• 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:
    A fastening element (10) for fastening a facade cladding element (20) to a substructure, which cladding element (20) has a side edge groove (21) at a lower edge, wherein the fastening element (10) comprises a base to which an shaped support profile (12) is connected, which engages with its angled end portion (13) in the Seitenkantennut (21) of the cladding element (20), characterized in that from the base a latching ridge protrudes, for engaging in a groove (22) or Bag is provided, which is introduced in one of the substructure (1) facing the side surface of the cladding element (20).
    公开号:AT15732U1
    申请号:TGM31/2017U
    申请日:2017-02-17
    公开日:2018-05-15
    发明作者:
    申请人:Osmo Holz Und Color Gmbh & Co Kg;
    IPC主号:
    专利说明:

    description
    FASTENING ELEMENT FOR FASTENING A FAÇADE FAIRING ELEMENT TO A SUB-CONSTRUCTION, AND A FAÇADE FAIRING SYSTEM
    The invention relates to a fastener for fastening a facade cladding element to a substructure with the features of the preamble of claim 1 and a facade cladding system.
    Such a facade cladding system is known from DE 20 2007 019 475 U1. The disadvantage of the fastener shown therein is that the lower web has to be placed on the upper edge of the facade cladding element and screwed there. This leaves visible in the cladding of the overlying web in the gap between two adjacent facade cladding elements. In addition, the screw is difficult, since this must be done from the top edge, which is particularly sloping. The screw must be inserted perpendicular to the inclined surface. If the screw-in angle and the screw length do not fit exactly, not only part of the fastener remains visible, but also the screw head. In addition, the tip of the screw can emerge on a side surface.
    The object of the present invention is to enable a simple and therefore fast assembly of a facade cladding, which consists of several parallel cladding elements. In addition, as little as possible of the fastener should remain visible in the finished cladding.
    This object is achieved by a fastener with the features of claim 1.
    Essential to the invention is the additional latching connection between the facade cladding element and the fastener via a second upwardly projecting from the base profile section as a detent web. This is a relatively short detent portion designed to engage a groove or pocket on the rear side surface of the cladding element.
    Preferably, the fastener is supplemented by a facade cladding element to a facade cladding system.
    The façade cladding element may in particular be a strip-shaped solid profile of wood or plastic, a wood-polymer composite (WPC) or even a hollow plastic profile. This is placed with its groove, which is introduced at the lower side edge, on the support profile sections of a plurality of fasteners that have already been attached to the substructure during assembly in a lower-lying row.
    On the fastener, the length and wall thickness of the angled end portion of the support profile section with the depth and width of the groove are coordinated so that the facade cladding element while loose on the series of attached to the substructure fasteners can be placed, but at the same time is held in this position without tipping off of the fasteners.
    For the facade cladding system according to the invention the following sequence of mounting is provided: - Several fasteners are each positioned on the facade cladding element and pressed with its locking bar in the designated groove on the back of the facade cladding element.
    [0011] The fastening elements are each screwed to the facade cladding element.
    - The facade cladding element with screwed to the upper side
    Fasteners are placed on the substructure and pushed down.
    - Here, the groove engages the lower edge of the facade cladding element in the
    Support profiles of the located in a lower row fasteners.
    After the facade cladding element with the attached upper
    Fastener has been pivoted to the substructure zoom, the fastener can be bolted to the substructure. For this purpose, at least one fastening recess is provided in the base of the fastening element, which is positioned so that it is accessible above the upper edge of the facade cladding element.
    Thus, a very simple positioning of the respective upper row of fasteners is possible. These need only be roughly prepositioned so that they can be positioned in front of the corresponding strips of the substructure. They are held securely by the Verras-tung. Thus, the screwing can be done very quickly. The fasteners are mounted almost invisibly.
    In addition, the following optional modifications are possible in the cladding system according to the invention: Depending on the positioning of the groove on the back of the facade Verkleidungsele management element, the distance between the facade cladding elements can vary.
    - The facade cladding element preferably has a Rau tenform in cross-section with parallel front and rear sides and upper and lower side edges which slop obliquely towards the outside to drain water.
    The fastener can be colored completely black, which remains invisible in black substructure.
