DE4409763C1 - Lightweight building block - Google Patents

Abstract

A light building block made of a hard plastic foam with substantially flat inside cavities is particularly suitable in bonds for heat insulating in fill wallings of bearing constructions and for lining buildings. The disclosed light building block (1) has cavities (9, 11, 12) parallel to the outer surfaces (2, 3) in at least two planes (6, 7, 8). The cavities of several adjacent light building blocks (1) in a bond communicate in at least one outer plane (6) in the vertical and/or horizontal directions, so that the bond is aerated from behind.

Description

The invention relates to a lightweight building block from an art Rigid foam with essentially flat design Cavities inside, especially for use in dressings for thermal insulation of load-bearing structures and for cladding of buildings. The use of one of the like lightweight building blocks can in the same way with light single-storey buildings even without a special load-bearing con structures take place.

Lightweight building blocks made of a rigid plastic foam are already known in many different ways. On the one hand, they serve for lightweight construction and on the other hand also to a special extent Purposes of thermal insulation and sound insulation. In advantageous Such lightweight building blocks can be quiet to infill load-bearing structures, both in half-timbered buildings and in steel concrete skeleton construction, are used, as well as for erection of partitions u. In addition, lightweight building blocks are knows that are poured with concrete after assembly and thus integrating a load-bearing framework.

The training of the lightweight building blocks is in many ways known. The outer surfaces can be structures or z. B. for adhesive application of plasters to special surfaces have roughness. The inner structure of the lightweight building blocks is usually homogeneous, with the typical porous material can vary in size. The use of materials thus always on the size of the lightweight building block and the speci fish density determined.

DE 37 44 037 A1 specifies a formwork module whose Interior is poured with concrete. To improve the Sound insulation is in the shell a variety of Cavities that are filled with air. A special out leadership specifies that the cavities in regular Patterns are arranged in at least two levels, the Pattern of one level versus the pattern of the adjacent one Level is offset. The multitude of levels lies on it one side of the formwork block.  

The disadvantages of the known technical solutions exist especially in that the well-known fully executed Light building blocks, as well as the concrete filled casings lungs lightweight building blocks, a relatively poor vapor transmission possess liquidity. For walls or cladding behind are to be ventilated, are usually relatively complex structural independent solutions required.

The invention is therefore based on the task, an easy building block made of a rigid plastic foam of the beginning Specify named type, which is a relative at low mass has high compressive strength and good thermal insulation properties have good vapor permeability.

The invention solves the problem by in the characterizing Part of claim 1 mentioned features. Further training of the Invention are characterized in the subclaims.

The solution according to the invention creates a lightweight module that in itself, from the bridges that exist between the opposite of the Lead out the cavities arranged one behind the other ben, has a supporting structure, which through the honeycomb structure between the cavities of different levels is partially added. Between this supporting structure in The shape of complex plastic hard foam cores is made using the Cavities ensure good vapor permeability. The Thermal insulation properties are compared to a full one Light building block essentially unchanged. The fiction appropriate solution ensures effective rear ventilation.

In the case of advantageous physical building properties, about solutions according to the state of the art as essential Effect achieved significant mass savings depending on the Execution can be up to 50% and more.  

The cavities are formed in a known manner flat, d. H. the cavities lie within the planes as flat spaces. A plurality can also be used as cavities closely spaced and correspondingly smaller cavities any geometric training.

The cavities of the levels that are not ventilated should have a dividing wall or the lightweight construction stones are designed in such a way that they are offset in the association The lightweight blocks laid the cavities vertically through the Bridges of the adjacent lightweight building blocks can be completed.

The number of levels in which the cavities are located depends on the specific operating conditions. Off the decisive factor is the required thickness of the lightweight building blocks by demands on the respective heat and sound insulation properties as well as the required static strength. The advantageous effect of the invention occurs particularly larger thicknesses of the lightweight blocks.

The invention is intended to be based on an exemplary embodiment are explained in more detail.

The drawing shows in

Fig. 1 is a plan view of a lightweight module according to the invention after the game Ausführungsbei.

FIG. 2 shows the section AA in FIG. 1.

Fig. 1 shows the top view of a lightweight building block 1 according to the invention made of a rigid plastic foam. It is designed asymmetrically for the technological purpose. The outer surface 2 is prepared in the example for the later application of a plaster layer and has a slight surface structure. The outer surface 3 should be part of the later inner wall of a building and is therefore smooth. But it can also have an aesthetically structured surface. The side surfaces 4 and 5 are formed in a known manner with a tongue and groove structure.

