DE102017102861A1 - Foundation of foam glass gravel and aerated concrete - Google Patents

Abstract

The invention relates to a foundation (1) for a building, comprising from bottom to top a layer (2) of foam glass gravel resting on a ground (3), at least one strip foundation (4) of cellular concrete resting on the layer (2) of foam glass gravel load-bearing walls (10), at least one bottom plate (6) which rests on at least two different strip foundations (4) serving as a bridgehead and itself forms a bridge between the at least two strip foundations (4), wherein between the at least one bottom plate ( 6) and on the ground (3) resting layer (2) made of foam glass gravel an air layer (7) is present.

Description

The invention relates to a foundation for a building, comprising from bottom to top resting on the ground layer of foam glass ballast, at least one resting on the layer of foam glass gravel strip foundation of aerated concrete for load-bearing walls, at least one bottom plate, which on at least two different strip foundations serve as a bridgehead, which rests and which itself forms a bridge between the at least two strip foundations.

To save heating energy, it is customary to thermally insulate the walls of a building. Due to current legal requirements, it has become necessary to improve today's standard building insulation with insulating materials and even more recent one has begun to isolate even the founding of a building thermally against the ground. To ensure protection against frost, it is customary to make foundations at least 80 cm below the upper edge of the local soil level, because the winter frost observed today does not reach below this limit. Even if the ground is frost-proof, today's usual foundation structure, in which a foundation rests directly on the ground or rests on an insulating layer, means a thermal bridge between the building and the ground. As a result, a basement or a non-basement ground floor of a building constructed in this way is usually cool.

For the construction of foundations, it is customary to pour reinforced concrete on the ground or to lay out prefabricated foundation strips on the prepared ground. These foundations serve as load distributors for the load of load-bearing walls. The load distribution is necessary, so that no fundamental break is created, by which the structure would be unstable. To isolate the ground and to improve the load-bearing capacity, it is known to deploy foam glass ballast on the ground and to place the cast or prefabricated foundation element on the foam glass ballast layer. The foam glass ballast is extremely rotting, thermally insulating and provides an excellent transition between foundation and ground, to transfer the load evenly into the ground.

Nevertheless, the immediate connection of the structure with the ground means a thermal bridge, the heat from the building in the usually cooler subsoil passes.

The object of the invention is therefore to provide foundation for a building, which provides an increased, thermal insulation available.

The object underlying the invention is achieved by a foundation with the features of claim 1. Further advantageous embodiments are specified in the subclaims to claim 1.

According to the invention, a foundation structure is proposed, which is constructed as follows from bottom to top: First, a layer of foam glass gravel in the area of later aufzustellenden strip foundations on the ground. This foam glass ballast has the property, as in a plastic deformation under the load of a strip foundation once and adapt under very little deformation of the strip foundation and thus to provide a very uniform load distribution of Streifenfundamententslast on the ground. Furthermore, the foam glass ballast provides thermal insulation of the strip foundation against the ground. On the layer of foam glass gravel follows at least one superimposed strip foundation of aerated concrete for load-bearing walls. The strip foundation is somewhat wider for load transfer than the wall standing on it. As a result, the strip foundation forms a step at the foot of the building. This step is used in the spirit of the invention to provide improved thermal insulation of the structure from the ground. For on these steps, which act like a bridgehead, prefabricated strip foundation slabs, closed or strip-shaped floor slabs of wood, chipboard, OSB slab or block planks are laid. Finally, chipboard or OSB slabs coated with screed are also considered as floor slabs , It thus follows at least one bottom plate, which may be composed of individual strip elements, and which rests on at least two different strip foundations that serve as a bridgehead, which itself forms a bridge between the at least two strip foundations, wherein between the at least one bottom plate and the ground an air layer is present. According to the invention, it is therefore provided that the large areas of the lowest floor or the basement is insulated by an air layer from the ground. The lowest floor of the subsoil is thus built like a bridge.

Depending on the condition of the subsoil and the groundwater level, it will be damp under the floor slab. The moisture can worsen the thermal insulation. Furthermore, moisture can penetrate into the bottom plate and damage the bottom plates for a long time. To the bottom plate in front of the possibly existing To protect soil moisture, is provided in an advantageous embodiment of the invention that between the at least one closed bottom plate or the individual, strip-shaped bottom plate elements on one side and lying under the closed bottom plate or the individual, strip-shaped bottom plate elements air layer on the other side of a thermally and is arranged against moisture dampening film, wherein the film is secured by spacers on the underside of the at least one bottom plate, or wherein the film is glued to the underside of the at least one bottom plate, or wherein the film is supported by ground anchors, wherein the ground anchors are in the layer of foam glass gravel or in the open, uncovered ground rich, or where the ground anchors stand on stands on the layer of foam glass ballast or on the open, uncovered ground, or wherein the film on the layer of foam glass ballast or a is placed on the free, uncovered ground.

It is thus possible to provide the bottom plates themselves with a film which is resistant to moisture and thermal insulation, or else it is possible first to spread the film between the strip foundations forming one step and then to place the individual bottom plates on the steps of the strip foundations.

