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    • 2. 发明公开
    • 건축 재료의 앵커링
    • 锚固在建筑材料
    • KR1020090057129A
    • 2009-06-03
    • KR1020097007944
    • 2007-09-19
    • 부트벨딩 아게
    • 애슐리만,마르셀토리아니,라우렌트레만,마리오마이어,외르크
    • F16B13/06E04C5/12E04B1/41
    • B29C65/645B29C65/7844B29C66/30326B29C66/47B29C66/474B29C66/7463B29C66/7487B29C66/82261B29C66/8322B29C2793/0045B29K2711/14F16B13/061F16B13/0841Y10T24/45927Y10T29/49945Y10T403/16
    • The method according to the invention is suitable for anchoring an anchoring element (1) in an object (21), which anchoring element (1) is compressible in the direction of a compression axis under local enlargement of a distance between a peripheral anchoring element surface and the compression axis. The anchoring element (1) comprises a coupling-in face (1.2) which serves for coupling the mechanical vibrations (5) into the anchoring element (1), which coupling-in face (1.2) is not parallel to the compression axis. The anchoring element (1) further comprises a thermoplastic material which in areas of the peripheral surface enlargement forms at least a part of the surface of the anchoring element, the method comprising the steps of : providing a bore (21.1) in the object (21); positioning the anchoring element (1) in the bore (21.1); coupling the compressing force (4) and the mechanical vibrations (5) through the coupling-in face into the positioned anchoring element (1), whereby the anchoring element is compressed and due to the distance enlargement at least locally pressed against lateral walls of the bore and the thermoplastic material is at least partly liquefied where in contact with the lateral walls and pressed into structures of the object (21) to form, after re-solidification, a form-fit connection with the lateral walls.
    • 根据本发明的方法适用于将锚固元件(1)锚定在物体(21)中,该锚固元件(1)可以在压缩轴线的方向上可压缩的局部放大,所述锚定元件(1)在周向锚固元件表面 和压缩轴。 锚固元件(1)包括用于将机械振动(5)耦合到锚固元件(1)中的联接面(1.2),该联接面(1.2)不平行于压缩轴线。 锚固元件(1)还包括热塑性材料,其在周边表面增大的区域中形成锚固元件的表面的至少一部分,该方法包括以下步骤:在物体(21)中提供孔(21.1) ); 将锚定元件(1)定位在孔(21.1)中; 将压缩力(4)和机械振动(5)通过耦合面耦合到定位的锚固元件(1)中,由此锚固元件被压缩并且由于距离增大至少局部地压靠在 并且所述热塑性材料在与所述侧壁接触并且被压入所述物体(21)的结构中时至少部分地液化,以在再凝固之后形成与所述侧壁的成形配合连接。