• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Arrangement for fastening plates (1, 2), in particular plate-shaped solar modules, to facades and / or roofs, the arrangement comprising at least a first frame profile (3) fastened or to be fastened to a first of the plates (1) and at least one further on a further of the plates (2) fixed or zubefestigendes frame profile (4) and at least one support body (5), wherein the frame profiles (3, 4) and the support body (5) are each formed as initially separate components and in the arrangement then the frame profiles (3, 4) by means of the support body (5) to a substructure (6) of the facade and / or the roof are fixed, wherein the frame profiles (3, 4) are arranged in the arrangement shingles in regions overlapping.
    公开号:AT512032A4
    申请号:T1816/2011
    申请日:2011-12-12
    公开日:2013-05-15
    发明作者:
    申请人:Lenz Bernhard;
    IPC主号:
    专利说明:

    patent attorneys
    Hofmann Sc Fechner 24338/34 / ss 111123
    The present invention relates to an arrangement for fixing plates, in particular plate-shaped solar modules, on facades and / or roofs, wherein the arrangement has at least a first, attached to a first of the plates or to be fixed frame profile and at least one other, attached to another of the plates or to be fastened frame profile and at least one support body, wherein the frame profiles and the support body are each formed as initially separate components and in the arrangement then the frame profiles are fixed by means of the support body to a substructure of the facade and / or the roof.
    In modern architecture, façades and roofs are often covered with panels. A special field of activity is also the attachment and integration of solar modules, be it for hot water or power generation or for both in facades and / or roofs. In the AT 509506 A1 a generic arrangement for mounting of panels on facades and / or roofs is shown there realized frame profiles are hung on one side by means of swivel joint on a support body, then pivoted into its mounting position and fastened by means of a fastening device on the other support body. The fastening device shown in AT 509506 A1 has a relatively small nose, which is locked by means of a pivotable bolt. This relatively filigree fastening device sets relatively high demands on the accuracy in the execution of the substructure.
    Object of the present invention is to provide a generic arrangement for mounting panels on facades and / or roofs, in which larger tolerances in the accuracy of execution of the substructure can be accepted. 2 2 • * ··· • * 4 ♦ * * * «* • * * * * * *« * · · · · · · «« ** ** «
    This is inventively achieved by the frame profiles in the arrangement shingles are partially overlapping arranged.
    In the arrangement, this means preferably in the fully assembled state of the arrangement. Due to the shingled design of the arrangement, this can be easily and quickly mounted, while at the same time relatively large tolerances in the substructure can be accepted.
    It is preferably provided that the first frame profile in the arrangement is arranged partially inserted under the further frame profile. It is advantageous if the first frame profile in the arrangement, preferably directly, on a lower stop of the support body, preferably a mounting leg of the support body for mounting the support body rests on the substructure. Preferred variants can also provide that an upper stop for the first frame profile, preferably directly, is arranged or formed on an underside of the further frame profile.
    In terms of independence of tolerances in the substructure can be provided that in the arrangement of the distance between the lower stop and the attachment point of the other frame profile is fixed to the support body. In this context, it is also advantageous if the distance between the lower stop and the upper stop is fixed in the arrangement. Conveniently, it is provided that the arrangement has at least for the first frame profile an upper stop and a lower stop and in the assembled state of the arrangement, the distance between the stops fixed to each other and the first frame profile between the stops is arranged by a remote from the substructure upper End region of the first frame profile, preferably by means of a sealing lip of the first frame profile, at the upper stop and a substructure facing the lower end portion of the first frame profile rests against the lower stop. 3 3 ·· • t ·············································································. * · * «» ·· »« «* ··
    A basic idea of these embodiments of the invention is thus that the arrangement has two stops which are arranged at a fixed distance from one another, it being then possible to insert one of the frame profiles between the two stops. This achieves the shingled training and is relatively independent of tolerances and other inaccuracies in the execution of the substructure. In contrast to the described prior art is no longer a relatively filigree nose of the fastening device under a bolt but the frame profile per se, preferably inserted with its entire thickness between the upper and lower end portion, between the two stops.
    It should be noted that the terms " top " and "below" always in relation to the substructure. The term "top" means that there is something further away from the substructure. The term "bottom" means that something is arranged closer to the substructure. Accordingly, for example, the upper stop is the stop, which is further spaced from the substructure than the lower stop.
    The supporting bodies form the connections between the substructure and the frame profiles. The support bodies are preferably substantially L-shaped. They preferably have a mounting leg for mounting the support body on the substructure and one of them angled, preferably orthogonal, protruding further leg. On the mounting leg, a form-fitting element, e.g. be arranged in the form of a stop, which simplifies a clear positioning of the support body to the substructure.
