DE102010010676A1 - Roofing i.e. roof cover, for e.g. warehouse, has photovoltaic elements formed by sections of rainproof roofing surface, and sealing strip formed by elastomer and engaged with shock gap by bar - Google Patents

Abstract

The roofing i.e. roof cover (22), has photovoltaic elements (12) formed by sections of a rainproof roofing surface (11). A support is formed as a spreading support block (10) in the form of support frames, lateral to an existing roof (4). The frames are connected in the region of side walls (2, 3) with respective roof rafters (8, 9) and are supported against the side walls in a peripheral tie beam region. Running rafters (5, 6) are supported on the peripheral tie beam locking upward in the region of the side walls. A sealing strip is formed by elastomer and engaged with a shock gap by a bar.

Description

The invention relates to a roof, in particular a roof covering having rain-proof roofing surfaces, according to the preamble of claim 1.

Canopies are known in various configurations, such as protective roofs for material depots, parking spaces of vehicles or the like, but especially in the form of roof coverings of houses, halls and the like, which should form the most complete possible weather protection.

Such roofs are often used in practice as mounting surfaces for photovoltaic elements, which are usually elevated by intermediate support frames, or otherwise elevated, and thus wind-prone, are arranged on the rain-proof roofing surface. The rain-proof roofing surface, in the form of roof tiles, roof panels, roof sheeting or roof sheets as "roof skin" is additionally burdened by the attachment of the photovoltaic elements and often provided for the positional positioning of these photovoltaic elements with perforations, so that from the occupancy of the roof additional burden for the "roof skin" grow up, which can affect their sealing function. Apart from that, the assembly of free-rising photovoltaic elements on rain-proof roofing surfaces also means that in the event of damage to the rain-proof roofing surface, the photovoltaic elements at least make access to the roofing surface or its damaged areas more difficult. If major damage is to be remedied or a roof renovation carried out, this means that in order to expose the roofing area at least essential parts of the photovoltaic system, but in particular the photovoltaic elements, must be removed with the associated supporting structures.

The invention has for its object to build a roof, in particular a roof covering, which is covered with photovoltaic elements, in a way that, in particular while avoiding the disadvantages described results in a generally simplified, and in particular for renovation purposes existing roof cover suitable solution.

According to claim 1, the invention is based on the basic concept that the photovoltaic elements form parts of the rain-proof roofing surface, that is, that the rain-tight roofing surface is at least partially formed by the photovoltaic elements.

Such a constructed roofing with integration of the photovoltaic elements in the rain-proof part of the roofing surface, especially in the roof, can be used in an advantageous manner as coverage to conventional roofs with formation of the roof by the usual roof tiles, roof panels, roof sheets, roof sheets or the like, but for example, as a replacement of existing roofs, preferably using the given for this substructures use.

A particularly advantageous use of such roofing is to be rehabilitated roofs, so particular roofs in gable form as well as flat roofs, in the construction of integrating the photovoltaic elements in the rain-proof roofing roof roof as an on-roof to form an existing roof and use, in other words, build a quasi-double roof using the roof of the invention, preferably without, but in particular without significant interference with the existing roof. The existing roof is thus at least in terms of rain protection at least in the rule without function, since the rain cover is taken from the roof forming the roof of the invention, such a structure advantageously allows the installations according to the invention roofing, as far as the roof side required in the Transition area between rooftop and existing roof accommodate. By integrating the photovoltaic elements in the respective roof area, these are protected against wind and storm, in comparison to known elevated solutions.

By virtue of the photovoltaic elements formed as extensively as possible, components of inclined surfaces of the roofing are preferred, in particular in the case of plane-equal, ie, blanket-free, arrangement of the photovoltaic elements of a respective surface of the roofing.

According to the invention, the photovoltaic elements are arranged in particular parts of sloping roofing surfaces and adjoining each other via butt joints. Based on the arrangement in inclined roofing surfaces covering and / or anchoring is provided via patch rails for extending in the direction of inclination collision, while with respect to the transverse thereto extending collision gaps a sealing connection is provided via gap seal, which bridge the collision gaps flush with the surface of the photovoltaic elements, so that in the direction of inclination an umgestörter free drainage of the water and in particular a good cleaning of the roofing area is ensured, in which respects an expedient development also This consists in forming or coating the respective surfaces in such a way that impinging water rolls off and dirt particles are not adhered or washed off. Are photovoltaic elements used with framing, so the frame are so thin at least with respect to their upper side projecting legs that the supernatant to the top hardly hindered the flow of water, wherein the transversely extending to the roof pitch joints are in turn sealed flush.

