AT392664B - CONSTRUCTION - Google Patents

Description

AT 392 664 B

The present invention relates to a building construction with a reinforced concrete skeleton with supports and with joists.

In conventional solid houses, the walls are bricked up, which fulfill a load-bearing, space-closing function. However, the heavy construction and the time-consuming construction are disadvantageous. It is also known to assemble houses from prefabricated, plate-shaped panels. Depending on the panel size, however, transportation and crane problems can arise.

From AT-PS 222 308 a skeleton frame is known which is disadvantageous for building constructions insofar as no exit is provided in the transverse direction. DE-OS 2 605 813 discloses a construction system which has a plurality of identical frame elements.

In contrast, the object of the invention is to provide a building construction in which prefabricated frames can be used and which has a high stability both in the longitudinal direction and in the transverse direction. These objects are achieved in that the supports together with the beams form essentially two-dimensional, self-supporting, standing frames, several of these frames are arranged at a horizontal distance from one another, at least two essentially two-dimensional transverse frames offset laterally from one another, each of which are two Connect the adjacent frame to a stiffened skeleton, the skeleton is covered with a rigid ceiling and is connected to the supports, and the skeleton is filled with non-load-bearing lightweight walls.

Preferably, steel inlays protrude from the supports and a mortar and grouting layer applied over the joists and they are screwed together. The ceiling can consist of prefabricated, elongated ceiling plates, which lie on the mortar and grouting layer located above the joists. Furthermore, the cross frames can each be arranged in an end region of the frames formed from supports and beams. Since a rigid construction skeleton is formed by the longitudinally and transversely arranged frames, the space-encompassing lightweight building boards need not perform any load-bearing function. Since there are no heavy parts to be transported for the skeleton, a light crane is sufficient to build the building. In addition, rapid construction progress is therefore possible, as prefabricated elements, e.g. B. ceiling tiles can be used.

The object of the invention is explained in more detail below with reference to exemplary embodiments shown in the drawing. 1 shows a perspective view of the skeleton, FIG. 2 shows a section through a house constructed with the construction according to the invention, in a perspective view, FIG. 3 shows a section through a connection point between supports, beam and cover plates, and FIG. 4 shows a Section through an embodiment variant with a connection point by means of a screw connection.

The construction according to the application has a reinforced concrete skeleton with vertical supports (1) and with beams (5). The vertical supports (1) together with the horizontal beams (5) form self-supporting, standing frames (2), which are two-dimensional, as long as the small frame thickness in relation to the frame length is not taken into account. Several of these frames (2) are arranged next to one another at a horizontal distance, preferably have the same dimensions and are arranged at the same distance from one another.

To increase the rigidity, some adjacent frames (2) are connected at their ends to cross frames (3) which are at right angles to the frames (2). These cross frames (3) can be laterally offset from one another, as can be seen in FIG. 1, or they can also connect two identical frames (2) at their ends. The cross frame (3) extend essentially over the entire height of the frame (2). They consist of prefabricated elements. The frame (2) is connected to the transverse frame (3), for example by screwing. For adequate stiffening of the skeleton, at least two transverse frames (3) arranged at a horizontal distance from one another are provided, which are arranged at the frame ends to increase the torsional rigidity. Depending on the size of the construction and the number of frames (2), more than two transverse frames (3) can also be provided.

The skeleton is covered by a rigid ceiling, which preferably consists of individual, lamellar, closely adjacent ceiling panels (4) which are connected by a thin layer of mortar (10). The length of these ceiling panels (4) preferably corresponds to the distance between two adjacent frames (2). Only a light crane is required to move these ceiling panels (4) since the maximum transport weight does not exceed 1.51

As can be seen from Fig. 2, lightweight structural walls (15) are connected to the reinforced concrete skeleton. This results in the body shell surrounding the room. Prefabricated stairs (10) are also preferably used.

From Fig. 3 the connection of the supports (1), the beams (5) and the ceiling panels (4) is shown. Steel inserts (8) protruding from the lower supports (1) penetrate recesses (11) in the lower beams (5) and protrude into the upper support (1) located above them in a straight line. The rigid connection is brought about by a casting compound (14). Between the joists (5) and the ceiling panels (4) there is also a potting compound (10) and also a thin layer of mortar (13), with steel inserts (12) being inserted for reinforcement. The ceiling panels (4) are provided with cutouts (9) which can contain plastic, preferably foamed polyurethane inlays.

4 shows an embodiment variant of the connection in which a screw connection (18) -2-

Claims (4)

AT 392 664 B with the steel inserts (8) protruding from the lower supports (1). This construction, which is particularly suitable for one to three-storey houses, therefore enables rapid construction progress, since largely prefabricated parts are used. 1. Construction construction with a reinforced concrete skeleton with supports and beams, characterized in that the supports (1) together with the beams (5) form essentially two-dimensional, self-supporting, standing frames (2), several of these frames (2) at a horizontal distance are arranged from one another, at least two essentially two-dimensional transverse frames (3) offset laterally from one another are provided, each connecting two adjacent frames (2) to form a stiffened skeleton, covering the skeleton with a rigid ceiling (4) and supporting (1 ) is connected and the skeleton is fanned out with non-load-bearing lightweight walls (15). 2. Building construction according to claim 1, characterized in that from the supports (1) projecting steel inserts (8) over the beams (5) attached mortar and potting layer (10, 13) penetrate and are screwed together. 3. Building construction according to claim 1 or 2, characterized in that the ceiling consists of prefabricated, elongated ceiling panels (4) which rest on a mortar and potting layer (10, 13) located above the beams (5). 4. Construction according to one of claims 1 to 3, characterized in that the transverse frames (3) are each arranged in an end region of the frame (2) formed from supports (1) and beams (5). With 4 sheets of drawings -3-