    Preferred variants provide that the support body, preferably with the formation of a pivot joint, engages in a, preferably unilaterally open, groove of the further frame profile. In preferred embodiments, the support body engages with a joint head in the groove of the other frame profile. Preferably, the support body is formed as a rigid in itself and / or one-piece body. ·······································································································. · · »T ··· ···« · »· ··· · · 4
    This is especially true for the lower stop or the mounting leg and its connection to the attachment point for the other frame profile, preferably so the joint head.
    Regardless of which combination or combination of the previously mentioned embodiments is realized or whether other embodiments of an arrangement according to the invention come to fruition, it is in any case favorable if the support body in the arrangement, ie in the assembled state of the arrangement is concealed from the outside invisible.
    In order to facilitate the insertion of the first frame profile between the stops of the arrangement, preferred embodiments of the invention provide that the upper stop and the lower stop are arranged offset to one another in a direction along the substructure.
    In terms of a cost-effective and modular design of the arrangement according to the invention, preferred embodiments provide that the frame profiles are formed identically to one another. You can e.g. made of metal such as steel or aluminum. Particularly effective and cost-effective, the frame profiles can be manufactured as extruded profiles. They can have different grooves and channels, into which different additional components can be introduced. This can e.g. be the above-mentioned condyle of the support body to form said pivot joint. However, it is just as possible to use corresponding grooves, in particular edge grooves, to insert flow sheets or angle plates to seal the construction. Just as well edge clips can be inserted into corresponding peripheral grooves, e.g. to surround the plate randlich. It can be provided in the frame profiles and miter grooves are introduced into the miter angles to form corners of the edge profiles.
    The edge profiles can be attached only partially to the plates. However, the edge profiles can be performed just as well as self-contained frames, 5
    which then completely cover the plate. In such a case, the peripheral grooves can be made completely circumferential. Particularly preferably, they are located on remote from the plate end faces of the frame profile.
    The frame profile and the plate may be separate components manufactured, which are then connected together accordingly. Of course, the frame profile can also be mitgefertigt in regions or circumferentially the same piece on the plate.
    In principle, arrangements according to the invention are suitable for the attachment of various types of panels to roofs and / or facades. In particular, generic arrangements can also be used for fastening and / or integration of solar modules in facades and / or roofs. It may be solar modules for hot water production but also those for the production of electricity. Arrangements according to the invention can also be used for solar modules which serve both the hot water production and the production of electric current.
    The arrangement according to the invention can also be used to integrate different types of panels and / or solar modules in a facade or in a roof.
    In the figures, embodiments of an arrangement are shown. Show it:
    Fig. 1 is a schematically illustrated substructure on the partially already plates are mounted by means of inventive arrangement;
    Figure 2 is a section along the section line AA of Fig. 1.
    3 shows an embodiment of a supporting body.
    4 shows a mounting position in which two adjacent frame profiles are held on a single support body.
    Fig. 5 shows a variant with a drainage plate;
    FIG. 6 shows a frame profile designed as a circumferentially closed frame; FIG. 6
    «· ··· ♦ ··» ··
    7 shows a section through the frame profile including plate.
    8 shows a connection angle between two frame profiles;
    Fig. 9 is an edge clip;
    10 a marginal angle plate and
    Fig. 11 shows a possibility of additional protection of the construction against suction.
    Fig. 1 shows a substructure 6 and their mutually parallel slats 20 on which the arrangements according to the invention are to be attached, so as to form a clad with panels 1.2 facade or roof area. The substructure 6 may additionally comprise the counter battens 21, not shown in FIG. 1 but visible in FIG. 2, which can run at an angle, preferably orthogonally, to the slats 20. Of course, it can also be any other type of substructure 6. For example, These may also be preferably flat surfaces or the like.
    On this substructure 6, the plates 1 and 2 are fixed by means of the frame profiles 3 and 4 and the support body 5. The plates 1 are arranged side by side in a row by means of the frame profiles 3 and the support body 5 in the illustrated embodiment. In the overlying row are the plates 2, which are also secured by means of the frame sections 4 and the support body 5 to the substructure 6. In the first embodiment according to FIGS. 1 and 2, the frame profiles 4 of the upper row overlap the frame profiles 3 of the lower row in regions, so that the overall result is a shingle-like construction. This is particularly well seen in section along the section line AA of Fig. 1, which is shown in Fig. 2. Fig. 2 thus shows in detail a first embodiment of the arrangement according to the invention. This has an upper stop 7 and a lower stop 8, which are arranged in the shown, fully assembled state at a fixed distance 9 to each other. The first of the frame profiles 3 is arranged between the stops 7 and 8, by an upper end area 10 facing away from the substructure 6 of this first frame profile 3 at the upper stop 7 and a lower end area 12 7 facing the substructure 6.
