DE4411209C1 - Hard foam building block - Google Patents

Abstract

The building block comprises side walls (12,14) enclosing an inner cavity (22,24). A partition (20) extends in the cavity at a distance from the two side walls and is connected to these by webs (16,18) set offset from each side. The distance between two webs set on opposite sides of the partition is greater than their thickness. The thickness of the partition can be less than the distance between two webs on opposite sides of the partition. The webs extend vertically over their height and are offset in the longitudinal direction.

Description

The invention relates to a rigid foam building block Side walls and an inner cavity for composite, non-load-bearing, thin lightweight walls, especially in buildings with concrete walls clad with rigid foam elements, for plastering on both sides.

So far, the process of creating such buildings that formwork elements are made of non-load-bearing walls Rigid foam used, the cavities after plugging together were poured with concrete. In contrast to the strength ren load-bearing walls results in an expedient The thickness of the non-load-bearing walls of 12.5 cm is too narrow l cavity than that it could still be machined with the help of an Au concrete pump could be filled, causing the work effort increased.

From DE-PS 34 44 805 is a building block with side walls Concrete known, in the middle of a plate made of foam is arranged. However, this building block is also for the Be Filling with concrete designed and therefore for very narrow in not suitable.

On the other hand, filling a hard can foam building block of the type mentioned, as it z. B. in the DE-GM 73 35 733 is described, also not simply ver be dispensed with, since the known formwork elements alone do not have sufficient stability and sound insulation. By appropriate reinforcement of the cross connections between the side walls of the formwork element could be the Increase stability, but with further deterioration the sound insulation. So far it has been insufficient because of the Rigid foam applied plaster due to the elasticity of the  Rigid foam material is vibratable and materials with ge ring specific weight basically bad damping have properties for airborne sound.

As an alternative, one also used large for partition walls flat plates, however, not together with the hard foam formwork elements processed for the load-bearing walls can be, but only after completion of the load-bearing Walls set up and attached to them in a cumbersome manner must be closed.

The object of the invention is not a building block system to create load-bearing lightweight walls that together with the tra walls can be processed and the walls created in the process have good sound insulation values.

According to the invention the object is achieved in that the cavity at a distance from both side walls one with the sen connected via webs offset on both sides Partition extends and the distance between two on ge webs arranged opposite sides of the partition is much larger than their thickness.

A first advantage of the rigid foam building block according to the invention lies in the fact that it is used together with the hard foam foam Processing elements are processed and a wall plaster the same Consistency of how the formwork elements can get. This Plaster also makes an essential contribution to the rigid foam block Chen contribution to stability. With a shock load the Plaster bowl on the side of the impact on pressure stems, the cleaning bowl on the opposite side Train, while the hard foam core the resulting shavings recordings.  

Another advantage is the good sound insulation Building blocks even after the wall plaster has been applied. Through the Shaping the large-volume slots between the webs, the hard foam Block more elastic in the transverse direction, which makes the Reso frequency of the plaster to less critical lower fre sequences moved.  

The offset position of the webs, which the side walls with the Connecting the partition wall also decouples the two be ten walls from each other, so that the vibrations of one side wall and the wall plaster applied to it not on the opposite side wall can be transferred. This The principle of operation is in contrast to that of known ones Hollow foam formwork elements with or without permanent hollow spaces because there the sound passage through the concrete core instead of being dampened by a flexible intermediate wall. Through the wall formation according to the invention one achieves one Attenuation of 45 dB without the proposed measures achieved with a rigid foam wall of the same thickness only 35 dB.

In a preferred embodiment of the invention, that the thickness of the partition is smaller than the offset two he arranged on opposite sides of the partition ter Stege is.

This feature makes the rigid foam building block in cross direction even more elastic, with a further lowering of the Resonance frequency, and the decoupling of the two side walls is even more effective. The thickness of the partition and the webs and the width of the slots on either side of the intermediate wall are preferably about 1-1.5 cm.

In order to optimally absorb the pushing forces in case of load between the wall plaster and the side wall of the rigid foam block ensure, the wall outer surface of the rigid foam construction stone dovetail grooves to improve the Adhesion of the plaster to the rigid foam block.

Another possibility of the configuration according to the invention provides that on the narrow sides of the rigid foam block Plug-in elements for assembling the same hard foam component  ne and for positive connection with suitable hard foam formwork elements are provided for load-bearing walls.

