SK6192A3 - Roof plate segment for inclined roofs - Google Patents

Abstract

The invention relates to a roofing slab for sloping roofs, which consists of a slab (9) of concrete and acts as a support for roof coverings. Such slabs are normally very thick in order to meet the static requirements. To permit a type of construction distinguished by its light weight, the slab is provided with a reinforcement (14) comprising a lower boom (15) running inside the slab and a web (16) projecting upwards out of the slab, and having fastening elements (19) above the slab surface, to which fastening elements cross-beams (18) can be fastened as a supporting structure for the roof covering. <IMAGE>

Description

Technical field.

The present invention relates to roof panels for pitched roofs consisting of a sheet of curable material, in particular concrete, and acting as a roofing support.

State of the art.

Known roofs are generally solved with roof rafters and purlins that support the roofing. Such a truss must be made with relatively extensive carpentry work. Increasing scarcity. skilled workers in this profession and the general effort to rationalize the construction of residential houses reinforces the requirements for industrial manufac- turing roofs.

It is known from DE-OS 32 10 607 in this regard. roof panels for pitched roofs can be manufactured in the form of hollow concrete slabs.

Since the roof tile bears, in addition to its own weight, the weight of the roof covering as well as the weight of the snow load, the concrete slab must be. to be able to withstand these loads with adequate safety. This known roof tile is therefore very heavy and is relatively difficult to handle both during transport from the manufacturing site to the platform and during installation on site.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a roof panel for pitched roofs which has a very low self-weight but still has high stability and load-bearing capacity. The current goal is to achieve low acquisition costs and the ability to realize rapid coverage while providing good thermal insulation.

Description of the invention.

This object is achieved according to the invention in that the plate is provided with reinforcement comprising continuous lower bands

- inside the slab and upwardly extending web portions, wherein at least a portion of the slab protruding from the plate is made of stainless steel or is provided with corrosion protection, the slab being flatly covered with insulating material on its upper side and the reinforcement above the insulating material comprising fasteners, on which the crossbeams can be mounted as the substructure for the roof covering.

An advantage of the present invention is that the reinforcement assumes a substantial part of the forces acting on the roof tile, so that the tile can be made thin-walled and monolayer and the tile can therefore be transported to a corresponding extent and easier to handle. In addition, the invention allows the use of a structural system proven in the ceiling area. While the slab functions as a formwork for monolithic concrete. the use for the roof panel is further completed, in that it is no longer used as a formwork, but as a roofing support. In this case, the otherwise customary reinforced beams must be replaced by similar corrosion-protected beams, in particular with galvanized reinforcement, and the panel is filled with insulating material in the space between the upwardly projecting web parts. There is thus obtained a roof slab which is self-supporting without intermediate support and which can extend over the entire height of the attic and, in particular, no longer requires the usual construction of trusses from purlins and rafters.

In order to provide sufficient strength in the transverse direction of the roof slab, also in the transverse direction, transverse bars oriented approximately perpendicular to the lower pasftin are expediently incorporated into the slab. Lattice mats are also suitable instead.

It is especially useful if the reinforcement is to be raised. from the slab along the roof slope. The lower web surrounded by the plate material assumes the tensile forces, while the upwardly projecting web part accepts the torque and pressure forces and at the same time carries the fastening elements for the roof covering.

In order for the roof overhangs to cause small heat losses, it is recommended that the slab be provided in the area of the eaves

A transverse running slit which is filled with an insulating body and through which the reinforcement passes. For the same purpose, the plate may also include a protection running along the roof edge along the roof slope, which is filled with an insulating body and in this case transversely oriented reinforcement. In both cases the reinforcement is expediently provided with lower herding and upper herding.

In order to anchor the roof tile, it has been found expedient for the tile to comprise at least one bearing surface in the area of its mounting on the eaves side, corresponding to the mounting mounted on the walls of the building or ceiling. This bearing may comprise a cylindrical support surface with a horizontal axis to facilitate rotation of the roof panel to the desired angle of inclination. In addition, the bearing may be horizontal and / or vertically adjustable in order to rectify the position of the roof panel.

