DE19527676A1 - Self-supporting building board for erecting a sloping roof - Google Patents

Description

The invention relates to a self-supporting building board for erecting an inclined Roof with a concrete slab on the inside, from which a stiffening construction emerges upwards, the one at a distance from the concrete slab, with the roof in location to be covered.

Such a construction board is from European patent publication 0 494 612 known.

The stiffening construction of the known building board consists of a lattice girder, whose lower flange is cast into the concrete slab and on the upper flange than that mentioned top layer the roof battens are attached directly or indirectly which the roof tiles are placed and hung in a conventional manner.

The invention has for its object a construction board for erecting an oblique To create roof that can be made more labor-saving.

According to the invention, this purpose is achieved with a building board that was known to the ten building board has the combination of features mentioned in the beginning, but with the top layer consists of another concrete slab that has a profiling for one hanging from roofing elements and / or holding nails or screws Has inserts for attaching roofing elements.  

The profiling, preferably in the form of grooves or ribs, can be done easily when Pour the further concrete slab to be shaped. The ribs would also be possible in Cast in, protruding slats. Inserts holding nails or screws, preferably in the form of flush with the Molded-in strips made of wood or hollow profiles made of plastic or metal, just need to be inserted into the mold and are poured in sen.

As a further advantage, the construction board has a defined cavity on which to hold a thermal insulation filling, also in Form of poured or blown granules or a foam, esp which is suitable. The construction board also has improved noise protection and fire protection properties.

The space between the two concrete slabs can be found at the bottom of the construction ver by means of a screed placed on the side surfaces of the two concrete slabs be closed, preferably slightly upwards beyond the upper concrete slab protrudes to hold the lowest row of roof tiles in the same inclination as it other roof tiles, which are each supported on other roof tiles. The Screed is preferably made of wood. The gutter can be attached to it.

At the top of the building board is preferably the space between the abutment closing the two concrete slabs from between the two concrete slabs poured aerated concrete formed to support two such building boards against each other on a ridge, preferably to compensate for the tolerances over a Mortar layer.

In view of the not inconsiderable weight of the building board, a support of the building board is proposed in a further embodiment of the invention as follows:
Near the lower edge of the building board, at least one recess is arranged in the lower concrete slab for the engagement of a supporting part absorbing the thrust of the building board.

At least on the upper side wall of the recess, one is inserted into the concrete slab cast abutment arranged. The abutment preferably has the shape of an all Side walls forming ring. It preferably consists of angle iron, one of which Angle leg lies flush with the underside of the concrete slab.  

The associated support part should be formed by an eccentric disc, which on a flat disc of larger diameter is attached, which has a Has a series of recesses for the engagement of a hook wrench; the exzen ter disc and the flat disc are rotatably attached to a threaded bolt orders over a mother serving for height adjustment. The meaning and function of these designs and arrangements is below in the individual explained.

Further measures that can be used for the advantageous embodiment of the invention are given in the following description of an embodiment.

At this point, however, one under each groove is flush with the Surface of the further concrete slab molded in wooden or plastic strip on which the Roof tiles can be nailed in a conventional manner, and a height adjustable mounting stand as an accessory, for which one on the underside of the building board a counterpart on the trestle cooperating locking device is arranged.

The drawings show the exemplary embodiment.

Fig. 1 shows a section of a vertical cross-section through a building,

1 Fig. 2 shows a detail of Fig. Larger scale,

1 Fig. 3 shows another detail of Fig. Larger scale,

FIG. 4 shows an assembly situation in a representation corresponding to FIG. 1 and

Fig. 5 shows a plan view of a part appearing in Fig. 4 in side view.

An outer wall 1 is built by means of a prefabricated panel 2 , which consists of two concrete slabs 4 and 5 connected by a cast lattice girder 3 and then in the inter mediate space 6 of the two concrete slabs 4 and 5 has been filled with in-situ concrete. Above a ceiling 7 , the outer wall is continued in the same way with a knee wall 8 . The knee wall 8 is beveled above in accordance with the roof pitch; the concrete slabs 4 and 5 have correspondingly different heights and a corresponding bevel on their thickness, the in-situ concrete in between is obliquely removed.

Threaded bolts 9 are cast into the in-situ concrete at intervals. A flat nut 10 and, without engagement in the thread of the threaded bolt 9 and carried by the nut 10 , a washer 11 and an eccentric washer 12 fastened thereon each sit on these. The disk 11 is provided on its circumference with holes for the engagement of a hook wrench. The eccentric disc 12 is slightly corrugated on its circumference.

