DD276698A1 - ARRANGEMENT AND METHOD FOR INCREASING THE CARRYING CAPACITY OF STRUCTURAL GROUPS - Google Patents

Abstract

The essential features of the invention are that the constructive Bauwerkgruendung consisting of a laid on the upcoming subsurface and tensile strength interconnected reinforcement of a non-cohesive Fuellschicht and a rigid cover layer, guided by fasteners through the constructive Bauwerkgruendung to a predetermined target depth of the ground are positively connected to an orthogonal and isotropic composite earth plate.

Description

For this 1 page drawings

Field of application of the invent

The invention relates to an arrangement and a method for increasing the carrying capacity of building structures according to the / the recording and removal of loads from buildings and structures, and the rolling and stationary traffic and Lagerfläcben is made possible in a substrate with low bearing capacity properties.

Characteristic of the known technical solutions

A method for the removal of structural loads in the ground, in which geotextiles as load-bearing element z. B. in the form of a G ^r ündungs pad _(be used.

Geotextiles can be firmly connected or integrated with the substrate.

It is known that :: hegeschlaffes flat material is used in conjunction with an overlying rigid grid for the transmission of building loads.

Known is the introduction of reinforcing bars in the building foundation, where with a subsequent injection and soil consolidation by means of high-pressure injection technique, an increase in the bearing capacity of the substrate is orroicht.

A disadvantage of the known technical solutions is that the materials used to increase the carrying capacity have no direct bond to the load-bearing cover layer.

Object of the invention

The aim of the invention is an arrangement and oin method for increasing the sustainability of building foundations, with low material usage, high. Mechanization degree and taking into account the carrying capacity of the viewing underground.

Explanation of the essence of the invention

The task of the invention is to integrate the load bearing capacity of the pending underground floor into the load-bearing capacity of a constructive structure applied to the cathedral underground.

According to the invention, the object is characterized by the fact that three constructive foundations constructed on the existing subsoil are made from a reinforcement, which is formed on the underground and tensioned with each other, from an inert filling layer, preferably from nonbindigom Lockergostoin, and piled up and compacted is and oinor starron Dockschicht, by connecting elements, welcho in recesses dor Dockschicht odor, by Vorbindungsolomonto dio dom dom application of the dock layer are goführt into the ground, are frictionally vorbunden to an orthogonal and isotropic Erdstoiivorbundplatto.

The most important advantage of the solution according to the invention lies in the fact that the carrying capacity of the underground is integrated into the load-bearing capacity of the foundation of the building by the production of oons last but not least by the prehistoric quarries of bostohond from the nano-ground and the constructive foundation of the structure. Thus, substantial material savings have been achieved in housing construction. The Vorfehran has a hohon mechanisi (degree and is simply in soinor execution.

embodiment

The invention will be explained in more detail below by Ausführungsbcispielen. In the accompanying drawings shows:

Fig. 1: the structure of a Erdstoffverbundplatte with in-situ concrete connection elements Fig. 2: a further variant of FIG. 1 with reinforced concrete precast connecting elements.

On a horizontally prepared planum from pending loose rock as a base 1 in the form of a Raugrube for removing loads of a building or structural systems, as well as rolling 1en and dormant traffic or storage areas to increase the low load capacity of the substrate 1 layerwise constructive building foundation applied.

The constructive building foundation consists of one or more layers of applied to the substrate 1 reinforcement 2, which is connected to each other tensile strength.

The reinforcement 2 may be a corrosion-protected round steel mat, wherein never individual reinforcing element are non-positively connected to each other, or geotextile webs whose tracks are non-positively connected.

On this zugfesie reinforcement 2, a filling layer 3, preferably poured from nonbinding loose rock and compacted by vibration.

The load-bearing cover layer 4 can be carried out in cast-in-situ concrete or produced with the aid of precast reinforced concrete parts.

In both embodiments, recesses 5 are preferably provided in the cover layer 4.

The production of the Vorbundwirkung between the substrate 1 and the constructive building foundation via the connecting elements. 6

If the cover layer 4 is made in cast-in-situ concrete (FIG. 1), the recesses 5 are preferably already arranged during manufacture.

With a drill, starting from the recesses 5 bores through the filling layer 3, the reinforcement 2 is introduced into a predetermined desired depth in the substrate 1.

In this case, the desired depth in the lower bound 1 depends on the strength of the substrate 1.

In these holes, the connecting elements 6, which are made of in-situ concrete, installed such that in the bore or the recess 5 is a filling compound is injected with the adjacent edge regions 7 of filling layer 3, reinforcement 2 and substrate 1 are solidified.

If the cover layer 4 consists of prefabricated reinforced concrete elements (FIG. 2), a conical reinforced concrete pile can be used, which is guided in the recesses 5 of the cover layer 4 through the filling layer 3, reinforcement layer 2, into the desired depth of the substrate 1. The space formed between the recesses 5 and the connecting element 6 is also closed with a filling compound.

Furthermore, after the structure layer 2 and the surface layer 3 have been built onto the substrate 1, the connecting elements 6 can be produced from the surface of the filling layer 3 prior to the installation of the covering layer 4 according to FIGS. 1 and 2. By subsequent installation of the cover layer 4 is then carried out a frictional connection between thin in the cover layer 4 ragendon ends of the connecting elements 6 or by a connection reinforcement.

Due to the frictional connection between substrate 1 and constructive construction, an orthogonal and isotropic composite substrate is created in which the bearing capacity of the foundation 1 is integrated into the load-bearing capacity of the foundation.

Claims (4)

1. Arrangement for increasing the carrying capacity of building foundations, characterized in that the layered structure of reinforcement (2), filling layer (3) and cover layer (4) by connecting elements (6), which by the structural design into the ground (1) are connected to an orthogonal and isotropic composite Erdstoffplatte non-positively. 2. A method for increasing the carrying capacity of building foundations according to claim 1, characterized in that on the substrate (1) the reinforcement (2) designed and tensile strength is connected together, then poured out of a suitable loose rock filling layer (3) and compacted and finally the load-bearing covering layer (4) is applied and the same is non-positively connected via connecting elements (6) to the substrate (1). 3. The method according to claim 1 and 2, characterized in that the connecting elements (6) through the recesses (5) of the cover layer (6), the filling layer (3) and the reinforcement (2) into the ground (1) out and the connecting element immediately free space is filled. 4. The method according to claim 1 and 2, characterized in that the connecting elements (6) from the surface of the filling layer (3) driven into the substrate (1) and over the surface of the filling layer (3) protruding ends of the connecting elements (G). be incorporated into the applied cover layer (4).