    this frame profile 3 rests on the lower stop. The frame profile 3 is thus arranged with its entire thickness between the stops 7 and 8. In the embodiment shown, a sealing lip 11 is provided on the frame profile 3, by means of which the frame profile 3 rests against the upper stop 7. However, the sealing lip 11 may also be omitted. Also, the first frame professional! 3 not necessarily abut an upper stop 7. In the embodiment shown, the upper stop 7 is arranged on the underside 14 of the further frame profile 4 or formed by this underside 14. The lower stop 8 is formed in this variant by the support body 5 and its mounting leg 13. Between the stops 7 and 8 there is a fixed distance 9, which is favorably between 5 mm and 140 mm, preferably between 26 mm and 51 mm. Another fixed distance 15 is preferably located, as also realized here, between the lower stop 8 for the first frame profile 3 and the attachment point of the further frame profile 4 on the support body 5. This attachment point can, as also realized in this embodiment, designed as a condyle 18 be. The fixed distance 15 is favorably in a value interval between 4 mm and 120 mm, preferably 25 mm and 50 mm. The distances 9 and 15 are preferably measured in a direction normal to the substructure 6, as shown in Fig. 2 also. In addition, the stops 7 and 8 in the variant shown in Fig. 2 are also offset in a direction 19 along the substructure 6 to each other. This simplifies the assembly described below.
    Both the first frame profile 3 and the further frame profile 4 are fastened by means of a common support body 5 to the lath 20 resting on the counter lath 21. Shown here is a screw of the mounting leg 13 with the bar 20. This is of course only an example. Of course, the support body 5 can also be fastened to the substructure 6 in a different manner. In any case, it is advantageous to provide a form-locking element 28 which, in the exemplary embodiment shown, forms a stop with which the supporting body 5 can be easily aligned on the slat 20 or substructure 6. In the variant shown, the support body 5 has an L-shaped cross-section, as in Fig. 2 also good 8. 8
    ♦ ··· ··············································································································································· In addition to the mounting leg 13, the support body 5 also has the further leg 25, which carries the condyle 18 at its end facing away from the mounting leg 13 end.
    The condyle 18 is part of the pivot joint 16, with which the further frame profile 4, which carries the plate 2 in the illustrated embodiment, is attached to the support body 5 and thus to the substructure 6. The condyle 18 is inserted to form the pivot joint 16 in the outwardly open groove 17 of the frame profile 4. The underside 14 of the frame profile 4 forms, as I said, in this embodiment, the upper stop 7 for the frame profile. 3
    The attachment of the plates 1 and 2 to the frame profiles 3 and 4 can be realized by gluing, screwing, bracing, soldering, welding or by other known in the art attachment types. In the concrete embodiment shown this will not be shown in detail. The frame profiles 3 and 4, as already explained, even be formed integrally with the plates 1 and 2. Covering plates 22 may also be arranged on the frame profiles 3 and 4 and the plates 1 and 2 in order to cover the transitions.
    The overall height 24 of the arrangement according to the invention over the substructure 6 can be kept comparatively low. Total heights less than or equal to 7 cm, preferably less than or equal to 6 cm, are preferably realized.
    In the variant shown, an additional sealing spring 23 is arranged between the frame profile 3, the support body 5 and the frame profile 4. This has two tasks. On the one hand, it serves to seal the construction. On the other hand, it ensures a clearance release by biasing the frame sections 3 and 4 against the support body 5 something. The sealing spring 23 is preferably designed as an elastically deformable body. Various elastomers, e.g. EPDM (ethylene-propylene-diene rubber) are used. 9 »» »* * φ
    ·· «· ··· ** ··
    For mounting the arrangement according to FIG. 2 it should be noted that initially the frame profile 4 is brought to the plate 2 in the same manner as the manner described below in the end position shown in FIG. Subsequently, the sealing spring 23 is arranged in the position shown. Then the end not shown at the end slightly pivoted plate 1 with its frame profile 3 shown in Fig. 2 between the upper stop 7 and the lower stop 8 are inserted so far until the sealing spring 23 is compressed. The insertion should take place so far that at the other end of the plate 1, not shown here, there arranged frame profile 3 can be pivoted so far down that there, as well as the frame profile 4 realized groove 17, comes in a position in the the condyle 18 can be inserted into this groove 17. In this insertion, the sealing spring 23 can expand again and the plate 1 together with its frame sections 3 is slightly pushed away in the direction 19 of the plate 2 and the frame section 4 until the condyle 18 has penetrated so deep into the local groove 17 at the opposite end, as shown in Fig. 2 on the frame profile 4. In this position, the finished assembled state shown in FIG. 2 is then reached. The plates and frame profiles of the next lower row can then be mounted accordingly.