In order to achieve frost protection, the foundation constructed according to the invention must also reach 80 cm deep into the ground. However, it is not necessary that the foundation itself be filled with 80 cm of material in order to achieve a height comparable to the upper edge of the local soil level. The height can be achieved through a series of individual measures. First, it is advantageous if the layer of foam glass ballast is at least 12 cm to 90 cm thick, preferably 15 cm to 20 cm thick. A minimum layer thickness of 12 cm is sufficient to pick up the load of the strip foundations and to discharge them evenly into the ground. Depending on the nature of the substrate, a foam glass ballast layer up to 90 cm thick can be used. When using today common precast concrete components for the strip foundation, which have a wall thickness of 15 cm to even 40 cm, the bottom level of the lowest level of the building increases very quickly and adds up to the strength of the layer of foam glass ballast, the wall thickness of Finished parts of the strip foundation and the wall thickness of the floor slabs laid on the steps. For slabs of unreinforced or reinforced aerated concrete floor slabs with a thickness of 15 cm to 45 cm are considered. If identical prefabricated parts made of cellular concrete are used for the strip foundation and for the floor slabs, a wall thickness of 25 cm is sufficient to reach a height increase of 50 cm in relation to the ground. Together with the minimum thickness of 20 cm for the layer of foam glass gravel you can already reach a height increase of 70 cm. So still 10 cm remain for floor linings. The height of the foam glass ballast layer is freely selectable.

The measures presented here make it possible to build a structure very quickly, in which an excavation pit with a predefined depth with a layer of foam glass ballast in the area of the strip foundations is laid out. On the layer of foam glass gravel the strip foundation made of precast concrete aerated components is placed and prefabricated wall elements are placed on the precast concrete components. On each forming a level strip foundations prefabricated floor panels are then placed, which connect two strip foundations like a bridge. In order to improve the thermal insulation and to protect the bottom plate against moisture, it is envisaged that a film is designed on the layer of foam glass ballast, which can also stand on spacers or the thermally insulating film is attached to the underside of the bottom plates. Finally, it is also possible to simply lay the film on the ground. It is optionally possible to design the foam glass gravel not only in the area of the strip foundations, but evenly distributed on the ground, so that even below the film for thermal and moisture-insulating film foam glass gravel is present. If the floor slabs are laid, the joints between individual floor slabs can be filled with mortar from above, ie the accessible side.

• 1 eine Skizze eines Profils einer erfindungsgemäßen Gründung eines Bauwerkes,
• Fig. 1' eine Skizze eines Profils einer erfindungsgemäßen Gründung eines Bauwerkes, wobei eine Folie zur Isolierung auf den Baugrund aufgelegt ist,
• Fig. 1" eine Skizze mit einer Ansicht von oben auf den Boden eines Bauwerks,
• 2 eine erste Alternative einer Wandisolierung,
• 3 eine zweite Alternative einer Wandisolierung

The invention will be explained in more detail with reference to the following figures. It shows:

• 1 a sketch of a profile of an inventive foundation of a building,
• 1 'is a sketch of a profile of an inventive foundation of a structure, wherein a film is placed on the ground for insulation,
• 1 "is a sketch with a view from above of the floor of a building,
• 2 a first alternative of wall insulation,
• 3 a second alternative of wall insulation

In 1 is a sketch of a profile of a foundation according to the invention 1 a building shown. This consists, counting from bottom to top, with a layer 2 made of foam glass bulkheads on the ground 3 rests. The layer 2 From foam glass gravel has the surprising property that even aerated concrete, which usually and because of its different composition and due to the desired porosity has a lower breaking strength than cast, regular concrete, as a strip foundation 4 can be used. The foam glass ballast deformed with very low depth of impression under the load of a strip foundation standing on it 4 and forms for the strip foundation 4 an ideal bed, which is the load of the strip foundation 4 standing, load-bearing wall 10 in the ground 3 derives.

The strip foundations 4 each form a stage 5 which act as a bridgehead, if on them floor plates 6 rest. To those on the acting as a bridgehead stages 5 the strip foundations 4 lying floor panels 6 To isolate moisture from the ground and even better against heat loss, it can be provided that in the air layer 7 a slide 8th is arranged. This slide 8th can about spacers 9 with the respective base plate 6 connected sin, as shown in detail A of 1 is shown. In this construction, it is important to ensure that when laying the floor panels 6 the foil 8th either in a joint between two floor slabs 6 sticks out to avoid leaks. But it can also be provided, the film 8th to bond with the bottom plate. The bonding can be done over bitumen, can be done with conventional construction foam or be made over other common construction adhesives. Furthermore, it may be provided in an alternative manner, the film 8th on ground anchor 9 ' to put, which the foil 8th wear and on the layer 2 made of foam glass gravel. The ground anchors 9 ' stand in the layer 2 made of foam glass gravel or stand on it, which then as stands 9 " Act. In this variant, the film can 8th with the strip foundations 4 be glued. This variant is in detail B of 1 shown.