It is particularly favorable in this connection if the bearing surface is located in the recess of the plate, namely approximately in the vertical center of the plate. This simplifies the transport and storage of the roof slab panels. In addition, as a result, the roof tile has only one bearing point, which facilitates its installation as well as position rectification.

T-beams or I-beams whose lower waist is embedded in the slab are suitable, for example. However, it is particularly advantageous to reinforce the lattice beams, the web of which is formed from broadly arranged bars, preferably at an angle of preferably about 45 [deg.] Between the upper and lower belts, since existing manufacturing devices for reinforced slab ceilings can then be used.

For fixing transverse beams it is possible to use. angle hooks, crampons, eyes, etc., in which the roof latches can be inserted or inserted. When using metals, the fasteners may be welded, other materials may be screwed or the like.

In order to be able to use bags of different shape and size.

The outer side of her upper waist did not run parallel to the batten of wood. As a result, the spacing of the crossbeams and, in particular, the usual wooden laths can be easily adapted to the construction site. It is also possible to provide the fastening elements such that they themselves act as crossbeams. This is a cost-effective option.

The roof tile according to the invention is suitable for its smooth underside, in particular for use in lofts intended for installation. In this connection, particularly effective thermal insulation is recommended. It has proven to be particularly advantageous for this purpose to use not conventional insulating mats, but to produce insulations in a five-dimensional manner by foaming on the plate. As a result, the rod elements projecting upwardly from the plate can be optimally surrounded.

Very often, the roof area is so large that it cannot be covered with a single roof panel. In such cases, it is advantageous if the roof panel is provided on its side region with connecting elements for a firm and continuous connection with the adjacent panel. This makes it possible to create a statically uniform slab as the roof surfaces.

In order to store the roof slabs in a stable manner, the mclic may be provided with a tooth in the ridge area, i.e., in the ridge region. with alternate teeth and recesses in the shape of dulcimers, which fit together with the opposite panel and the panels thus rest against each other. The opposing plates can also be rigidly connected to each other by means of corresponding clamps or a corresponding 3-weld base. Both the crest and the sides should be embedded in the fasteners for connection with adjacent plates so that they are aligned with the contour of the plates. Use as material! preferably cross-protected materials.

The roof panel according to the invention can also be provided in the central region with recesses in which the sunroof can be fitted or which can be guided by a chimney, a ventilation duct or an antenna rod through the roof.

Overview of the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained in more detail below with reference to the accompanying drawings, in which: FIG. 1 shows a basic sketch of a building covered with roof panels according to the invention, FIG. 1 shows a section through a roof of roof panels according to the invention; 2a ŕe ?. a roof panel taken along the line II-a-IIa of FIG. Fig. 2 and Fig. 4 shows an alternative construction of the roof panel to Fig. 2, Fig. 5 is a cross-sectional view of the roof panel taken along the VV plane of Fig. 4; 6 is a plan view of a section of a roof slab in the area of the gable and gutter. FIG.

Embodiments of the invention.

FIG. 1 shows a diagram of a building 1 whose truss is composed of roof panels 2 according to the invention. It will be appreciated that, in addition to the simple gable roofs, the roof panels 2 may also be used for other roof shapes (hip roof, etc.).

In the example shown, a number of roof panels, which each extend in one piece from the ridge 3 to the gutter 4, run continuously. However, it is also possible to have formed roofing tiles that. they run in the whole width of the roof.

In FIG. 1, a mansard 5 is provided on one of the roof panels 2 and a secondary roof 6 of the extension is connected.

Valleys. 7.8. arising from the points of contact of the mansard 5 and to the normal roof trusses, as well as in the side-mounted roof panels, need not be separate. krokv.emi. Tylo rafters of self-supporting plate construction of roof elements 2.

FIG. 2 shows a panel according to the invention, a slab 9 made of concrete or light according to static requirements, and a section through a roof of

The roof slab of concrete that is running in the panel has a lot of women

6-piece from the ridge 2 to the eaves played 4.