    Fig. 3 shows a perspective view of the embodiment used of the support body 5 with its mounting leg 13, its other leg 25, the condyle 18 and interlocking element 28. Shown are also the mounting holes 27, by means of which the support body 5 can be screwed to the substructure 6 ,
    FIG. 4 shows by way of example how two frame profiles 4 adjacent to one another in a row can be fastened to a common support body 5 or its condyle 18. Of course, it is also just as possible to provide separate supporting body 5 for adjacent frame profiles 4. Overall, it should be noted that the support body 5 can be designed as individual components or as continuous strips. 10 ΦΦ * · * · Φ · Φ Ml
    In any case, FIG. 4 shows the situation in which the frame profiles 3 of the lower plate row following subsequently are not yet mounted. It can also be seen in Fig. 4, the two adjacent frame sections 4 connecting drain plate 29, which ensures a seal of the construction. The flow plate 29 is, as shown enlarged in Fig. 5, inserted in the variant shown in the edge grooves 13 of the adjacently arranged frame profiles 4 and ensures that rainwater, which penetrates between the frame sections 4, runs on the drain plate 29 and not further can penetrate into the construction.
    FIG. 6 shows a frame profile 3 designed as a circumferentially closed frame into which the corresponding plate 1 can be inserted. As already explained above, it is advantageous if all frame profiles 3 and 4 are identical. But this does not necessarily have to be the case. It should also be pointed out that the frame profiles 3 and 4 do not necessarily have to be designed as circumferentially closed frames. They can also be arranged only partially on the plate, preferably on the outer edge.
    FIG. 7 again shows a section through a frame profile 3 or 4, with plate 1 arranged thereon. The edge groove 30, the already described groove 17 for the insertion of the condyle 18 and the miter groove <T, 31 of this exemplary embodiment are provided with reference numbers , As shown in FIG. 9, the miter groove 31 can be used to insert a bevel angle 32 into this groove in order to realize the corner connection of two frame profiles 3 shown in FIG. 8. The miter angle 32 is actually not visible in the assembled state and therefore shown in dashed lines in Fig. 8.
    FIG. 9 shows by way of example how an edge clip 33 can be inserted into the edge groove 30. The edge clip 33 may be, e.g. As shown here, used to form-fit around the plate 1.
    Fig. 10 shows how at the edge of the construction in the edge groove 30 of the existing there frame profile 3 and 4, an angle plate 34 can be inserted to a
    •··················································································································· · &Lt; · ....... 11 to achieve a watertight seal against rainwater. In the illustrated embodiment, the angle plate 34 protrudes with its free leg for this purpose in the on the substructure ό to be attached groove 35 through which water can drain.
    When using relatively large plates 1 and 2, it can come on roofs and / or facades by wind to a significant suction effect. Fig. 11 shows a variant of how the frame sections 3 and 4 can be additionally protected in an intermediate region between two support members 5 against damage by suction. In the variant shown, two connecting hooks 26 are arranged intermeshing, wherein one of the connecting hooks 26 is fastened to the substructure 6 or the lath 20 and the other of the connecting hooks 26 to the frame profile 3. The chosen construction permits the manner of assembling the frame profiles and the panels to the substructure with reference to FIGS. 2 and 3. This additional protection between two support bodies 5, it is possible to use thinner plates and in particular thinner glass plates. 12 ** ··· ···· • · «» ι *
    Key to the reference numbers: 1 plate 2 plate 3 frame profile 4 frame profile 5 support body 6 substructure 7 upper stop 8 lower stop 9 distance 10 upper end area 11 sealing lip 12 lower end area 13 mounting leg 14 underside 15 distance 16 pivot joint 17 groove 18 condyle 19 direction 20 lath 21 Counter batten 22 Cover plate 23 Sealing spring 24 Overall height 25 of other legs 26 Connecting hook 27 Attachment hole 28 Positive locking element 29 Drainage plate 30 Randnut 31 Miter groove 32 Miter angle 33 Edge clip 34 Angle plate 35 channel
    权利要求:
    Claims (10)
    [1]
    • Patent AttorneysHofmann Sc Fechner • • • • • • «•« • ··· UM * ·· 24338/34 / ss 111123 1. Claims 1. Arrangement for fixing plates {1 , 2), in particular plate-shaped solar modules, on facades and / or roofs, wherein the arrangement has at least a first, attached to a first of the plates (1) or to be fixed frame profile (3) and at least one other, at a further of the plates (2 ) or at least one support body (5), wherein the frame profiles (3, 4) and the support body (5) are each formed as initially separate components and in the arrangement then the frame profiles (3, 4) by means of the support body (5) to a substructure (6) of the facade and / or the roof are fastened, characterized in that the frame profiles (3, 4) are arranged in the arrangement shingles in regions overlapping.