In the context of the invention, a gable roof-shaped design of the roofs containing the photovoltaic elements proves to be expedient, wherein the roofing appropriately a roof truss gable roof corresponding substructures is provided with obtuse angle and connected in the gable rafters, which extends to the running in the direction of inclination collision columns of adjacent photovoltaic elements in Overlapping lying connected with these.

Such a basic construction can be used, in particular cantilevered over existing gable roofs, as an on-roof, with respect to a roof so constructed the support against the overlapped by the roof structure without breaking the existing roof, in particular by lying in the region of the respective eaves, to the existing roof laterally overarching support against the existing structure, in particular in the region of which the substructure of the existing roof bearing ring anchor.

Also referred to flat roofs, such a gable roof-shaped roof proves to be appropriate in some cases. In particular, however, comes for large flat roofs within the scope of the invention, a solution in which a plurality of gable roof-shaped, each covering a portion of the flat roof rooftops are provided in coverage of the existing flat roof, preferably with parallel gables, and accordingly longitudinally adjacent eaves next to each other lying.

The eaves are in such a construction preferably ausmündend and parallel to Kehlrinnen, which are part of a substructure over which the respective gable roofs are connected to each other and preferably supported together sitting on the existing flat roof. The gutters are connected in such a solution preferably with end to the gable-shaped roofs, in particular to the faces of the roofs parallel transverse grooves to a supporting substructure, which in turn completely rainproof the existing flat roof covered within the flat roof surrounding base, with dichtendem connection to the bordering socket, if necessary, by an overlapping to the base cover.

In particular, in such an embodiment may be appropriate anchoring with the substructure on the throat and / or transverse grooves against the base. In the context of the invention, it is also, in particular over lying in the coverage area of gable-top roofs, extending between the gutters transverse webs as Ballastaufnahmen to achieve a weight-dependent position assurance of the entire roof, which is possible without additional charges for the existing roof, as in a rule corresponding rooftop construction gravel covers or the like account for the existing flat roof.

With reference to a respective gable-shaped roof, it proves to be expedient to provide this in the region of the ridge-side connection between the roof rafters supported roof areas a vent with appropriate coverage, so that the rooftop over the existing roof covered area can be vented circulating.

In particular, in a roofing of a given as a flat roof surface with a rooftop, which comprises according to the invention gable roof shaped part surfaces covering rooftops, it proves useful if the respective surfaces of the gable roof optionally have different inclination, inter alia, with a view to optimizing the efficiency the photovoltaic elements.

According to the invention, the heating of the intermediate roof area resulting in connection with an on-roof construction to an existing roof can be used as well as any wind-dependent flow, possibly with dynamic pressure building up in the intermediate roof area, in order additionally to use wind generators for power generation, such wind generators being on the roof side in the gable area, in particular can be provided as an end face to the respective roof.

Further details and features of the invention will become apparent from the claims, the drawings and the drawings. Show it:

1 a schematic representation of the inventive arrangement of a rooftop to an existing gable roof in the formation of rain-proof roofing areas of the roof by photovoltaic elements,

2 a sectional view of a seal, as provided for transversely to the direction of inclination of the respective roof surface extending impact gaps between successive photovoltaic elements,

3 an overlapping sealing of in the direction of inclination of the respective roof surface extending impact columns of adjacent photovoltaic elements, preferably via the attachment of the photovoltaic elements to the underlying rafters,

4 with respect to a substructure, in particular a building, a gable-shaped roof formed by a roofing according to the invention, such roofing optionally also being able to be provided as an overhang to an existing flat roof as an on-roof,

5 with regard to a flat roof, the covering of its roofing area to be sealed off from the rain by a plurality of gabled roof-shaped roofs and the substructures associated therewith and connected thereto,

6 and 7 schematic detail of the roof according to 5 , in which 6 the connection of the gable-shaped roof integrated into the roofing over Kehlrinnen and 7 the connection in the gable area of these roofs illustrates

8th schematized a roof according to 5 to 7 with a gutter arrangement for drainage of water enclosing the gable-shaped roofs, and

9 a highly schematic representation of the gable area of a rooftop with a cover of the gable-side gap between the mutually inclined roof surfaces, wherein the cover of the gap at least opposite to one of the gap defining roof surface spaced expires and leaves a ventilation gap.

1 shows a schematic side view of an existing building 1 , for example in the form of a warehouse, in particular on its side walls 2 . 3 supported, gable-shaped roof 4 carries, which, for example, by a substructure, not shown in the direction of inclination of the roof slopes 5 and 6 extending rafters is formed, which in the area of the side walls 2 and 3 are supported on this, or one on this upwards final ring anchor.

