PL176316B1 - Light-weight building unit - Google Patents

Abstract

1. A lightweight construction element made of rigid plastic foam, especially for use in the associated heat-insulating infill of load-bearing structures and in building cladding, with internal flat voids that are arranged in multiple levels parallel to the external wall, at whereby at least one outer level has empty spaces, vertically open to the outside, so that the voids of many light building elements arranged one above the other and / or side by side in this level are interconnected, meaningful the fact that the voids (9) in the outer level (6) have vertical bridges (16, 17) with parallel side surfaces that stabilize these spaces, and also the voids (9, 1 1, 12) of different levels (6, 7, 8) are arranged one behind the other in relation to the outer surfaces (2, 3) so that the areas (14, 15) of the hard plastic foam cores between them are structured carrying. Fig. 2 (54) Light construction element PL PL PL

Description

The invention relates to a lightweight construction element made of rigid plastic foam with essentially flat internal voids, used in particular as heat-insulating fillings for load-bearing structures and for building cladding. Such a lightweight construction element can be used in the same way in lightweight closed structures, even without special supporting structures.

Many types of lightweight construction elements made of rigid plastic foam are known. They are used for light construction and for thermal and acoustic insulation.

Advantageously, such lightweight construction elements can be used for filling load-bearing structures in skeletal structures, for example reinforced concrete, and for erecting partition walls. Moreover, light construction elements are known, which are poured with concrete after assembly, thus integrating the load-bearing framework.

Light construction elements having many different shapes are known. Their outer surfaces can, for example, be structured or they can have special roughening for good adhesion of the applied plaster. The internal structure of lightweight construction elements is usually homogeneous, but the porosity typical of the material may vary in size. The use of the material will therefore always be determined by the size of the lightweight component and its density.

DE 3744037 A1 describes a formwork element, the interior of which is poured with concrete. In order to improve the sound insulation, the formwork has many voids that are filled with air. In a particular embodiment, these voids are arranged in regular arrays in at least two levels, the arrangement of one level being displaced relative to the arrangement of the adjacent level. There are many levels on one side of the formwork element.

EP 76732 describes a building molding for exterior walls of buildings which has voids, the voids of adjacent moldings being connected to each other such that

It is possible to continuously circulate air along the outer surfaces. Such a shaped piece has in its lower part a through chamber which is open on the inner surface and on at least one of the side surfaces of the shaped piece and is connected to passages narrowing towards the top face of the shaped piece, the passages ending on this surface. upper and are limited by blocks connecting the front wall to the body of the shaped body.

The disadvantages of these known technical solutions are, in particular, that the known lightweight construction elements made as solid as well as the lightweight formwork, concrete-filled construction elements have a relatively poor vapor permeability. For walls or cladding that should be ventilated underneath, relatively expensive DIY construction solutions are usually required.

The object of the invention is to provide a lightweight construction element made of rigid plastic foam which, with a lower weight, has a relatively high compressive strength, good thermal insulation properties and good vapor permeability.

The invention solves this object by the features stated in the characterizing part of claim 1. Further developments of the invention are characterized in the dependent claims.

The solution according to the invention is a lightweight building element which has a load-bearing structure made of bridges left between the voids situated one behind the other in relation to the outer surface, which structure is preferably complemented by a cellular structure between the voids of different levels. Good vapor permeability is ensured by the voids arranged between the load-bearing structure in the form of composite hard plastic foam cores.

The thermal insulation properties are essentially unchanged compared to the full lightweight construction element. The solution according to the invention provides effective ventilation of the bottom in at least one bond level of a plurality of lightweight building elements. The ventilated level is preferably integrated into the bond without additional building measures. You only need to pay attention to properly ensure adequate air inflow and outflow in the lower and upper part of the finished binding.

Compared to the known solutions, apart from the favorable structural and physical properties of the element according to the invention, a significant result is a significant saving in weight, which, depending on the design, can be reduced by up to 50% or more.

The voids are made flat in a known manner, i.e. the voids lie within the levels as flat chambers. It is also possible to provide a plurality of closely adjacent, correspondingly smaller voids of any geometric shape.

The voids of the levels which should not be ventilated have separate transverse walls, or the light building elements are arranged such that in an offset connection between them, the voids are vertically closed off by the bridges of adjacent light building elements.

The number of void levels depends on the specific application conditions. The required thickness of the lightweight construction element is decisive due to the requirements for thermal and acoustic insulation properties and static strength. The advantageous effect of the invention occurs especially with greater thicknesses of lightweight construction elements.

The invention will be explained in more detail on the basis of an exemplary embodiment.

Figure 1 shows a top view of a lightweight building element according to an embodiment.

Figure 2 shows the section A-A of Figure 1.