On the ridge 3, the plate 9 is toothed and is supported on the counterpart 10 lying on the other roof side, the always projecting tooth on the plate 9 extending into the corresponding gap on the counterpart 10 and vice versa. The possible crushing of the plate j) ^{with its} counterpart 10 by means of a concrete substrate is not shown. At the other end, the plate 9 is provided with at least one concreted metal abutment surface 11b disposed in a recess which cooperates with the receiving shoe 11.

In order to align the plate 9, the bearing cot 11 comprises a set screw 11a, by means of which the position of the plate 9 can be adjusted through the pressure plate 11b. The cot 11 can be adjusted vertically to compensate for unevenness of the upper end of the wall 12 fixing. Usually, the cot at the highest point is selected as a reference measure, and all other cot shoes are padded.

For horizontal alignment, the shoe 11 is provided with a longitudinal bore 11c that corresponds to the anchor bolt 11d integrated in the upper end 12 of the wall or ceiling 13. On the anchor bolt 11d a nut 11e sits on the washer 11f with a provided bore. The washer Uf is fixed by means of a toothing (not shown) fixed to the bearing shoe 11, which it fixes.

The upper end 12 of the wall may in the illustrated example be terminated by a ceiling 13 or the wall may be extended above the ceiling 13 and may thus form a soil lining supporting the storage cot 11 and thus the roof.

It is also within the scope of the invention to dispense the individual movable storage shoes and to provide the support instead with a steel beam extending over the entire width of the roof, so that only the beam must be leveled and aligned horizontally. As a bearing, a metal block is sufficient, which protrudes upwards and extends into the corresponding recess of the concrete slab and there corresponds to a stop surface embedded in the concrete slab.

The plate (j) is provided with reinforcements of several parallel guided trusses 14, the bottom web 15 of which always extends inside the slab and is surrounded by concrete with a web part. it consists of individual rods 16, which are welded to the lower waist 15 at an angle of about 45 ° and which project outwardly. from the plate. The lower passports are connected to one another (not shown). such that the plate is reinforced in the longitudinal and transverse directions.

At their upper ends, the rods 16 carry an upper waist 17 extending along a straight line on which they are spaced with a fixed spacing! crossbeams 18 supporting the roofing are provided. The roof covering may be composed of tiles or other elements that are suspended or laid on the crossbeams 18. In the case of a traditional tile covering, the crossbeams 18 will be formed by conventional roof battens.

2 and 2a, the crossbeams 18 are nailed to a lath lattice 19 running parallel to the upper grazing 17 formed of a bent sheet. This construction has the advantage that the position of the individual transverse beams 18 can be varied at the construction site.

In the area of the ridge, the roof panel carries a vent 20, which permits ventilation of the space under the roof covering. In addition, the roof slab carries on the eaves edge J a closing eaves board 21, with the aid of the roof tile. adds optical closure.

The top side of the plate 9 is provided with a layer of insulating material 22. This insulating material is preferably deposited by foaming so that the reinforcing bars 16 are surrounded by the insulating material. The insulating layer may take place. over the entire height of the rib beam. It may also end up under the 17th floor of building physical requirements.

As further shown in FIG. 2, the insulating body 23 of the integrated dp board 9 is connected to the lower end of the insulating layer 22 in the area of the gutter, and underneath there is insulation of the wall 24.

The insulating body 23, which extends over the entire width of the plate in the region of the placement of the plate 9 at the wall end 12, achieves thermal separation of the part 25 of the plate 9 insulated in the open. Thus, the slab 9 cannot conduct any heat from the attic above part 25 to the surroundings.

For the same purpose, the end plates 9 in the region of the shield are provided with a slot which is filled with the insulating body 23a of FIG. 6 it can be seen that the roof overhangs exposed to the cold are effectively insulated from the other roof area.