    [2]
    2. Arrangement according to claim 1, characterized in that the first frame profile (3) in the arrangement partially under the further frame profile (4) is inserted inserted.
    [3]
    3. Arrangement according to claim 1 or 2, characterized in that the first frame profile (3) in the arrangement, preferably directly, on a lower stop (8) of the supporting body (5), preferably a mounting leg (13) of the supporting body (5). for mounting the supporting body (5) on the substructure (6), rests.
    [4]
    4. Arrangement according to one of claims 1 to 3, characterized in that an upper stop (7) for the first frame profile (3), preferably directly, on a lower side (14) of the further frame profile (4) is arranged or formed. 2 2

    »*» «*» «· · · # · ♦ * · · • * • ·· ♦« · ··· ·· ··· ««
    [5]
    5. Arrangement according to one of claims 3 or 4, characterized in that in the arrangement of the distance (15) between the lower stop (8) and the attachment point of the further frame profile (4) on the support body (5) is fixed and / or in the arrangement of the distance (9) between the lower stop (8) and the upper stop (7) is fixed.
    [6]
    6. Arrangement according to one of claims 1 to 5, characterized in that the supporting body (5) is concealed in the arrangement from the outside invisible.
    [7]
    7. Arrangement according to one of claims 1 to 6, characterized in that the supporting body (5), preferably with the formation of a pivot joint (16), in a, preferably unilaterally open, groove (17) of the further frame profile (4) engages.
    [8]
    8. Arrangement according to claim 7, characterized in that the supporting body (5) engages with a joint head (18) in the groove (17) of the further frame profile (4).
    [9]
    9. Arrangement according to one of claims 1 to 8, characterized in that the supporting body (5) is formed as, preferably in itself rigid, one-piece body.
    [10]
    10. Arrangement according to one of claims 4 to 8, characterized in that the upper stop (7) and the lower stop (8) in a direction (19) along the substructure (6) are arranged offset from each other.
    类似技术:
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    同族专利:
    公开号 | 公开日
    EP2604770A3|2017-12-06|
    AT512032B1|2013-05-15|
    EP2604770A2|2013-06-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP1348915A2|2002-03-28|2003-10-01|SCHÜCO International KG|Fastening element for building components, especially collectors|
    DE102004049595B3|2004-10-12|2006-03-16|Robert Bosch Gmbh|Roof hook e.g. for mounting solar collector or other roof systems, faces roofing tile and partly spreads upward with top side of roofing tile has assigned surface and bend with assembly rail for mounting devices|
    EP2196594A1|2008-12-09|2010-06-16|Markus Gisler|Element for cladding buildings|
    EP2362162A1|2010-02-22|2011-08-31|Baxi Heating Limited|Solar panel mounting|
    FR2465315B1|1979-09-10|1981-08-28|Radiotechnique Compelec|
    JPH0696897B2|1992-10-27|1994-11-30|元旦ビューティ工業株式会社|Solar panel mounting structure|
    FR2949799B1|2009-09-04|2011-10-21|Gauthier Solar Systeme|DEVICE FOR THE INTEGRATION OF DOUBLE-SEALED PHOTOVOLTAIC SOLAR PANELS ENSURING PERFECT SEALING ON NEW OR EXISTING ROOFING AND WHATEVER THE SLOPE.|CN105119556B|2015-08-28|2017-05-10|湖南俊虹置业股份有限公司|Photovoltaic assembly installation support and roof photovoltaic system|
    CN207801814U|2018-01-31|2018-08-31|北京铂阳顶荣光伏科技有限公司|Splicing body and photovoltaic curtain wall for fixing photovoltaic module|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA1816/2011A|AT512032B1|2011-12-12|2011-12-12|ARRANGEMENT FOR FIXING PLATES|ATA1816/2011A| AT512032B1|2011-12-12|2011-12-12|ARRANGEMENT FOR FIXING PLATES|
    EP12008009.8A| EP2604770A3|2011-12-12|2012-11-28|Assembly for attaching panels|
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