Covering the existing roof 4 is an on-roof according to the invention 7 provided, illustrated by in the direction of the roof slopes 5 and 6 running rafters 8th . 9 gable roof-shaped inclined at a shallow angle to each other and are connected together in the gable area to a cantilevered support structure, which in the region of the side walls 2 . 3 is supported against this. This support is illustrated as one to the existing roof 4 laterally overarching support structure 10 , for example in the form of support brackets, in the area of the side walls 2 . 3 with the respective rafters 8th and 9 are connected and which are supported against the side walls, in particular in the ring anchor area.

The rooftop 7 is thus cantilevered above and covering the existing roof 4 , so that this at least substantially, in particular, completely preserved, based on the rain seal for the building but due to the rooftop 7 becomes functionless.

The rooftop 7 is according to the invention with respect to its rainproof roofing surfaces 11 from large-area photovoltaic elements 12 built so that a respect to the roof skin of photovoltaic elements 12 existing roof results. The photovoltaic elements 12 , which preferably form the entire roof surface in the inventive solution, are preferably only on the rafters 8th and 9 supported, wherein a photovoltaic element 12 each area between two along the side walls 2 . 3 running rafters 8th respectively. 9 Covered so that is in the direction of the sloping roof 5 . 6 extending butt joint 13 between adjacent photovoltaic elements 12 result. These joint gaps are - in the schematic sectional view according to 3 - at 13 indicated and for example, as well as preferably, top and bottom of slide rails 14 . 15 covered, against each other and with the interposition of seals 16 across to the impact edges of the photovoltaic elements 12 are tense. Preferably, regardless of this tension, but optionally also combined with this bracing a determination of the respective tension rails 14 . 15 against the respective rafters 8th . 9 respectively.

2 shows schematically the sealing of a transversely extending to the respective roof slope impact gap 18 between in the direction of the roof slope successive photovoltaic elements 12 , The impact gap 18 is in this case flush with the surface 19 the photovoltaic elements 12 sealed and the seal via a T-shaped sealing strip 20 who with his jetty 17 in the bump gap 18 intervenes. The sealing strip is preferred 20 formed by an elastomer, preferably by tension in the impact gap 18 fixed, optionally also by gluing to the bottom of the photovoltaic or the elements 12 is fixed.

In the gable area are the rafters 8th and 9 in particular via tabs 21 connected and the between the mutually inclined sloping roofs associated photovoltaic elements 12 remaining gap running along the gable is with one over the rafters 8th . 9 worn cover 22 provided, between the rooftop 7 and the original roof 4 remaining space, as indicated by the arrows, is ventilated.

According to the invention, a canopy is thus created which leaves the previous roof structure at least substantially untouched and in the case of the roof above 7 , Without burdening the previous roof, the previous roof a photovoltaic is provided, on the same time the rain-proof shielding of the previous roof 4 is achieved, so that there is a construction that is particularly suitable for renovation purposes. In the same way, as in 4 indicated, instead of a gable-shaped roof according to 1 a flat roof 23 be roofed, with one according to the rooftop 7 according to 1 trained rooftop, for example, placed on the enclosing base of the building can be arranged to the flat roof covered area.

Another and inventive independent solution for the invention, rooftop roofing of particular large flat roofs illustrated 5 , wherein the solution shown is equally suitable for the roofing of a building that is prepared for a flat roof as well as for the roofing of a building that is already provided with a flat roof.

5 shows in this respect the prepared for the application of a flat roof building-side ceiling surface 24 projecting outwards in a pedestal intended for the delimitation of the flat roof surface 25 enters. On the ceiling surface 24 - And in an analogous manner on an already given roof skin of an existing flat roof - sits the substructure 26 a roof according to the invention 27 on, in the manner of a gable roof two at a shallow angle to each other running roof slopes 5 . 6 having. These are how based on the 1 to 3 explained with photovoltaic elements 12 occupied and form a rain-tight roofing area, which over the rafters 8th and 9 on the substructure 26 is supported. This includes a gutter system, which runs along the eaves of the roof slopes 5 . 6 running mud gutters 28 and this end-connecting, in 5 not shown gutters includes, as well as the schematic representation according to 8th can be seen, in which the channel system is shown cross-hatched.

8th schematically illustrates such a gutter course with respect to a roof covering, which for a flat roof through multiple roofs 27 is formed, which are each bounded by corresponding grooves, which can be achieved for large flat roofs constructed from roofs invention covering the entire roof area and thus large flat roof surfaces in accordance with the invention can be used on roofs, in which the photovoltaic elements 12 Form parts of the rainproof roofing area.

