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    • 2. 发明申请
    • DECKING CLIP
    • 装饰夹
    • WO2015196108A1
    • 2015-12-23
    • PCT/US2015/036747
    • 2015-06-19
    • TEBO, Glenn J.
    • TEBO, Glenn J.
    • F16B2/20F16B2/24F16B15/00
    • E04B1/40B25B23/06B25C3/002E04B1/003E04B5/023E04B5/12E04F15/02183F16B5/0056
    • The present disclosure is directed to a single-sided deck clip that allows an approach to deck board installation with hidden fasteners, and without grooving both edges of a deck board. By not grooving edges, perimeter trim can include one square finished edge on ending pieces. The single-sided clip allows for attaching fasteners through the clip at an angle that penetrates both a deck board and an underlying joist, thus providing a positive connection of decking to joist framing below. In another embodiment, a clip magazine is disclosed that stores, supplies, and assists in installation of single-sided deck clips and fasteners. The clip magazine can hold a plurality fasteners and single-sided deck clips. The magazine allows the single-sided clips and fasteners to be positioned relative to the deck board, and allows fasteners to be aligned with a single-sided clip, and pushed into a deck board during installation.
    • 本公开涉及一种单面甲板夹,其允许通过隐藏的紧固件进入甲板板安装,并且不使槽板的两个边缘开槽。 通过不切割边缘,周边装饰可以包括在结束件上的一个正方形的完成边缘。 单面夹允许以穿透甲板板和底层托梁的角度穿过夹子来连接紧固件,从而在下面的托梁框架上提供正面连接。 在另一个实施例中,公开了存储,供应和协助安装单面甲板夹和紧固件的夹子盒。 夹子盒可以容纳多个紧固件和单面甲板夹。 该杂志允许单面夹子和紧固件相对于甲板板定位,并允许紧固件与单面夹子对齐,并在安装期间推入甲板板。
    • 5. 发明申请
    • DEVICE FOR CONNECTING TWO COMPONENTS SEPARATED BY A GAP AND FOR ABSORBING TRANSVERSE FORCES THAT OCCUR BETWEEN THE COMPONENTS
    • DEVICE用于连接两个由联合个别及组件容纳部之间的部件发生横跨FORCES
    • WO2012025106A2
    • 2012-03-01
    • PCT/DE2011075117
    • 2011-05-23
    • FRANK GMBH & CO KG MAXHANRATH MANFRED
    • HANRATH MANFRED
    • E04B1/48E01C11/14
    • E04B1/483E01C11/14E04B5/023E04C5/163
    • The invention relates to a device for connecting two components separated by a gap, namely a pin-side component and a sleeve-side component, and for absorbing transverse forces that occur between the components, comprising a pin (40), a sleeve (41), a pin-side force deflecting element (60) that encloses the pin in a substantially positive locking manner, and at least one pin-side anchoring bow (44). The pin-side anchoring bow (44) has a loop section (10) and two end sections (44a, 44b), wherein the pin-side anchoring bow (44) wraps around the pin-side force deflecting element (60) in a substantially positive locking manner in the loop section (10) of the pin-side anchoring bow and the end sections (44a, 44b) of the pin-side anchoring bow (44), which are provided in order to be anchored in concrete, extend away from the gap in the direction of the pin-side component in the installed state.
    • 用于通过接头分开的部件,即心轴侧构件和壳侧部件,连接两个和用于从组件之间发生,其包括心轴(40),一套筒(41)的横向力接收装置,心轴基本上描述 主动包围心轴侧力偏转元件60和至少一个心轴侧锚定支架44。 心轴侧锚支架(44)在所述心轴侧Kraftumlenkelement的其环部分(10)具有环形部(10)和两个端部(44A,44B),其中,所述脊侧锚支架(44)(60)大致环绕形状配合和用于锚定在 在接头安装状态下,芯轴侧锚固托架(44)的端部(44a,44b)沿芯轴侧部件的方向远离。
    • 9. 发明申请
    • CONNECTING STRUCTURE
    • 连接结构
    • WO2007105840A1
    • 2007-09-20
    • PCT/KR2006/000913
    • 2006-03-14
    • NINE ARCHITECH CO., LTD.LEE, Jae-Ho
    • LEE, Jae-Ho
    • E04C3/02
    • E04B5/023E04C3/291E04C3/46
    • The present invention relates to a connecting structure including: a node member having an accommodating space formed therein; a lower truss member disposed penetratingly at the lower portion of the node member, the lower truss member being made of a material with tension and compression-resistant rigidity and having a predetermined length; an upper truss member disposed penetratingly at the upper portion of the node member in such a manner as to be spaced apart from the lower truss member, the upper truss member being made of a material with tension and compression-resistant rigidity and having a predetermined length; and a filler adapted to be filled in the node member in such a manner as to be initially injected in a fluid state into the accommodating space of the node member so as to surround the lower truss member and the upper truss member, and then to be hardened as time elapses so as to rigidly couple the lower truss member and the upper truss member therewith.