The threaded bolts 9 form with the nuts 10 , washers 11 and eccentric disks 12 support parts 13 for building panels 14 , from which the roof of the building consists. Two supporting parts 13 are provided for a building board 14 , for example at a distance of 2.50 m.

The building panels 14 are in the same way as the prefabricated panels 2 of the walls Herge:
In a concrete slab 15 lattice girder 16 are poured with their lower flange, which are then used together with the finished concrete slab 15 in the opposite position in another casting mold for the production of a further concrete slab 17 , with its upper flange immersed in the still flowable concrete mass. The reverse order would also be possible. Corresponding ribs in the casting mold have 17 grooves 18 formed in the further concrete slab. As shown only once in Fig. 2 Darge, wooden strips 19 can be removably inserted into the casting mold at a short distance next to the ribs mentioned for the mold base and then remain in the concrete slab 17 to prevent them from being conventionally pinned into place in the grooves 18 the concrete slab 17 laid to allow bricks 20 .

At the bottom, the building panels 14 are closed by a wooden plank 21 on which the bottom row of bricks is supported and on which the gutter 22 is fastened. At the upper edge, an abutment beam 23 made of aerated concrete is cast, with which two building panels 14 can be supported against one another on the gable.

Recesses 24 are formed near the lower edge in the concrete slab 15 at the same intervals as the support parts 13 have from one another. They are lined by a molded-in square ring 25 made of angle iron, one leg of which is aligned with the underside of the concrete slab 15 .

During assembly, a construction board 14 is placed on the one hand with its recesses 24 on the support parts 13 ( FIG. 2) and on the other hand placed further inside on a mounting bracket 26 ( FIG. 4).

On the support part 13 , the disk 11 initially receives the force component occurring perpendicular to the building board 14 and the eccentric disk 12 receives the force component occurring parallel to the building board. By means of a wrench inserted at a distance between the knee wall 8 and the building board 14 , the nut 10 on which the washer 11 is supported is rotated in one direction to adjust the building board 14 . For adjustment in the other direction, the disk 11 is rotated by means of a hook wrench inserted into the above-mentioned distance, the eccentric disk 12 , which is firmly connected to the disk 11 , depending on the direction of rotation, pushing the construction board 14 up or down. The between the eccentric 12 and the ring 25 as an abutment generating a high surface pressure supporting force is distributed through the ring 25 in the transfer into the concrete. The surface pressure between the eccentric disc 12 and the ring 25 causes the aforementioned slight corrugation on the circumference of the eccentric disc 12 to be immediately pressed into the ring 25 and thus secures the eccentric disc 12 against rotation in the long run. The support perpendicular to the building board 14 by the nut 10 is only intended for assembly and is replaced at the end by a mortar 27 of the distance between the knee wall 8 and the building board 14 , a previously placed sealing ring 28 allowing the mortar to be firmly plugged in.

The support of two building boards against each other on the ridge is adjusted by means of the mounting blocks 26 . The mounting brackets 26 each consist of two on a base plate fastened to the base 29 articulated, at the other end articulated telescopic supports 30 which are adjustable for adjustment by means of adjusting nuts 31 . In order to be able to be adapted to different heights, they are also gradually adjustable in length, namely through a series of bores 50 and, as required, a transverse bolt 32 to be inserted into one of the bores, which is supported on the adjusting nut 31 . The building board 14 has on the underside a displacement lock 33 for the mounting bracket, for example as part of a short plug connection, for which a counterpart is available at the top of the mounting bracket 26 .

In the adjusted state of the building panels 14 , mortar is mortared between the two abutment beams 23 . After the mortar layer, designated 34 , has hardened, the trestles are removed. Pins 36 protruding therefrom are pressed into the still soft mortar layer 34 for fastening a ridge beam 35 . Otherwise, the ridge beam 35 sits snugly between the ends of the concrete slabs 17 . On the ridge beam 35 , the ridge tiles 37 are supported and nailed in their respective overlap, as indicated at 38 .

For the sake of completeness, an extensive interruption 39 of the concrete plate 15 should be mentioned, into which a thermal insulation layer 14 applied to the outer wall 1 projects.

The space between the concrete slabs 15 and 17 is, as already mentioned above, filled with a heat-insulating material 41 .

The dimensions of the construction board 14 are, for example, up to 8 m long and 3 m wide. The thickness depends on the desired thermal insulation and may vary between 12 cm and 34 cm. The concrete slabs 15 and 17 will usually be 5 to 7 cm thick.