    The invention will be explained in more detail with reference to an embodiment and with reference to the drawings. 1 shows a fastening element in plan view from above; [0022] FIG. 2 shows a fastening element in perspective view [0023] FIGS. 3 to 6 show the manufacture of a facade cladding in several steps, in each case in a lateral view; Fig. 7 shows a mounted facade cladding from the back, in perspective
    And Fig. 8 shows a detail of the facade cladding from the back, in perspective
    View.
    In Fig. 1, a fastener 10 is shown from above. It is formed in particular by punching from a metal sheet. A base 11 has two mounting recesses 16, 17, of which the upper mounting recess 16 is provided for attachment to a substructure and the lower mounting recess 17 for connecting the fastener 10 with a facade cladding element by means of a screw.
    In the upper region of the base 11 two support webs are formed in the illustrated embodiment, of which in plan view only the upwardly facing end portions 13 are visible, which are arranged on both sides of the mounting recess 16. In the lower part of a detent web with a plurality of partial detent webs 14, 15 is arranged.
    The spatial configuration of the fastener is particularly clear from Fig. 2. The support webs 12 are punched out of the base 11 and then angled twice, so that the end portions 13 are aligned parallel to the base 11.
    The latching web is formed from a total of three sections, wherein on the outside each Teilraststege 14 are provided in a common linear orientation, and a central partial catch web 15 is arranged with a small parallel offset to the two outer part webs 14. Due to the offset, a firm clamping connection can be achieved if the partial catch webs 14, 15 are pressed into a groove with a tuned width. The outer distance of the partial webs 14, 15 is for this purpose slightly larger than the width of the groove in the side surface of the facade cladding element.
    Fig. 3 shows in a side view the beginning of the assembly of the facade cladding 100. As a preliminary measure, a substructure has been erected, comprising a plurality of vertical and mutually parallel slats 1. In the lower region of the slats 1, a first row of fasteners 10 is screwed, in such a way that the support webs 12 face upward.
    As a further preparatory measure, a facade cladding element 20 has been provided with a series of fastening elements 10, that is to say the center axes of the fastening elements 10 have the same center distance as the slats 1 or the lower row of fastening elements 10. Cladding element 20 here is a so-called diamond profile, which is planed in particular from wood. The sloping upper edge forms a drainage area pointing away from the building, whereas the likewise sloping lower edge of the building leads the way to form a drip edge. At the lower edge of a groove 21 is introduced. The upper edge has no profiles except the curves in the transition to the side surfaces.
    The fasteners 10 are engaged with their partial stop webs 14, 15 in a groove 22 on the side facing the building side and additionally bolted via a guided through the mounting recess 17 screw 30 with the facade cladding element 20. The facade cladding element 20 can thus be prepared completely with all fasteners 10.
    In the beginning of the assembly of the facade cladding element 20 shown in Fig. 3 on the substructure then the prepared facade cladding element 20 is simply set with its groove 21 on the upwardly projecting end portions 13 of the support webs 12. The width of the groove 21 allows an oblique positioning, as shown in Fig. 3. Subsequently, the facade cladding element 20 is pivoted to the substructure, as indicated by the arrow. Thus, the position shown in Fig. 4 is reached. Now only the screw connection with slats 1 of the substructure has to be made. The position of the screw connection is indicated by the dot-dash line. The mounting recess 16 is easily accessible between the upper edge of the facade cladding element 20 and the support bar 12.
    In the next assembly step according to FIG. 5, the process described with reference to FIG. 3 is repeated a number higher. A prepared with fasteners 10 facade cladding element 20 is attached and pivoted into its position shown in FIG. 6, in which then the screw is connected to the substructure.
    These assembly steps are repeated as often as desired. Since there is no tension-resistant connection between the support webs 12 of the respective lower row of fasteners 10 and the groove 21, the compensation of a small angular offset in each assembly step is possible. The fitter checks the horizontal alignment of the upper facade cladding element 20 in the position shown in FIGS. 3, 5 and corrects them if necessary, before he completes the screwing to the substructure. This prevents that small angle errors add up and sets in the overall appearance of the facade cladding 100 a visible misalignment.