    • 连接结构技术领域本发明涉及一种连接结构,包括:节点部件,其中形成有容纳空间; 下部桁架构件穿透地设置在节点构件的下部,下部桁架构件由具有张力和抗压刚度并具有预定长度的材料制成; 上部桁架构件以与下部桁架构件间隔开的方式穿透地设置在节点构件的上部处,上部桁架构件由具有拉伸和抗压刚度并且具有预定长度的材料制成 ; 以及填充物,其以这样的方式填充在节点构件中,以便以流体状态初始地注入到节点构件的容纳空间中,以围绕下桁架构件和上桁架构件,然后成为 随着时间流逝而硬化,从而将下桁架构件和上桁架构件刚性地联接在一起。
    • 10. 发明申请
    • BUILDING STRUCTURES WITH CURVED CONDUITS AND MALE TO FEMALE FASTENERS
    • 建筑结构与弯曲的导体和男性与女性紧固件
    • WO2004005640A1
    • 2004-01-15
    • PCT/US2003/012129
    • 2003-04-17
    • ZORNES, David, A.SCHOOF, Craig, C.
    • ZORNES, David, A.SCHOOF, Craig, C.
    • E04B5/04
    • F28F21/02E04B1/02E04B1/14E04B1/6104E04B5/023E04B5/026E04B5/04E04B5/48E04B9/02E04B2001/0069E04B2001/3583E04B2001/6191F24D3/142F24S20/61F28D7/0041Y02B10/20Y02E10/40
    • A hexagon building structure offset layering system uses hexagon structures assembled in an offset layering architecture to construct building walls, floors, roofs, and other structures. Six alignments fastening holes (4) are equidistantly spaced and located on interior panels (1) and (2). The holes (4) provide fastener locations for screwing or bolting through the layers of the hexagon. The holes (4) align with an offset layer of hexagons when assembled in the axial direction. Conduit holes (12) are selectively located depending on the fastening technique selected. Hexagon panels providing curved conduits 1000 and 1002, and 1003 which align when assembled 1004. Radiant fluid heating and cooling tubes applied in flooring, walls, and ceilings for sprinkler systems can not be over curved or they will crack and leak. Hexagon 999 conduits can be curved in a wide range of radius to accommodate any tubing requirement. A layer of radiant infrared coatings are applied to the surfaces to manage heat radiating the heat into the room rather than floor. Since hexagon buildings are built from hexagon building structures (7) without customization, hexagon buildings can be rebuilt, modified, or recycled onto a like building using the same materials.
    • 六角建筑结构偏移分层系统使用在偏移分层结构中组装的六边形结构来构建建筑物墙壁,地板,屋顶和其他结构。 六个对准紧固孔(4)等距间隔开并位于内板(1)和(2)上。 孔(4)提供用于螺纹连接或螺栓穿过六边形层的紧固件位置。 当沿轴向组装时,孔(4)与六边形偏移层对准。 导管孔(12)根据所选择的紧固技术选择性地定位。 六角形面板提供弯曲的导管1000和1002,以及1003,当组装时对准1004.辐射流体加热和冷却管应用于喷洒系统的地板,墙壁和天花板中不能过弯曲或者它们会破裂和泄漏。 Hexagon 999导管可以在宽半径范围内弯曲,以适应任何管道要求。 将一层辐射红外线涂层施加到表面,以管理将热量散发到房间而不是地板的热量。 由于六边形建筑物是由六边形建筑结构(7)建造的,不需要定制,因此六边形建筑物可以使用相同的材​​料重建,修改或回收到类似建筑物上。