Claims (18)

1. Self-supporting construction board ( 14 ) for erecting a sloping roof with a concrete slab ( 15 ) on the inside, from which a stiffening structure ( 16 ) emerges upwards, which at a distance from the concrete slab ( 15 ) has an upper one, with the roof covering ( 20 ) to be occupied layer ( 17 ), characterized in that the upper layer ( 17 ) consists of a further concrete slab ( 17 ), which has a profile ( 18 ) for hanging roofing elements ( 20 ) and / or nails or screws has holding inserts ( 19 ) for fastening roof covering elements ( 20 ). 2. Construction board according to claim 1, characterized in that the profiling ( 18 ), in particular for hanging roof tiles ( 20 ), consists of grooves ( 18 ) or ribs. 3. Construction board according to claim 1 or 2, characterized in that the inserts ( 19 ) made, in particular, flush with the surface, strips ( 19 ) made of wood or hollow profiles made of plastic or metal. 4. Construction board according to claims 2 and 3, characterized in that a wooden strip ( 19 ) or a plastic hollow profile for nailing the roof tile ( 20 ) is formed in each case under a groove ( 18 ) for hanging roof tiles. 5. Construction board according to one of claims 1 to 4, characterized in that at the lower edge of the construction board ( 14 ) a gap between the at the concrete slabs ( 15 ; 17 ) closing screed ( 21 ) on the side surfaces of the at the concrete slabs ( 15th ; 17 ) is placed, which preferably protrudes somewhat upwards over the upper concrete slab ( 17 ) and to which the gutter ( 22 ) is preferably to be fastened. 6. Construction board according to one of claims 1 to 5, characterized in that at the upper edge of the construction board ( 14 ), preferably the gap between the two concrete slabs ( 15 ; 17 ) closing, abutment ( 23 ) is formed, preferably from between the two concrete slabs ( 15 ; 17 ) cast in aerated concrete, for supporting two such building slabs ( 14 ) against each other on a ridge, preferably over a mortar layer ( 34 ). 7. Construction board according to one of claims 1 to 6, characterized in that near the lower edge of the construction board ( 14 ) in the lower concrete slab ( 15 ) min at least a recess ( 24 ) is arranged for the engagement of the thrust of the construction board ( 14 ) receiving support part ( 13 ). 8. Construction board according to claim 7, characterized in that at least on the upper side wall of the recess ( 24 ) in the concrete plate ( 1 5) cast abutment ( 25 ) is arranged. 9. Construction board according to claim 8, characterized in that the abutment ( 25 ) has the shape of a ring forming all side walls ( 25 ). 10. Construction board according to claim 8 or 9, characterized in that the abutment ( 25 ) consists of angle iron, one angle leg is flush with the underside of the concrete slab ( 15 ). 11. Construction board according to one of claims 7 to 10, characterized in that the supporting part ( 13 ) is formed by an eccentric disc ( 12 ) which is mounted on a flat disc ( 11 ) of larger diameter, which has a series of recesses on its circumference for the engagement of a hook wrench. 12. Construction board according to claim 11, characterized in that the eccentric disc ( 12 ) and the flat disc ( 11 ) on a threaded bolt zen ( 9 ) are rotatably arranged above a height adjustment nut ( 10 ). 13. Construction board according to one of claims 1 to 12, characterized in that the stiffening structure consists of lattice girders ( 16 ), the lower flange in the first-mentioned concrete slab ( 15 ) and the upper flange is poured into the further concrete slab ( 17 ). 14. Construction board according to one of claims 1 to 13, characterized in that the lower concrete slab has an interruption ( 39 ) arranged in such a way that an insulating layer ( 40 ) arranged on the covered outer wall ( 1 ) is guided into the interruption ( 39 ) can. 1 5. Construction board according to one of claims 1 to 14, characterized, that it is provided with a heat-insulating filling, preferably from poured or blown granules, flakes or the like, or a foam mung or glass wool. 16. Construction board according to one of claims 1 to 15, characterized by a mounting bracket ( 26 ) as an accessory, for which preferably on the underside of the building board ( 14 ) a displacement lock ( 33 ) is arranged, preferably as part of a plug connection for which the mounting bracket ( 26 ) has a counterpart. 17. Construction board according to claim 16, characterized in that the mounting bracket ( 26 ) has two at one, preferably to be fastened to the ground, the base plate ( 29 ) articulated, at the other end articulated telescopic supports ( 30 ) for adjustment are adjustable in length by means of adjusting nuts ( 31 ). 18. Construction board according to claim 17, characterized in that the supports ( 30 ) are also gradually adjustable in length, preferably through a series of bores ( 50 ) and a cross bolt ( 32 ) to be inserted into one of the bores ( 50 ) as required, which on the Adjusting nut ( 31 ) is supported.