DE3018703C2 - Gable roof - Google Patents

Description

50

The invention relates to a gable roof with eaves brackets made of steel arranged in the area of the eaves edge, each one in a ceiling in the area of the eaves concreted horizontal retaining leg and have an abutment plate connected to this, which is at an angle perpendicular to the roof pitch angle is arranged.

In such a known gable roof construction (DE-AS 25 14 820), the ceiling consists of cast in-situ concrete, in which the retaining legs the support frames are set in concrete. A vertical leg is welded to each of the horizontal retaining legs, who carries the abutment plate. A purlin is supported on the abutment plate Rafter off. The eaves trestles with their vertical legs are supposed to be the usual concrete knee sticks replace the one used to support the usual rafters made of wood. Since these rafters are arranged at a relatively small distance from each other it is necessary to use a larger number of, corresponding to the number of rafters concreting such eaves brackets into the ceiling. The manufacture and assembly of these eaves trusses requires a correspondingly large amount of effort. In addition, the usual roof construction offers Rafters, even if a thermal insulation layer is placed under the rafters, not particularly any good heat, sound and fire protection for a converted attic. In particular, that affects Insufficient heat storage capacity of the light insulation materials, such as mineral fiber mats, in summer has an unfavorable effect on the indoor climate. It should also be emphasized that the known eaves brackets are not used for Suitable for mounting on and in ceilings that consist of individual aerated concrete slabs. The weight of the The roof construction plus any snow load does not only exert a perpendicular effect on the eaves directed forces, but also forces directed horizontally outwards. These horizontally directed Forces can be exerted by a ceiling consisting of individual aerated concrete slabs because of their low tensile strength not be included.

The invention is based on the object of creating a gable roof of the type mentioned above, which with simple construction and easy assembly the use of aerated concrete panels also with Buildings with a ceiling in the area of the eaves consisting of individual aerated concrete slabs.

This is achieved according to the invention in that the roof and ceiling surfaces are prefabricated rectangular aerated concrete slabs exist that the aerated concrete slabs of the roof with their long sides parallel to Arranged ridge direction and with their ends adjoining the transverse sides on bearing surfaces of essentially triangular shapes. across the ridge direction arranged support walls are deposited that the lowest aerated concrete slabs of the roof in the area of the eaves edge on the abutment plates of the eaves brackets are supported so that each eaves trestle has a horizontal, connected to the abutment plate and the retaining leg, on an aerated concrete slab of the ceiling has superimposed support plate that each eaves frame is provided with reinforcing bars, which in the transverse to Joints running in the direction of the ridge between the aerated concrete slabs of the Dpcke and the roof intervene that two eaves brackets arranged on opposite eaves edges with one another by means of a tie are connected and that reinforcements are arranged in the joints filled with in-situ concrete, the extend into the area of the eaves.

With this new construction of a gable roof there is not only the roof, but also the inside Ceiling in the area of the eaves (floor of the attic) made of individual aerated concrete slabs. the Vertical and horizontal forces originating from the roof structure are safely applied to the substructure transfer. By means of the tension band provided between two opposite eaves brackets horizontal forces are kept away from the ceiling. The use of aerated concrete slabs in roof construction has the advantage of high thermal insulation and also heat storage and offers good Soundproofing. The new gable roof is also easy to assemble, because compared to conventional roofs

can rafters and additional insulation omitted. The supporting walls used to support the aerated concrete slabs can be spaced apart be arranged, which corresponds to the normal size of a room, so that they are also at the same time serve as partitions between adjacent rooms. Also the assembly of the gable roof is simple.

The invention is described in more detail below with the aid of an exemplary embodiment shown in the drawing explained. It shows

Fig. I a cross section through the roof structure in the area of the eaves edge,

2 shows a longitudinal section through the floor of the attic along the line H-II in FIG. 1,

F i g. 3 shows a longitudinal section of the roof structure along the line HI-III of FIGS. 1 and

F i g. 4 is a diagrammatic representation of an eaves support.

