• 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:
    The invention relates to a connecting element (18) for attaching a bridge (8) in a module-based building system. The drawbridge (8) has at least two parallel main beams (9) with associated secondary beams (10) and a plate (11) and each main beam (9) is fixed in an upper crossbeam (12) by means of fastening elements (18) which have a disc part (14 ) with a number of fixed holes (15) for connection to the main beam (9). Upper and lower mounting angles (16 and 17, respectively) are arranged at one end of the disc part (14) and are provided with mounting holes (16a, 16b; 17a, 17b) for connection with the upper crossbeam (12). The purpose of the invention is to simplify the assembly of the connecting element. This is achieved by shaping at least one of the mounting holes (16a, 16b; 17a, 17b) in the mounting angles as an elongated circle. (Fig. 6)
    公开号:SE535838C2
    申请号:SE1100087
    申请日:2011-02-10
    公开日:2013-01-08
    发明作者:Stein Hofstad
    申请人:Stein Hofstad;
    IPC主号:
    专利说明:

    535 838 2 'must therefore be possible, the cross member 12 must be adjusted in one way or another.
    The connecting element 13 has a plate part 14 with a number of fastening holes 15 for fastening in a secondary beam 10. The example shown has four fastening holes 15. One end of the plate part 14 is provided with upper fastening angles 16 and lower fastening angles 17. The fastening angles 16, 17 are provided with a number retaining holes 16a, 16b; 17a, 17b for fastening between the two beams forming a main beam 9.
    In an embodiment of the present invention, an alternative connecting element 18 is provided with upper and lower recesses in the form of semicircular recesses 19. With this design, the attachment becomes more secure by forming a larger abutment surface against the beams which are to be fastened perpendicular to each other. This is shown in fi g 4. The rigidity of the beams is optimized by the beams being provided with inwardly directed edges 20, the recesses 19 in the connecting element 18 providing space for the edges 20. At the same time the connecting element 18 itself becomes stronger and stiffer by allowing the space provided by the recesses 19 greater width outside the recesses. Even in this embodiment, however, an inclination of the upper cross member 12 is required.
    Furthermore: the fastening holes 16a, 16b in the upper fastening angle 16 are designed in a slightly different way.
    One retaining hole 16a is circular while the other retaining hole 16b is formed as an extended circle. The extension is made in the longitudinal direction of the mounting angle 16. The shape of the second retaining hole 16b is intended to simplify the installation of the connecting element 18 by allowing a certain wing knob. The mounting holes 17a, 17b in the lower fixed angle 17 are also shaped as extended circles, but the extension is made transversely relative to the longitudinal direction of the lower mounting angle 17.
    Fig. 5 shows an assembly where the connecting element 18 is shown in mounted position before the main beam 9 is connected to the cross beam 12.
    Fig. 6 shows a preferred embodiment of the connecting element 18 according to the invention. The connecting element 18 is shown mounted on a crossbeam 12, which is shown here in section.
    The plate part 14 of the connecting element 18 has a first portion 21, which is angled relative to a second portion 22. The magnitude of the angle between the two portions 21, 22 is shown at a breaking point 23. The angle in question determines the pitch of the bridge 8 to be connected. with the cross member 12 by means of the connecting element 18.
    On the opposite side of the connecting element 18 relative to the breaking point 23, the connecting element is limited by a first side surface 24, which is in the same angular relationship to a second side surface 25 as the angular relationship at the breaking point 23. A transition surface 26 is arranged between the first side surface 24 and the second side surface 25 and is such that the outer boundary surface of the second portion 22 enters between the edges 20 of the crossbeam 12.
    The connecting element 18 is further provided with upper and lower fastening angles 16, 17 in the same way as the known connecting element 13. Furthermore, the connecting element is provided with a number of holes 27 for fixing in the main beam 9 in the carriageway 8. The holes 27 are arranged on each side of the connecting element 18. The hole shows three holes on each side.
    According to a further developed embodiment of the present invention, a variant of the connecting element 18 shown in Fig. 5 can also be made with upper and lower recesses in the same way as in the straight connecting element 18 shown in Fig. 4. With such an embodiment, the connecting element becomes stronger and stiffer than the connecting element 18 shown in Fig. 5, at the same time as it is not necessary to tilt the cross beam '12 with which the connecting element 18, and thus the drive bridge 9, is connected. This design is not shown in the drawing.
    权利要求:
    Claims (5)
    [1]
    Connecting element (18) for attaching a bridge (8) in a modular building system, the bridge (8) having at least two parallel main beams (9) with associated secondary beams (10) and a plate (11) and each main beam ( 9) is an upper cross beam (12) by means of fastening elements (18) which have a plate part (14) with a number of fastening holes (15) for connection to the main beam (9) and wherein upper and lower fixed angles (16 and 17, respectively) are arranged at one end of the disc part (14) and are provided with fastening holes (16a, 16b; 17a, 17b) for connection to the upper cross beam (12), wherein at least one of the fastening holes (16a, 16b; 17a, 17b) is shaped like an elongated circle, characterized in that the connecting element (18). plate part (14) is provided with upper and lower recesses (19), which are shaped as semicircular recesses, into which inwardly directed edges of a connecting beam can be inserted.
    [2]
    Connecting element according to claim 1; characterized in that one of the fastening holes (16a) on the upper fixed angle (16) is circular while the other fixed hole (16b) on the upper fixed angle (16) is formed as an elongated circle in the longitudinal direction of the fixed angle (16).
    [3]
    Connecting element according to Claim 1 or 2, characterized in that the fastening holes (17a, 17b) in the lower mounting angle (17) are formed as elongated circles in the transverse direction relative to the longitudinal direction of the lower test angle (17).
    [4]
    Connecting element according to one of Claims 1 to 3, characterized in that the plate part (14) of the connecting element (18) has a first portion (21) which is arranged at an angle relative to a second portion (22), a breakpoint (23) defines the angle between the portions (2 1, 22).
    [5]
    Connecting element according to Claim 4, characterized in that the plate (14) of the connecting element (18) on the opposite side of the relative breaking point (23) is delimited by a first side surface (24) which is in the same angular relationship as the angle at the breaking point (23). to a second side surface (25), and that a transition surface (26) is arranged between the first side surface (24) and the second side surface (25) in such a way that the outer limiting surface of the second portion (22) enters between the edges (20) of the crossbeam (12).
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    同族专利:
    公开号 | 公开日
    NO334759B1|2014-05-19|
    SE1100087A1|2011-08-13|
    NO20100219A1|2011-08-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US5127760A|1990-07-26|1992-07-07|Brady Todd A|Vertically slotted header|
    DK36895A|1995-04-03|1996-10-25|Fiberline Composites A S|Bracket series for assembly of I- or U-beams|
    NO319797B1|2002-04-25|2005-09-19|Stein Hofstad|Module-based building system|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    NO20100219A|NO334759B1|2010-02-12|2010-02-12|Bracket for mounting beams in a modular building system.|
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