontal part 5 / of the cavity 5 is provided with ventilation holes 20 which are covered with fiber fleeces 21 towards the cavity 5. The air displaced from the cavity escapes through these vent holes 20 Cavity an evenly slight overpressure is created.

If the cavity is filled with the still liquid-creamy foam in this way, it occurs through the vent holes 20. The foam outlet is used as a control for the foamed

5 6

the cavity is desirable, but the end-

occurs only slightly, e.g. B. is only used as over networking.

small mushrooms forming in the vent holes 20. 7 is a further embodiment for heads can be seen. This effect is indicated by the support device in order to achieve the vertical covering of the ventilation holes 20 by means of the forces acting on the cover layers 1 and 2 of the nonwovens 21, which are well air-permeable when foamed. Here thereof, but the penetration of the starting material was creamy liquid that the two outer layers 1 foam clog rapidly, so that an uncontrolled and la by a reinforcing profile 22 to one another large foam outlet is prevented. Are connected this way, while the outer layers 2 and 2a is intended to ensure that the switch in the cavity have an outer io glued flap 23rd A U-profile 24 is used as a support-closed, still propellant foam reaction device, which is foamed onto threaded bolts 26 by means of a mixture of increasing hydrostatic sleeve screws 25, whereby the cavity is screwed into place. The threaded bolts 26 are filled with the finest contours and the joint filling reinforcement profile 22 is welded. If such material is not available for a specific reinforcement profile 22 that is uniform throughout, density is homogenized. the screws 25 with a head according to FIG. 4th

To achieve one of the height of the provided.

Desired specific final pressure dependent. This support device is removed again after the density of the foam has ^{hardened, for example about 80 kg / m 3.} The foam thus produced requires the final pressure 20 which holes are made according to FIG. 6 with a foam dowel 27 provided with adhesive by choosing the amount and composition, and which must be determined in advance. Holes in the outer layers 2 and 2a by examples

When the cavity 5 is filled with foam, for example screw-in stoppers 28 are closed,

especially with room cells or in the hollow. Of course, the hollow space can according to

Structural elements protruding into the space can be moved into the horizontal

Foam pressures of up to 4 atmospheres are required.

will. The foaming pressures must be subdivided by their end foaming sections

have reached values before the flowability, which each can be foamed separately.

1 sheet of drawings

Claims (5)

Such a known, as a prefabricated wall panel claims: usable composite panel for the establishment of building factory walls consists of a load-bearing and / or 1. Large-area component made of layer-insulating core layer and applied to it bund panels, which have a core layer of hard 5 top layers of asbestos cement. The top layers Foam and two protruding from the core layer are on their long sides around about the total cover layers have, in which the plate thickness corresponds to the corresponding amount of oppositely speaking cover layers and the corresponding offset to one another and to the core layer, so that the core layers of the composite panels firmly between two adjacent composite panels are connected to one another, thereby ge-io approximately Z-shaped, each by a top layer of the indicates that at the butt joints of the adjacent composite panel concealed joint gebil multilayer composite panels the cavity between det becomes. the core layers and the outer layers with The layer composite construction generally shows Foam is filled with foam. only in conjunction with non-positive 2. Component according to claim 1, characterized by ge 15 running cover layers and also non-positively indicates that the core layers connecting the core layers (3) have special advantages, Dende foam has a density of about which consists in that layer composite components 80 kg per cubic meter. greatest insulating ability at the same time stable, highly resistant 3. Component according to claim 1 or 2, loadable structural parts result. The with the bedurch characterized in that the core layers (3) 20 known large structural composite components lacking force-connecting Foam is a polyurethane foam that creates a tight connection between the core layers fabric is. high stresses on the connections of the deck 4. The component according to one of claims 1 layers, which experience has shown in many cases to 3, characterized in that they are leaking through. Such leaks in the deck removals of the 25 layers used for foaming lead to the formation of cold bridges, ins-support devices remaining holes in the special, if there are joint cavities between the end faces of the core layer through glued-in foam dowels with core layers (27) and the top layers are filled with air through plugs, from which the (28) are closed. Moisture precipitates, whereby the core layers in the loading 5. A method for producing structural elements at the joints to the detriment of those who are capable of insulating according to one of claims 1 to 4, thereby being soaked. characterized in that the homogenization measures are known to prevent penetration and generating the desired specific moisture content in the foam core layers Prevent volume weight of the in the cavity, z. B. Edge profiles that are perpendicular to the foamed foam required hydro- 35 board surface the internal and external deck static pressure is generated by the fact that stripping connect with each other and thus the ventilation holes (20) towards the cavity (5), at the end faces of the core layers opposite the joint play cover cavities covered by means of nonwovens (21). will. In a known component of the initially 40 mentioned type, in which the core layers by means of a -: inserted wooden spring are connected, is an edge profile used as a so-called bar filler, the The invention relates to a large-area construction consisting of one between the abutment surfaces of two adjacent element made of composite panels, which have a core barter composite panels, the layer of hard foam and two the core layer 45 panel surfaces on both sides projecting, projecting cover layers, in which the cross-section There is a semicircular hollow profile, but the corresponding cover layers and the corresponding edge profiles do not prevent the core layers of the composite panels from being firmly bonded to moisture in the joint cavities, and a process to penetrate into the joint and possibly into the joint joint. Metallic construction elements of this type with a large surface area laid out in cavities are corroded by the file, which, especially in the case of non-detachable ones, is uncontrollable, especially in the construction sector and in the case of surface layer connections. Means of transport, e.g. B. as inner and outer walls, in addition, that the edge profiles correspond to roofs, floors, doors or the like , e.g. made of molded material or load-bearing box bodies for refrigerated trucks. · Metal, exist, which has a greater thermal conductivity-The production of large-area construction elements speed than the core layer foam, so that even after the known envelope and filling construction, such edge profiles form cold bridges,
economically and for reasons of assembly often un- The known, according to the known together expedient. It is advantageous to join layer-bonded large-scale building elements made of layered composite panels produced by solid parts and therefore have less stability and insulating or detachable connections with their connectivity with regard to the particular advantages of surfaces. Here are so far on the layer composite, so that their use connection joints only the cover layers training as load-bearing, highly insulating components, positively connected to each other, while the 65 z. B. as vehicle bodies for refrigerated trucks, questionable core layers of composite panels with more or is. less large air gaps between their forehead The invention is based on the object a surfaces remain disconnected. Large-area component made of composite panels