The 6 and 7 show as for the throat groove 28 between two adjacent roofs in 6 represented and in 5 indicated, a composite construction as a substructure 26 is created, in addition to the gutters also cross braces 30 between the throat channels 28 may be provided, which in turn can serve to receive ballast in the rain-safe shielded area. The 6 and 7 also show the bracing connection of the rafters 8th and 9 against the valley gutters 28 as well as against each other in the gable area, in which the rafters 8th and 9 via a clamping element 31 are clamped against each other in the vertical direction, wherein the type of tension also allows the necessary in particular with regard to the weather and / or temperature conditions tolerances and preferably also leaves ventilation cross sections.

Indicated in 5 furthermore, that between ceiling surface 24 , or an existing flat roof, and a respective roof, illustrated by a canopy 27 Given space in relation to the temperature and thus occurring air pressure fluctuations for the drive of wind generators 32 can be used, as in particular frontal to each roof 27 may be provided and which are illustrated by a fan blade as a drive element for a generator.

9 schematically illustrates a further inventive embodiment of the gable area of a roof, in particular rooftop, in which converging in the gable area roof slopes whose rain-tight roofs have a roof formed by photovoltaic panels roof, which may have different inclination to the south and north sides and in which the gable gap 33 overlapping shielding sheet 34 preferably to the flat inclined south side in the covering area to the roof pitch 6 an in particular nozzle-like expanding outflow gap 35 leaves free, so that one through the arrows 36 indicated air flow results. The slope of the roof slopes is preferably in the range of about 5 to 25 °. The shielding plate 34 is over a support sleeve 37 on the connecting structure for the rafters 8th . 9 represented in the area of the pediment.

Preferably find for the south and north side, so for different roof slopes different photovoltaic elements 12 Use, preferably south-facing crystalline photovoltaic elements 12 and north-side photovoltaic elements 12 be used in thin-film construction. By integrating the photovoltaic elements 12 in the roof or the roof slopes of the rooftop exist for the photovoltaic elements no other, in particular no higher loads than conventional roofing, in particular, the photovoltaic elements 12 no longer wind or storm-prone.

Claims (10)

Roofing, in particular roof covering, which has a rain-proof roofing area ( 11 ) and that with photovoltaic elements ( 12 ), characterized in that the photovoltaic elements ( 12 ) at least parts of the rain-proof roofing area ( 11 ) form. Roofing, in particular roof covering, which has rain-proof roofing surfaces and which is covered with photovoltaic elements, characterized in that the roofing as an on-roof ( 7 ) to an existing roof ( 4 ) and that the photovoltaic elements ( 12 ) Parts of the rainproof roofing area ( 11 ) of the roof ( 7 ) form. Roof according to claim 1 or 2, characterized in that the parts formed by photovoltaic elements of the roofing surface ( 11 ) form inclined surfaces of the canopy. Roof according to claim 3, characterized in that the one surface of the roof covering photovoltaic elements ( 12 ) are level with each other, in particular in inclined portions of the canopy. Roof according to claim 4, characterized in that the juxtaposed photovoltaic elements ( 12 ) over butt joint ( 13 . 18 ) abut each other and along their direction of inclination in the splitting column ( 13 ) via slide rails ( 14 . 15 ) and along its transverse thereto splitting gaps ( 18 ) via gap seals ( 17 ) are connected, which the impact gap ( 18 ) to the surface of the adjacent photovoltaic elements ( 12 ), in particular flat, cover. Roof according to one of the preceding claims, characterized in that with the photovoltaic elements ( 12 ) a gable roof-shaped roof is formed whose substructure is at an obtuse angle to each other and connected in the gable area rafters ( 8th . 9 ), which extend to the tilting direction ( 13 ) of adjacent photovoltaic elements ( 12 ) lying in overlap with these are connected. Roofing according to one of the preceding claims, characterized in that the rafters connected in the gable area ( 8th . 9 ) in particular cantilevered between opposing and lateral and positionally fixed supports. Roofing according to one of the preceding claims, characterized in that with respect to flat roofs overlapping surfaces whose overlaps by at least one gable-shaped roof ( 7 ) are formed. Roofing according to Claim 8, characterized in that a plurality of gable roof-shaped roofs are provided for roofing a flat roof and that between the longitudinally adjacent eaves edges of these rooftops Kehlrinnen ( 28 ), over which the substructures of these rooftops are preferably connected. Roofing according to one of claims 1 to 7, characterized in that, based on gabled roofs as surfaces to be covered, the roofing by a gable roof ( 4 ) and the gable roof ( 4 ) in particular exposed roof ( 7 ), whose substructure to the building-side support area of the gabled roof ( 4 ).

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