AT13558U1 - Connection structure of a load-bearing straw bale wall to a base plate - Google Patents

Abstract

A connection structure of a load-carrying straw bale wall (9) to a bottom plate (3) provides aerated concrete blocks (5), which carry a base plate (8) as a footing for the straw bale walls (9). The base plate (8) projects beyond the aerated concrete blocks (5) to the outside, so that there is a socket offset from an outer plaster (10). It carries a damping layer (6), preferably with a glass cloth reinforcement (7), which can be pulled and clamped between the base plate (8) and the cellular concrete blocks (5). A drip tray (11) as the lower boundary of the outer casing (10) may be connected to the base plate.

Description

Austrian Patent Office AT13 558U1 2014-03-15

Description: The invention relates to a connection structure of a load-bearing straw bale wall to a base plate for bales of straw bales with a heat-bridge-free and moisture-insulating base. Prefabricated residential products are placed on foundations that only provide a barrier layer, e.g. made of bitumen. In wood construction, a special moisture insulation is required. In many cases, a pedestal is bricked, this strip is placed directly on a foundation plate or a strip foundation. Ecological building also includes the bales of straw bales. There are prepared straw bale elements in cuboid shape of about 80 cm wall thickness, a length of 250 cm and a height of 270 cm on stilts, stakes or the like to achieve ventilation from below. This inevitably results in differences to the classical architecture of buildings.

The invention aims to allow for straw bale constructions a quick and easy completion and to build without prefabrication load-bearing straw bale walls, which are thermally insulated and moisture-insulated and avoid a stilts or the like. At the same time, the principles of modern residential construction should also be able to be fulfilled in straw bale building constructions.

This is achieved in that are arranged on a concrete slab, for example a reinforced concrete slab with insulation backing to the ground, on an intermediate layer of moisture insulation or vapor barrier aerated concrete blocks along the straw bale walls to be built, that the aerated concrete blocks carry a base plate, in particular a cross-ply plate and that on this base plate, the straw bales are constructed to erect the walls and plastered on both sides. The concrete slab may lie in the terrain level. The aerated concrete blocks (aerated concrete blocks) are set up quickly and connected to the concrete slab via the bitumen seal. They carry the outwardly projecting base plate, which can be bolted to the aerated concrete blocks. The pressed straw bale walls can be set up very easily. Only with openings in these load-bearing walls, a static relief by additional Holzriegelbauelemente is required. It is expedient if the bottom plate and the aerated concrete blocks are bordered laterally by an insulating layer, when the base plate projects beyond the width of the aerated concrete blocks and the insulating layer rests on the bottom of the supernatant and if a Außenverputz covered the straw bale wall and is guided down to about the base plate, said the possibly with a fabric layer, such as a fiberglass mat reinforced insulation layer limits the base to the outside and this outer surface recedes against the surface of the outer plaster. The exterior plaster may be next to the base by a drip edge, e.g. be delimited from sheet metal or plastic, which is firmly connected as a finished part with the base plate. The reinforcing front panel of the outer layer of insulation of the base can also extend beyond the insulating layer as a fabric web and inserted and clamped between the base plate and the aerated concrete blocks before screwing. A preferred construction provides that an internal plaster is drawn, in particular clay-based over the straw bale wall and the aerated concrete blocks down to the bottom plate on which also in the interior of the moisture or vapor barrier is, with a standard structure for the floor as a particular situation made of gas concrete slabs as lightweight concrete insulation, then an insulating layer preferably made of expanded polystyrene foam and finally the screed is laid or applied.

The connection structure creates a continuous insulation layer and a seal horizontally and vertically in the base area, which is exposed to the spray water. The seal inside can be formed trough-like. This results in an airtight building envelope. As an essential difference to the previously ventilated straw bale walls, which made a superscript arrangement such as a stilts with piles required, is now with the features of the invention, even with straw bale building a barrier-free access to and into the building possible.

An embodiment of the subject invention is illustrated in the drawing. The 1/4 Austrian Patent Office AT13 558U1 2014-03-15

Fig. Shows the connection of a load-carrying straw bale wall to a bottom plate in cross section.

