CZ15151U1 - Metal-made roof structure - Google Patents

Description

The technical solution relates to a metal roof structure, in particular for additional roofing of panel houses with a transverse load-bearing system.

BACKGROUND OF THE INVENTION

In the case of additional roofing of flat roof houses, the added roof structure is based on triangular trusses which are anchored to the ceiling of the highest floor perpendicular to the longitudinal axis of the building at constant axial distances. The trusses are interconnected with roof battens or purlins, on which they are laid, respectively. fastens the covering. These known roof structures may be of wood or metal. In the latter case, they consist of metallurgical profiles or needle profiles. A disadvantage of the known metal structures described is their considerable weight, which is negatively reflected in the cost of the material and the load on the load-bearing elements of the building.

The aim of the technical solution is to propose a new roof structure which would substantially reduce the disadvantages of known solutions.

The essence of the technical solution

The object of the invention is a metal roof structure consisting of purlins supported by transverse rows of uprights anchored by the lower end in the bearing ceiling or the top floor structure of the building, the roofing being a profiled sheet attached to the purlins and longitudinally braced.

The rows of uprights can be provided with transverse stiffening, which is particularly advantageous when assembling the structure.

From the standpoint of building statics, it is advantageous if the uprights are arranged in rows above the transverse supporting walls of the building.

To ensure greater stability of the roof construction, the purlins stand at an angle of 90 °.

In a preferred embodiment, the props are anchored by means of feet, purlins are made of sheet Z profiles, props made of sheet C profiles, feet made of sheet U profiles, the covering being trapezoidal sheet.

If the building is provided with a parapet made of monolithic concrete, the covering at its longitudinal edge preferably rests on a sheet metal anchored to the parapet.

If the parapet is formed, for example, by a sandwich panel, the covering can rest on its longitudinal edge on a sheet metal profile anchored on the inner face of the parapet, with bracing being applied between the end uprights in a row.

If it is necessary to lift the parapet, the outer purlin is preferably located above the parapet, the parapet is anchored to the parapet, whose strut is connected by transverse bracing to the parapet of the outer and neighboring purlin.

To vent the roof, the ridge joint may be covered with a profiled sheet metal ridge, the longitudinal edges of which are screwed to the roof covering one edge of the perforated strips protruding under the ridge, the opposite edge of the strips abutting the sealing filling the lower waves of the roofing. BRIEF DESCRIPTION OF THE DRAWINGS

1 is a cross-section of one embodiment of a roof structure; FIG. 2 is an axonometric view of another embodiment; FIG. 3 shows a detail of the interconnection of the roofing, purlins, upright and foot; FIG.

Fig. 5 detail of the anchorage of the upright. Figs. 6 to 8 show details of a variant ending of the parapet in cross-section, Fig. 6 is attached to a parapet anchored on the parapet which is capable of transmitting horizontal forces; 7 is a case of a raised parapet, with transverse bracing added in the embodiment of FIGS. 7 and 8. Giant. 9 shows an embodiment of a roof ridge.