In both cases, it is essential that the reinforcement penetrates the insulating body 23 or 23a so that the roof overhang does not pass. If there is an overlap on the eaves side, a reinforcement is available for this purpose anyway. As far as the gable overlaps are concerned, the transversely extending reinforcement has to be concreted into the plate 9. In FIG.

In FIG. 3 another transverse beam fastening is proposed

18. Fixing elements for transverse beams are welded at a fixed distance to the upper web 17 of the truss. In the example shown, flat steel into which the roof is late.

the bent clips 26 are slung transversely

4 and 5 show! further solution of a possible roof structure. A wooden lath 19 is clamped with the upper waist 17, which is designed as a round cross-sectional bar. It carries a box 27 acting as a base of the lower covering, which is covered by a layer 2? cardboard. The base battens are fixed on this cardboard. 29, which again. carries transverse beams 30.

In the example shown here, the crossbeams shown 30 consist of folded sheet metal beams which extend over the entire width of the slab and can be used as a normal wood roof battens for hanging tiles.

Significantly more favorable from the loading point of view is the construction in which the upper waist 17 has an upwardly U-shaped profile in which the wooden slats 19 are inserted, on which the transverse slats 18 are directly nailed. The U-profile can function directly as the upper waist. , ie can replace the existing one

-9Pressed rod. Instead, however, it can also be (J-profile welded to the upper waist of a conventional fin beam).

5 and 5a also show the contact edge between two adjacent desks 2 ^and 9a. In order to achieve a rigid joint between the plates, the two plates 9 and 9a are provided at their side edges with built-in welding sleeves 31 and 31a which, when assembled, the plate lengths. They lie precisely opposite one another and are butt-to-edge with their edges so that they can be joined together by a weld bead. The cavity formed by the welding sleeves, open towards the inside of the roof, may be additionally filled with plaster.

In order to facilitate the handling of the panels during their installation on the roof, it is recommended that the insulation be temporarily terminated temporarily over the side edges of the panels. The plates can then be better gripped and adjusted by the operating personnel. Also, the connecting elements to be welded together, i.e. the welding sleeves 31 and 31a, are then more easily accessible. After welding, the uninsulated area above the joints is then filled with insulating material and finally transverse beams 18, such as conventional roof latches, are fitted to the fastening elements of the born-in strips.

Finally, it is expedient to prepare the roof panel already at the crimping site for later installation of the roof gutter. For this purpose, the plate 9 in the area of the eaves is provided with a transverse direction in succession by the following metal fasteners which are concreted into the plate in a reciprocal manner and expediently to the underside thereof. These fasteners are preferably made of galvanized steel, stainless steel or other corrosion-insensitive materials.

In summary, the invention allows an exceptionally economical construction of the sprayers in terms of their loading and, at the same time, an extremely rapid assembly. Up to now, the installation of trusses from purlins and rafters is eliminated, an insulation built into the roof slab, already made in the large frame of the crusher, is obtained, and at the same time a flat lower surface of the roof slab capable of receiving wallpaper is obtained.

Claims (29)