In the example, the inventive solution provides three levels 6, 7 and 8 , in each of which cavities are formed. Because of the technologically intended task of the lightweight building block 1 , the plane 6 is at a greater distance from the outer wall 2 than the plane 8 from the outer surface 3 . Within the lightweight stone, the distance between the individual levels 6 to 8 is the same size.

The cavities 9 in level 6 , which are closest to the later outer wall of the building, should be able to be ventilated. For this purpose, the various cavities 9.1 , 9.2 and 9.3 are connected vertically and horizontally, in each case parallel to the outer surface 2, via the channels 10.1 . In addition, there are connection channels 10.2 and 10.3 , which ensure the horizontal connection of the cavities 9.1 and 9.3 of different lightweight building blocks 1 . For this purpose, ie that the lightweight module 1 is not inadvertently installed in reverse, the tongue and groove structure on the sides surfaces 4 and 5 is offset from the longitudinal axis of the lightweight module 1 .

The cavities 11 and 12 in the levels 7 and 8 are each interrupted by transverse walls 13 in the vertical direction. These cavities 11 and 12 in the building are thus closed. The location of the transverse walls 13 within the lightweight building blocks 1 depends on the size of the lightweight building blocks 1 and the technological possibilities. In the example, the transverse walls 13 lie approximately in the vertical center of the lightweight module 1 . In the manufacture position, cores are inserted into the lightweight module 1 to be produced from both vertical sides. In the case of smaller vertical heights, it may be more advantageous for the respective cavity 11 or 12 to be open on one side and for the opposite side to be closed in the surface plane of the lightweight module 1 .

The cavities 9 and 11 of the levels 6 and 7 are of equal size in the horizontal section. In contrast, the length of the cavities 12 in the plane 8 is somewhat longer. Nevertheless, the claim according to the invention is obtained that the cavities 9 , 11 and 12 of the different levels 6 , 7 and 8 are arranged one behind the other in relation to the outer surfaces 2 and 3 . With this configuration, a load-bearing structure and an area of good vapor permeability are created specifically for the technological application.

The load-bearing structure is indicated in FIG. 1 with dashed lines, the load-bearing structure being located within the lightweight module 1 in the areas 14.1 and 14.2 and at the edge in the areas 15.1 and 15.2 . The honeycomb structure in the other areas supports the load-bearing structure in an advantageous manner.

Between the areas 14 and 15 are the cavities 9 , 11 and 12 arranged one behind the other to the outer surfaces 2 and 3 , which together form the area for improved vapor permeability.

Fig. 2 shows the section AA in Fig. 1, the individual units in the levels 6 and 8 can be seen more precisely. In the right part of the drawing, the section runs through level 6 . As shown, in this level 6 only connecting webs 16 remain between the individual cavities men 9.1 to 9.3 and the connecting web 17 on the side surface 4 and in the same way on the side surface 5 . It can be clearly seen that the connecting web 16 can be freely flowed around by the air in the case of rear ventilation.

In level 8 , in the left part of FIG. 2, the cavities me 12 are each closed by transverse walls 13 in the vertical direction and the trapped air cannot circulate.

The lightweight building block 1 of the exemplary embodiment has its own considerable compressive strength and, with good thermal insulation properties, has good vapor permeability. A significant advantage is the high material savings through the cavities and the associated weight reduction. In addition, the lightweight module 1 can be adapted to the technologically intended use with various individual measures.

Claims (4)

1. Light building block made of a rigid plastic foam with essentially flat cavities inside, in particular for use in dressing for thermal insulation infill of load-bearing structures and for cladding of structures, characterized in that the cavities ( 9 , 11 , 12 ) parallel to the outer surfaces ( 2 , 3 ) are arranged in at least two planes ( 6, 7, 8 ) and that the cavities ( 9 ) are spatially connected to one another in the vertical and / or horizontal direction at least in one outer plane ( 6 ), such that the association is ventilated. 2. Light building block according to claim 1, characterized in that the cavities ( 9 , 11 , 12 ) of different levels ( 6, 7, 8 ) with respect to the outer surfaces ( 2 , 3 ) are arranged one behind the other. 3. Light building block according to claim 1, characterized in that the vertical expansion of the cavities ( 11 , 12 ) is limited by transverse walls ( 13 ). 4. Light building block according to claim 1, characterized in that as a cavity ( 9 , 11 , 12 ) a plurality of closely spaced cavities of any geometric formation are available.