In a shallow excavation a curling 1 is applied from gravel or the like and designed with hard foam insulation panels 2. Above is a reinforced concrete slab 3 of about 30 cm thickness. A bituminous seal 4 covers the reinforced concrete slab 3 on the surface and laterally beyond the rigid foam insulating slab 3. In the later wall areas aerated concrete blocks 5 are arranged directly on the bitumen seal 4. They protrude here in the exemplary embodiment about 30 cm above the bottom plate 3. Outside results in a base area, which is isolated by a rigid foam plate 6 with Glasfasermattenarmierung 7. The glass fiber fabric can be pulled over the upper narrow side of the rigid foam plate 6 to over the aerated concrete blocks 6 and their edge region.

Quite essential is a base plate 8, which is designed here as a cross-ply wood plate and can be bolted to the porous concrete blocks 5. It forms the footprint for the straw bale wall 9. Both the base plate 8 and the straw bale wall 9 extend beyond the aerated concrete blocks 5 to the outside. Usual bales of straw, which are pressed to flat parallelepipeds, have a wall thickness of 80 cm. In the exemplary embodiment take the aerated concrete blocks 5 a total width of 75 cm. The base plate 8 supports the straw bale wall 9 in its entire width (wall thickness) of 80 cm.

In order to achieve a positive and / or non-positive connection between the straw bale wall 9 and the base plate 8, steel pins 17 or mandrels can project beyond the base plate 8. These steel pins 17 or mandrels can be equipped with barbs and penetrate when placing the straw bale wall 9 on the base plate 8 in the pressed straw and thus anchor the straw bale wall 9 on the base plate 9. Alternatively or in addition to the form-closure also a gluing or the use of construction adhesives is possible.

An exterior plaster 10, e.g. a lime plaster in a thickness of about 3 cm, leaves the isolated by the armored rigid foam plate 6 base frontally recede slightly, so that there is a drip edge at the bottom of the outer plaster. This can be formed as a nose in cross-section or as a drip strip 11, for example. made of sheet metal or plastic and be firmly connected to the base plate 8.

Inside a clay plaster 12 is provided by about 4 cm thickness. This clay plaster 12 extends over the entire height of the straw bale wall 9 (eg 270 cm height) and extends beyond the porous concrete blocks 5 down to the bottom plate 3. The structure of the floor above the bottom plate 3 comprises here in the embodiment of a lightweight concrete insulation 13 and then a layer expanded polystyrene rigid foam panels 14, whereupon finally a screed 15 and a floor covering 16 is placed or applied. The entire insulating structure inside the room reaches a height of about 30 cm. 2.4

Claims (5)

Austrian Patent Office AT13 558U1 2014-03-15 Claims 1. Connection structure of a load-carrying straw bale wall to a base plate for bales of straw bales with a heat-bridge-free and moisture-insulating base, characterized in that on a concrete slab (3), for example a reinforced concrete slab with insulating pad (2) for Erdboden out, on an intermediate layer of a moisture insulation (4) or vapor barrier aerated concrete blocks (5) along the straw bale walls to be constructed (9) are arranged, that the porous concrete blocks (5) carry a base plate (8), in particular a cross-ply plate and that on this base plate (8) the bales of straw are built to build the walls and plastered on both sides. 2. Connection structure according to claim 1, characterized in that the bottom plate (3) and the aerated concrete blocks (5) laterally through an insulating layer, e.g. a foam board (6) are bordered, that the base plate (8) projects beyond the width of the porous concrete blocks (5) and the insulation layer rests on the bottom of the supernatant and that an outer plaster (10) the straw bale wall (9) covered and down to about the base plate ( 8) is guided, wherein the possibly with a fabric layer, such as a glass fiber mat (7) reinforced insulating layer limits the base to the outside and this outer surface with respect to the surface of the outer plaster (10) recedes. 3. Connection structure according to claim 2, characterized in that the glass fiber mat (7) is pulled into the space between the base plate (9) and the aerated concrete blocks (5). 4. Connection structure according to claim 2, characterized in that a drip strip (11) on the outer plaster (10) connected to the base plate (8), in particular screwed. 5. Connection structure according to one of claims 1 to 4, characterized in that a Innenverputz (12) in particular clay-based on the straw bale wall (9) and the aerated concrete blocks (5) down to the bottom plate (3) is pulled on the in the Interior of the moisture (4) or vapor barrier is, with a standard structure for a floor, especially a layer of gas concrete slabs (13) as lightweight concrete insulation, then an insulating layer (14) preferably made of expanded polystyrene foam and finally the screed (15) or applied. 1 sheet of drawings 3/4