A roof tile for pitched roofs, consisting of a slab of curable material, in particular concrete or concrete-like substances, and used as a roofing support, characterized in that the slab (9) is provided with a reinforcement (14) comprising a continuous bottom. the strips (15) housed inside the plate (9) and the plate upwardly extending the web portions (16), wherein at least a portion of the reinforcement extending from the plate is made of stainless steel or is provided with corrosion protection, the plate (9) being on its top planarly covered with insulating material (22), and the reinforcement (14) above the insulating material (22) comprises fasteners (19, 26) on which transverse beams (18, 30) are fastened as a base structure for roofing. A roof panel according to claim 1, characterized in that the reinforcement (14) extends along the roof slope, Roof tile according to claim 1, characterized in that the slab (9) is provided in the area of the eaves with a transverse slit which is filled with an insulating body (23) and through which the reinforcement (14) passes. Roof panel according to claim 1, characterized in that the panel (9) comprises, in the region of the end edge, a protection running along the roof slope, which is filled with an insulating body (23a) and through which the reinforcement (14a) passes. Roof panel according to claim 1, characterized in that the panel (9) comprises at least one bearing surface (11b) corresponding to the mounting (12) in the region of its mounting on the eaves line (12). mounted on a building wall or ceiling. The roof panel according to claim 5, characterized in that the bearing (12) comprises a cylindrical support surface with a horizontal axis. I Roof tile according to Claim 5 or 6, characterized in that the bearing (12) is horizontal and / or vertical TV G-C -11seŕíditelné. Roof panel according to claim 5, characterized in that the bearing surface (11b) is located in the recess of the panel (9). Roof tile according to Claim 5, characterized in that the bearing surface (11b) is arranged approximately in the vertical center of the plate. and it is expediently concreted in the slab. Roofing panel according to claim 1, characterized in that the reinforcement (14) consists of beams-1, and in particular of lattice beams. Roofing panel according to claim 1, characterized in that the web parts (16) of the reinforcement (14) carry continuous upper strips (17) on which the fastening elements (19, 26) for the crossbeams (18, 30) are mounted. Roofing panel according to claim 1, characterized in that the fastening elements (26) are angle hooks, clamps, eyes and the like. Roof panel according to claim 1, characterized in that the fastening elements are formed by wooden laths (19) running on the upper edge of the reinforcement (14) parallel to it. Roofing panel according to claim 11, characterized in that the upper strip (17) is an open U-profile for inserting a wooden slat. 15. A roof panel according to claim 1, wherein the fastening elements. (26) are themselves formed as transverse beams (30). Roofing panel according to claim 1, characterized in that the panel (9) is provided on its lateral and / or ridge areas with connecting elements (31, 31a) for a firm and continuous connection with an adjacent panel (9a, 10). Roofing panel according to Claim 16, characterized in that the connecting elements are continuously concreted into the slab (9) and are formed of a corrosion-resistant material, in particular of metal. Roof plate according to claim 1, characterized in that the plate (9) is toothed in the region of the ridge (3). Roof tile according to Claim 1, characterized in that a lower covering strip running parallel to the plate (9) is laid between the fastening elements (19, 26) and the crossbeams (18, 30) and the crossbeams (18, 30). 20. A roof panel according to claim 1, characterized in that it extends in one piece from mounting on the wall <12> of the building up to the ridge (3). A roof panel according to claim 1, characterized in that in the central region it is provided with a recess for a roof window, a mansard or the like. 22. A roof panel according to claim 1, characterized by. That the plate has a thickness of about 4cm to about 7cm, especially about 5cm. Roof panel according to claim 1, characterized in that a reinforcing rod extending transversely to the lower bands (15) is arranged inside the panel (9), Roofing panel according to claim 5, characterized in that the bearing surface (11b) is fixed to the lower bands (15) of the reinforcement (14) or to the transverse reinforcing bars. Roof tile according to claim 1, characterized in that the tile (9) comprises fasteners for the installation of roof gutters, concreted in the area of the eaves. A roof panel according to claim 1. 1, characterized in that the insulation (22) is disposed only in a part of the width of the slab (9), wherein the longitudinal edges of the slabs (9) working in the direction of the roof slope remain at least partially free as a gripping section for mounting. A method for manufacturing a roof panel according to any one of claims 1 to 26, characterized in that the slab (9) is concreted with its reinforcement (14), its transverse reinforcing bars and its connecting elements (31.31a, 11b). and possibly with fasteners for the installation of roof gutters, whereupon. Insulation (22) is applied to the upper side of the plates, in particular a straight wall, and fastening elements are fitted to the waist (17). -13 (19,26). Method according to claim 27, characterized in that a continuous insulating body (23, 23a) is inserted during the concreting of the slab (9) in the area of the eaves and eventual end edge. A method of constructing a roof, with roofing panels according to any one of claims 1 to 26, in which the panels settle with a desired inclination and support in the area of the gutter and gable of the building, characterized in that adjacent panels are first joined together. after which the uninsulated area above the contact joints is filled with insulating material and finally transverse shattering roof plates are fitted.