Figure 1 shows a top view of a lightweight construction element 1 according to the invention made of rigid plastic foam. Due to the technological purpose, it is made asymmetrical. The outer surface 2 in this example is prepared for the subsequent application of a plaster layer and has a light surface structure. The outer surface 3 should be part of the later inner wall of the structure and is therefore smooth. However, it can also have an aesthetically structured surface. The side surfaces 4 and 5 have the known groove-and-groove design.

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The solution according to the invention provides, in this embodiment, three levels 6, 7 and 8, in which voids are formed. For technological reasons, the level 6 of the light building element 1 has a greater distance to the outer wall 2 than the level 8 to the outer surface 3. Inside the light building element, the spacing between the individual levels 6-8 is the same.

Void spaces 9, level 6 that are closest to the outer wall of the structure should be ventilated from below. For this purpose, the various voids 9.1, 9.2 and 9.3 are always connected to each other via channels 10.1 parallel to the outer surface 2. The element has additional connecting channels 10.2 and 10.3 which ensure the horizontal connection of the voids 9.1 and 9.3 of the various lightweight construction elements. For this purpose, the lightweight construction element has, on the side surfaces 4 and 5, a groove-groove structure displaced in relation to the longitudinal axis of the lightweight construction element 1, preventing it from turning the sides by mistake. The voids 11 and 12 are always interrupted in the vertical direction by the transverse walls 13 in the levels 7 and 8. As a result, the voids 11 and 12 are closed in the structure. The position of the transverse walls 13 inside the lightweight construction element 1 depends on the size of the lightweight construction element and on the technological possibilities. In an embodiment, the transverse walls 13 lie approximately in the center of the vertical lightweight construction element 1. In the production of the element 1, mold cores are inserted on both vertical sides. With smaller vertical heights of the element 1, it may be advantageous if a given void 11 or 12 is open on one side and the opposite side is closed in the plane of the surface of the light construction element 1.

The voids 9 and 11 of levels 6 and 7 are of the same size in the horizontal section. The length of the void spaces 12 in horizontal 8, on the other hand, is slightly longer. Nevertheless, according to the invention, the voids 911 and 12 of the different levels 6, 7 and 8 are arranged one behind the other with respect to the outer surfaces 2 and 3. With this design, the technologically required load-bearing structure and an area of good vapor permeability are created.

The support structure is shown in dashed lines in FIG. 1, with the support structure inside the lightweight construction element 1 lying in areas 14.1 and 14.2 and the edges in areas 15.1 and 15.2.

In the remaining regions, the cellular structure advantageously supports the support structure.

Between the areas 14 and 15 there are voids 911 and 12 arranged one behind the other with respect to the outer surfaces 2 and 3 together forming the area of improved vapor transmission.

Figure 2 shows the section AA of Figure 1, with more details being shown in levels 6 and 8. In the right-hand part of the figure, the cross-section is through level 6. As shown in level 6, only connecting bridges 16 and connecting bridges remain between the individual voids 9.1 - 9.3. connecting bridge 17 on side faces 4 and 5. As shown in the drawing, connecting bridge 16 can be freely traversed by air when vented underneath.

In the left part of Fig. 2 in the horizontal 8, the voids 12 are closed in the vertical direction by the transverse walls 13 and the enclosed air cannot circulate.

The lightweight construction element 1 according to the embodiment has a considerable inherent compressive strength and, with good heat insulating properties, has good vapor permeability. A significant advantage is the high material savings due to the voids and the associated weight reduction. In addition, the lightweight construction element 1 can be adapted to the intended technological purpose by separate means.

Claims (3)

Patent claims 1. Lightweight construction element made of rigid plastic foam, for use in particular in bonded heat-insulating infill in load-bearing structures and for building cladding, with flat voids inside which are arranged in multiple levels parallel to the outer wall, with at least one outer level has voids vertically open to the outside such that the voids of a plurality of stacked and / or adjacent to each other light building elements in this level are interconnected, characterized in that the voids (9) in the outer level ( 6) have vertical bridges (1 <6.17) with parallel side surfaces that stabilize these spaces, and moreover, voids (9, 11, 12) of different levels (6, 7, 8) are arranged one behind the other in relation to outer surfaces (2, 3) such that the areas (14, 15) of the hard plastic foam cores therebetween constitute the load-bearing structure. 2. Lightweight building element according to claim A method as claimed in claim 1, characterized in that the vertical dimension of the voids (11, 12) which do not lie in the outer level (6, 7, 8) is delimited by the transverse walls (13). 3. Lightweight building element according to claim The method of claim 1, characterized in that a plurality of closely adjacent void spaces of any geometric shape are used as the empty space (9, 11, 12).