Around founding walls 10 Thermally better isolate can be further provided that the walls 10 also have an additional insulation. This one consists of one on the wall 10 arranged, thermally insulating film 11 , and a subsequent plaster base layer, preferably a layer of OSB boards and / or wood-concrete slabs. It is between the wall 10 and the foil 11 an insulating layer of air built up by spacers 12 the foil on the wall 10 attach as it is in 2 is shown.

In Figure 1 'is a sketch of a profile of a foundation according to the invention 1 a building shown. In this sketch the difference to the sketch is in 1 that the foil 8th is simply placed on the ground and is optionally connected to the strip foundations, for example with the strip foundations 4 is glued.

In Figure 1 "is a top view of the bottom plates 6 of a building having the structure of the foundation according to the invention. Between two walls 10 going on through the floor slabs 6 are hidden strip foundations, lie individual, strip-shaped bottom plates 6 , which are grouted with mortar after laying at the joints.

In 2 is a counter battens made of slats 12 shown on an outer wall and not shown here. On this outer wall is a first slat layer of slats 12 as a rear / lower batten layer nailed or screwed to the wall. On this counter battens from slats 12 is a thermally insulating film. The front / top batten layer then forms a mounting plane for OSB boards, gypsum concrete slabs or wood-concrete slabs 14 , which are connected by spacers or screws with the front batten layer. For cosmetic purposes, a plaster layer not shown here can be applied to the OSB boards, plaster concrete slabs or wood concrete slabs. The inside of the wall structure can be cosmetically straightened and closed in a conventional manner.

In 3 is a counter battens made of slats 12 shown on an outer wall and not shown here. On this outer wall is a first slat layer of slats 12 as a rear / lower batten layer nailed or screwed to the wall. The front / top batten layer then forms a mounting plane for OSB boards, gypsum concrete slabs or wood-concrete slabs 14 , which are connected by spacers or screws with the front batten layer. Between the distance-maintaining nails or screws and the OSB boards, gypsum concrete slabs or wood-concrete slabs 14 is a thermally insulating film. For cosmetic purposes, a plaster layer not shown here can be applied to the OSB boards, plaster concrete slabs or wood concrete slabs. The inside of the wall structure can be cosmetically straightened and closed in a conventional manner.

LIST OF REFERENCE NUMBERS

1

founding

2

Layer of foam glass gravel

3

Building

4

strip foundation

5

step

6

baseplate

7

layer of air

8th

foil

9

spacer

9 '

ground anchor

9 "

Stands

10

wall

11

foil

12

battens

14

Wood concrete slab

Claims (7)

Foundation (1) for a building, comprising from bottom to top a layer (2) of foam glass gravel resting on a building ground (3) as a substrate for a strip foundation (4), at least one strip foundation (4) made of cellular concrete resting on the layer (2) of foam glass gravel for load-bearing walls (10), - At least one bottom plate (6) which rests on at least two different strip foundations (4), which serve as a bridgehead, and even forms a bridge between the at least two strip foundations (4), wherein the bottom plate is closed or consists of individual, strip-shaped bottom plate elements, and where there is an air layer (7) between the at least one base plate (6) and the ground (3). Founding after Claim 1 , characterized in that between the at least one closed bottom plate (6) or the individual, strip-shaped bottom plate elements on one side and under the closed bottom plate (6) or the individual, strip-shaped bottom plate elements lying air layer (7) on the other side of a thermally and damp-proof insulating film (8) is arranged, wherein the film (8) via spacers (9 ') on the underside of the at least one bottom plate (6) is fixed, or wherein the film (8) on the underside of the at least one bottom plate (6) is glued, or wherein the film (8) is supported by ground anchors (9), wherein - the ground anchors (9) extend into the layer (2) of foam glass ballast or in the open, uncovered ground, or wherein - Ground anchors (9) on stands (9 ") on the layer of foam glass ballast or on the open, uncovered ground stand, or wherein the film (8) on the layer (2) of Schaumglassc hotter or on the free, uncovered ground (3) is placed. Founding after one of the Claims 1 to 2 , characterized in that the layer (2) of foam glass gravel is at least 12 cm to 90 cm thick, preferably 15 cm to 20 cm thick. Founding after one of the Claims 1 to 3 , characterized in that the at least one strip foundation (4) has a thickness of at least 15 cm to 40 cm. Founding after one of the Claims 1 to 4 , characterized in that the at least one bottom plate (6) has a thickness of at least 15 cm to a maximum of 45 cm and consists of unreinforced or reinforced aerated concrete. Founding after one of the Claims 1 to 4 , characterized in that the at least one bottom plate (6) consists of logs, made of chipboard, OSB board or a covered with a screed chipboard or screed-covered OSB board. Founding after one of the Claims 1 to 6 , characterized in that the layer (2) consists of foam glass gravel not only under the strip foundation (4) but also between the strip foundations (4), thus evenly distributed on the ground (3), so that even below the film ( 8) for the thermal and moisture-insulating film (8) foam glass gravel is present

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