The ceiling 1 of the rooms below the attic consists of individual aerated concrete slabs la, which are supported on the outer wall 2 and intermediate walls 3. Reinforcement mats 4, 5 and in-situ concrete 6, 7 arranged in joints hold the aerated concrete slabs la together. Essentially triangular support walls 8 are erected on the ceiling 1, which can form outer walls and partition walls. The ends adjoining the transverse sides of rectangular aerated concrete slabs 10 are supported on the bearing surfaces 9 of these support walls 8. The aerated concrete slabs 10 are arranged so that their long sides 10a extend parallel to the ridge direction F.

To support the respective lowermost aerated concrete slab 10 of the roof surface are also in the area of the eaves edge several eaves brackets 11 made of steel are provided. These eaves brackets each consist of a horizontally arranged, on a gas concrete slab 1 of the ceiling superimposed support plate 12, one welded to this Abutment plate 13, which is arranged perpendicular to the roof pitch angle and one with the support plate 12 welded retaining leg 14. This retaining leg 14 engages in a joint between two aerated concrete slabs la the ceiling 1. Furthermore, the eaves bracket is provided with reinforcing bars 15 and 16. The rebar 15 engages in the joint between two aerated concrete slabs la of the ceiling 1, while the Reinforcing bars 16 engage in a joint between two aerated concrete slabs 10 of the roof. Farther extends a reinforcement mat 4 of the ceiling 1 to the area of the eaves 11th where they with the Holding gifts! 14 can be welded. More reinforcement meshes 17, which are in the roof joint between two adjacent aerated concrete slabs 10 are arranged, can be welded to the eaves bracket 11. This joint is also filled with in-situ concrete 18.

In the obtuse angle between the abutment plate 13 and the support plate 12 a vertical connecting plate 20 is suitably a ₆ - * _ scnweißt at which the extending into the roof ditch Bewei.rungsstäbe are welded sixteenth If necessary, the reinforcement mat 17 provided in the roof joint can also be welded to the connecting plate.

To absorb the horizontal forces, two are arranged on opposite eaves edges Eaves brackets are connected to one another by a tension band 19 made of flat steel. The tension band 19 can either be provided in the immediate vicinity of the top of the ceiling 1 and by a later Applied screed be covered, or it can optionally also be in the between two neighboring Aerated concrete slabs la the ceiling 1 provided joint sunk and encased by in-situ concrete.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Saddle roof with eaves brackets made of steel arranged in the area of the eaves, each having a holding leg concreted into a ceiling in the area of the eaves and an abutment plate connected to this, which is arranged at an angle perpendicular to the roof pitch angle, characterized in that the roof - and ceiling surfaces consist of prefabricated rectangular aerated concrete slabs (la. 10) so that the aerated concrete slabs (10) of the roof are arranged with their long sides (tOa) parallel to the ridge direction (F) and with their ends adjoining the transverse sides {iOb) on bearing surfaces (9 ) are supported by essentially triangular supporting walls (8) arranged transversely to the ridge direction (F) , that the lowermost aerated concrete slabs (10) of the roof in the area of the eaves edge are supported on the abutment plates (13) of the eaves brackets (11), that each " - Eaves support (11) a horizontal, with the abutment plate (13) and the Haiteschenkel (14) connected, on a gas concrete plate {la) the ceiling (1) supported support plate (12) that each eaves bracket (11) is provided with reinforcing bars (15,16). which engage in the joints running transversely to the ridge direction (F) between the aerated concrete slabs (la, 10) of the ceiling (1) and the roof, so that two eaves brackets (11) arranged on opposite eaves edges are connected to one another by a tie (19) and that in the joints filled with in-situ concrete (6,18) reinforcements (4, 17) are arranged, which extend sicf to the area of the eaves brackets (l 1). 2. Saddle roof according to Arräprur · ¹ "-1, characterized in that a vertical connecting plate (20) is welded into the obtuse angle between the abutment plate (13) and the support plate (12), to which the reinforcing bars (16) extending into the roof joint are welded are. 3. Saddle roof according to claim I, characterized in that that the tension band (19) is a flat steel band. 4. saddle roof according to claim 1, characterized in that that the reinforcements (4, 17) arranged in the joints are welded to the eaves brackets (11).