Examples of technical solution

The construction of the roof is evident from the embodiment of Figs. 1 and 2. The main load-bearing element is purlins 1 whose direction in Fig. 2 coincides with the longitudinal dimension of the building. This may not be the case. In the following, the longitudinal direction will be understood to mean the direction parallel to purlins 1; the transverse direction will be perpendicular to the purlin I. The purlins 1 are supported by uprights 2, which form transverse rows. The legs 2 form an angle of 90 ° with purlins 1, only the legs 2 of the ridge purlins 1 are, in the exemplary embodiment, perpendicular to the plane of the roof panels. At the lower end, the props are inserted into the feet 3 and fastened therein. The feet 3 are anchored by means of anchor bolts 4 to the load-bearing ceiling of the top floor of the building, above the transverse load-bearing walls of the building, or to girders of reinforced concrete or steel framework systems. Crossbars 2 in the transverse row are provided with stiffening 5 and longitudinal bracing 6 in the longitudinal direction. Trapezoidal sheeting 7 is fastened to the purlins 1. The purlins 1 are made of sheet Z profiles, whose parts overlap by about 10%. The legs 2 are made of sheet metal C profiles and the feet 3 are made of sheet U profiles. The fastening of purlins 1, upright 2, feet 3, bracing 5, bracing 6 and other sheet metal parts is made by self-tapping screws 8. Figures 6 to 8 show alternative structural ends at the attic 9 of the building. In the case of an attic 9 which can transmit horizontal forces, the covering 10 is fixed to the profile 10 anchored to the attic 9 and there is no need for transverse bracing. In the embodiment according to FIG. 7, the covering is supported on the facing profile 11 fixed on the inner face of the attic 9 and the transverse row of the props 2 is supplemented by a transverse bracing 12. If the attic 9 needs to be lifted, a rail 13 is fastened to the attic. The edge purlin 1 is preferably positioned above the attic 9 and the rails 2 of the girder 13, and the edge purlins and the adjacent purlins 1 are provided with transverse bracing 12. In another embodiment, they can be connected by an extended transverse bracing 5. FIG. 9 shows an embodiment of a roof ridge allowing ventilation of the attic space. The roofing 7 is supported on a ridge purlin 1 on a sheet metal profile and the roofing joint is covered with a sheet metal profiled ridge 14 whose longitudinal edges bolted to the roofing 2 grip one edge of the perforated strips 15 protruding below the ridge 14. coverings 7. This design prevents coarse dirt and animals from entering the soil.

When installing the roof, the placement of the legs 2 of the ridge purlin 1 is first measured, and its feet are fitted

Similarly, on the parapet 9, a railing 13 is mounted. The stencil is used for fitting the other uprights 2 in the transverse row - the lath with perpendicular stops in the purl spacing 1. The template is placed on the the rail 13 and the rack purlin 1 are positioned and fastened according to the stops. anchors uprights 2 and feet 3. Before removing the template, it is advantageous to attach bracing 5 and transverse bracing 12 to the uprights 2. After all the uprights 2 have been seated, the remaining purlins 1 and 2 are screwed onto their longitudinal rows. parts and coverings therefor 7.

Claims (8)

A metal roof structure, characterized in that it consists of purlins (1) supported by transverse rows of uprights (2) anchored by the lower end in the bearing ceiling or the top floor structure of the building, the roofing (7) being a profiled sheet fixed to 45 purlins (1) and the structure is longitudinally braced. -2EN 15151 Ul Construction according to claim 1, characterized in that the rows of uprights (2) are provided with transverse stiffening (5). Construction according to claim 1 or 2, characterized in that the uprights (2) are arranged in rows above the transverse load-bearing walls or girders of the building. Construction according to claims 1 to 3, characterized in that the legs (2) form an angle of 90 ° with the purlins (1). Construction according to claims 1 to 4, characterized in that the props (2) are anchored by means of feet (3), purlins (1) are made of sheet metal Z profiles, props (2) made of sheet metal C profiles, feet (3) made of sheet metal For profiles, the covering (7) being a trapezoidal sheet. ío Construction according to Claims 1 to 5, characterized in that the covering (7) rests on its longitudinal edge on a profile (10) anchored to the parapet (9). Structure according to one of Claims 1 to 5, characterized in that the covering (7) rests on its longitudinal edge on the facing profile (11) anchored to the inner face of the attic (9), with transverse transverse struts (2) being formed in a row. bracing (12), 15 Dec Construction according to claims 1 to 5, characterized in that the purlins (1) are located above the parapet (9), the parapet (13) is anchored on the parapet (9), whose strut (2) is a transverse bracing (12) or by transverse bracing (5) interconnected to the uprights (2) of the outer and adjacent purlins (1). Construction according to claims 1 to 8, characterized in that the ridge joint of the covering (7) is covered by a profiled sheet metal comb (14), the longitudinal edges of which are screwed to the roof (7) gripping one edge of perforated strips (15) projecting below the comb. ), the opposite edge of the strips (15) abutting the seal (16) filling the lower waves of the covering (7).