    Fig. 7 shows two facade cladding elements 20, which are connected to a fastening element 10, from the rear side. In addition to the engagement of the end portion 13 of the
    Supporting web 12 in the groove 21 is in particular the screw on the mounting recess 16 and the engagement of the partial latching webs 14, 15 in the grooves 22 at the back of the Fassa-den-lining element 20 clearly. By choosing one or the other groove 22 for engaging the sub-ridge 14, 15, the pitch of the facade cladding elements 20 and thus the remaining gap between the facade cladding elements 20 can be varied.
    Fig. 8 shows the region of engagement of the two locking webs 14, 15 in the groove 22. The Teilraststege 14, 15 have so much distance from each other, that the outer webs 14 bear against the one flank of the groove 22, and the middle partial catch bar 15 on the other flank. As a result, a good deadlock is effected, which facilitates the pre-positioning of the fasteners 10 on the facade cladding element 20 prior to screwing.
    权利要求:
    Claims (4)
    [1]
    claims
    A fastener (10) for attaching a facade cladding element (20) to a substructure, which cladding element (20) has a diamond cross-section with an oblique run-off surface as the upper edge and a side edge groove (21) at a lower edge, the fastener (10) comprises a base (11) to which an L-shaped support profile (12) is connected, which engages with its angled end portion (13) in the Seitenkantennut (21) of the cladding element (20), characterized in that of Base (11) projects a latching web, which is provided for engagement in a groove (22) or pocket, which is introduced in one of the substructure (1) facing side surface of the facade cladding element (20) and the base (11) at least two mounting recesses (16, 17), of which a lower mounting recess (17) for screwing with the side surface of the facade cladding element out is formed and an upper mounting recess (16) is formed for connecting the fastener with a substructure.
    [2]
    2. Fastening element (10) according to claim 1, characterized in that the latching web at least two partial latching webs (14, 15) which are arranged on the base (11) and which are arranged in the transverse direction of the groove (22) with an offset to each other ,
    [3]
    3. façade cladding system (100), comprising at least a facade cladding element (20): - Has a diamond profile cross-section with an oblique drainage surface as the upper edge, - which has at least at a lower edge a Seitenkantennut (21) and - with several over the length the facade cladding element (20) to be arranged fastening elements (10) on a substructure (1) can be fastened, - and on whose side surface a plurality of parallel spaced grooves (22) or pockets are formed; and with a fastening element (10) according to claim 1 or 2: - which engages with the support profile (12) in the Seitenkantennut (21) of the facade cladding element (20) and the base (11) at least two mounting recesses (16, 17) one of which is covered by the cladding element (20) and the other is exposed in front of an upper edge of the cladding element (20) when the fastener (10) is engaged in the groove (22) or pocket.
    [4]
    4. facade cladding system (100) according to claim 3, characterized in that the upper edge of the facade cladding element (20) comprises only an oblique drainage surface without further profiling.
    类似技术:
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    同族专利:
    公开号 | 公开日
    DE202016102100U1|2016-12-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JPH03132554A|1989-10-19|1991-06-05|Gantan Biyuut Kogyo Kk|Tile block wall body|
    WO2001038668A1|1999-11-23|2001-05-31|Unilin Beheer B.V., Besloten Vennootschap|Covering, covering elements and installing and disassembling method|
    US20100018145A1|2008-07-25|2010-01-28|Carlton Ellis|Decorative joint system|
    AT515684A4|2014-10-14|2015-11-15|Gaisbauer Günther|Facade system and a holding part for fixing two visible profiles|
    DE202007019475U1|2007-11-23|2012-11-26|Grimmeisen Holzland Gmbh|facade element|DE102017108590A1|2017-04-21|2018-10-25|Novo-Tech Gmbh & Co. Kg|Mounting system and method for mounting a panel to a retaining strip|
    DE102017127475A1|2017-11-21|2019-05-23|Novo-Tech Gmbh & Co. Kg|Substructure for a cladding and method for mounting a substructure|
    DE102018005072A1|2018-06-27|2020-01-02|Markus Rensburg|Fastening element for mounting a facade panel|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE202016102100.6U|DE202016102100U1|2016-04-21|2016-04-21|Fastening element for fastening a facade cladding element to a substructure, and a facade cladding system|
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