Thanks to these connectors, the rigid foam building blocks are into existing systems of hard foam formwork elements integrable and can be built together with them. Due to the positive connection, the Stability of the non-load-bearing lightweight wall increased.

With the help of the attached drawing, an explanation is given Example of the invention received.

The figure shows a rigid foam block 10 with a first side wall 12 and a second side wall 14 . Both side walls 12 , 14 are each connected via webs 16 , 18 to an intermediate wall 20 lying between them. The webs 16 of the first side wall 12 are laterally offset with respect to the webs 18 of the second side wall 14 . This results in first slots 22 between the first side wall 12 and the intermediate wall 20 and second slots 24 between the two th side wall 14 and the intermediate wall 20 , which, like the webs, are offset from one another. A web is always in the middle of the opposite slot. The thickness of the continuous inter mediate wall 20 is approximately equal to the thickness of the webs 16 , 18 and less than the thickness of the side walls. In connection with the large lateral offset of the webs 16 to the webs 18 opposite them, a rigid foam block which is very elastic in the transverse direction is obtained.

On the narrow sides of the rigid foam block 10 is profi led that it can be plugged together with similar rigid foam blocks. The intermediate wall 20 facing regions 26, 28 of the side walls 12, 14 are at the top of he höht, at the bottom of the foam block 10 accordingly omitted, and also on the flanks on one Be te protruding and sunken on the other side . In order to avoid lateral displacement of the rigid foam building blocks against one another, the raised inner regions 26 , 28 of the side walls 12 , 14 have transverse ribs 30 , 32 which engage in corresponding transverse grooves (not shown) on the underside of the rigid foam building block.

After the rigid foam blocks 10 have been put together to form a wall, a wall plaster layer (not shown) is applied to the two side walls 12 , 14 . This wall plaster layer gives the wall its final stability, the adhesion of the plaster on the side wall and the transmission of thrust through vertical dovetail grooves 34 in the side walls 12 , 14 , is improved.

Since the structure of the intermediate wall 20 and webs 16 , 18 in the central region of the rigid foam building block 10 is very flexible, the two side walls 12 , 14 are well sound-insulated from one another in the acoustically interesting region.

The load-bearing capacity of the block results just like its Ability to absorb shocks from the layered structure of Plaster layers and hard foam core.

The block size depends primarily on the Ab measurements of the hard foam formwork elements of the load-bearing walls de, with which the rigid foam building block is processed together should, however, it can be used for certain applications also extend across the entire wall height and width.

Claims (8)

1. Hard foam block with side walls ( 12 , 14 ) and an inner cavity ( 22 , 24 ) for composite, non-structural, thin lightweight walls, especially in buildings with concrete walls that are boarded with hard foam elements, for plastering on both sides, characterized that in the cavity at a distance from both side walls (12, 14) with this on both sides are arranged offset webs (16, 18), intermediate wall (20) connected he stretches, and the distance between two on gegenüberlie constricting sides of the intermediate wall (20 ) arranged webs ( 16 , 18 ) is significantly larger than their thickness. 2. rigid foam block according to claim 1, characterized in that the thickness of the intermediate wall ( 20 ) is smaller than the distance between two on opposite sides of the inter mediate wall ( 20 ) arranged webs ( 16 , 18 ). 3. rigid foam block according to claim 1 or 2, characterized in that the webs ( 16 , 18 ) extend substantially perpendicularly above its height and are arranged offset in its longitudinal direction. 4. rigid foam block according to one of claims 1 to 3, characterized in that the distance between two webs gene ( 16 ; 18 ) on the same side of the intermediate wall ( 20 ) four to ten times the thickness of the webs ( 16 , 18th ). 5. rigid foam block according to one of claims 1 to 4, characterized in that the webs ( 16 , 18 ) on the egg nen side of the intermediate wall ( 20 ) in the middle between two webs ( 18 ; 16 ) on its other side are arranged. 6. rigid foam block according to one of claims 1 to 5, characterized in that the thickness of the webs ( 16 , 18 ) and the intermediate wall ( 20 ) and their distance from each side wall is about 1-1.5 cm. 7. rigid foam block according to one of claims 1 or 6, characterized in that the outer wall surface of the Be tenwalls ( 12 , 14 ) has grooves ( 34 ) to improve the adhesion device of plaster. 8. rigid foam block according to one of claims 1 to 7, characterized in that it has on its narrow sides Ver connecting elements ( 26 , 28 , 30 , 32 ) for connecting the same rigid foam blocks ( 10 ) and for connection with hard foam formwork elements for supporting walls.