会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 61. 发明申请
    • SHOCK ABSORBING FABRIC STRUCTURES
    • 冲击吸收织物结构
    • US20130023173A1
    • 2013-01-24
    • US13627435
    • 2012-09-26
    • YKK CORPORATION OF AMERICA
    • Timothy M. Russell
    • D03D13/00
    • D03D15/08D03D11/00D10B2401/06Y10T442/3024Y10T442/3154Y10T442/3179Y10T442/3301
    • Fabric structures having elongation yarns and ground yarns that form a sheath are provided, with the structure having two connection segments and at least one expansion segment in between the connection segments. Heat treatment of the one or more expansion segments shrinks the length of the elongation yarns during manufacture. A tensile load applied to the fabric structure stretches the elongation yarns and unfolds the gathered sheath. The elongation yarns absorb energy as the fabric structure elongates. In some embodiments, the fabric structure has more than one expansion segment so that the deployment force of the structure is not constant. In some embodiments, the fabric structure includes a band in some portions.
    • 提供了具有形成护套的伸长纱线和研磨纱线的织物结构,其结构具有两个连接段和在连接段之间的至少一个延伸段。 在制造过程中,一个或多个膨胀段的热处理缩短了伸长纱的长度。 施加到织物结构的拉伸载荷拉伸伸长纱并展开收集的护套。 当织物结构伸长时,伸长纱线吸收能量。 在一些实施例中,织物结构具有多于一个的膨胀段,使得结构的展开力不是恒定的。 在一些实施例中,织物结构在一些部分中包括带。
    • 64. 发明授权
    • Sill flashing and end dam assembly
    • 闪烁和结束水坝总成
    • US07874106B2
    • 2011-01-25
    • US12370894
    • 2009-02-13
    • Donald G. PangburnRichard Braunstein
    • Donald G. PangburnRichard Braunstein
    • E06B1/70
    • E06B1/68E06B2001/628Y10T29/49895Y10T29/49947Y10T29/49963
    • Various embodiments of the invention are directed to a sill flashing assembly configured to fit within a lower portion of an opening in a wall. The sill flashing assembly comprises: (1) a central sill flashing member having a substantially horizontal portion and a substantially vertical portion; and (2) at least one end dam member. The substantially vertical portion extends upwardly adjacent an interior edge of the substantially horizontal portion, and the substantially vertical portion defines at least one channel. The end dam member has a planar base and at least one tab extending at an angle greater than zero degrees from an interior edge of the planar base. The tab has a height that is shorter than a height of the interior edge of the planar base, and the tab engages the channel when the end dam member is installed adjacent an end of the central sill flashing member.
    • 本发明的各种实施例涉及一种构造成装配在壁的开口的下部中的门槛闪光组件。 门槛闪光组件包括:(1)具有基本上水平的部分和基本上垂直的部分的中央槛板闪光部件; 和(2)至少一个末端坝构件。 基本上垂直的部分相对于基本上水平的部分的内部边缘向上延伸,并且基本垂直的部分限定至少一个通道。 端部阻挡构件具有平坦的基部和至少一个突出部,其以与平坦基部的内部边缘成大于零度的角度延伸。 突片具有比平面基部的内部边缘的高度更短的高度,并且当端部阻挡构件邻近中心梁闪动构件的端部安装时,突出部接合通道。
    • 67. 发明申请
    • THERMALLY EFFICIENT WINDOW ASSEMBLY
    • 高效的窗户装配
    • US20100175339A1
    • 2010-07-15
    • US12352986
    • 2009-01-13
    • Masanori MoriyaJohn UhlTsutomu ItoRichard Braunstein
    • Masanori MoriyaJohn UhlTsutomu ItoRichard Braunstein
    • E06B3/00E06B3/34
    • E06B7/10E06B2003/26389E06B2003/6223E06B2003/6244E06B2003/6264E06B2007/026
    • A window assembly according to various embodiments includes a frame, a sash, an insulating unit (e.g., one or more glass panels), a glass stop, an elongated frame insulating element slidably disposed on an inner surface of the frame, an elongated sash insulating element slidably disposed on an outer surface of the sash, and an elongated inner sash insulating element slidably disposed on an inner surface of the sash. The elongated frame insulating element, the elongated sash insulating element, and the elongated inner sash insulating element each define a plurality of chambers that extend substantially parallel to a longitudinal axis of each element. These chambers reduce the size of the space between the frame and sash and the size of the space between the sash, the insulating unit, and the glass stop, which results in smaller convection currents within these spaces and a more thermally efficient window assembly.
    • 根据各种实施例的窗户组件包括框架,窗框,绝缘单元(例如,一个或多个玻璃面板),玻璃停止件,可滑动地设置在框架的内表面上的细长框架绝缘元件,细长的窗框绝缘 可滑动地设置在窗框的外表面上的元件,以及可滑动地设置在窗框内表面上的细长内窗扇绝缘元件。 细长的框架绝缘元件,细长的窗框绝缘元件和细长的内部窗扇绝缘元件均限定了大致平行于每个元件的纵向轴线延伸的多个室。 这些室减小了框架和窗框之间的空间尺寸以及窗扇,绝缘单元和玻璃停止件之间的空间的尺寸,这导致在这些空间内较小的对流电流和更加热效率的窗组件。
    • 68. 发明授权
    • Shock absorbing fabric structures
    • 减震织物结构
    • US07665575B2
    • 2010-02-23
    • US11477739
    • 2006-06-29
    • Hajime TanakaTim Russell
    • Hajime TanakaTim Russell
    • A62B35/00
    • D03D3/02A62B35/04D03D11/00D03D11/02
    • A shock absorbing fabric structure is a one-piece webbing. The shocking absorbing fabric structure has a sheath and an elongation member inside of the sheath. The sheath and the elongation member are secured together at spaced apart connection locations and the elongation member is generally not secured to the sheath between the connection locations. Heat treatment shrinks the length of the elongation member. The sheath does not substantially shrink from heat treatment relative to the elongation member and gathers together in an accordion-like arrangement. A tensile load applied to the fabric structure stretches the elongation member and unfolds the gathered sheath. The sheath supports the tensile load when completely unfolded while the elongation member absorbs energy as it stretches or elongates.
    • 吸震织物结构是一体式织带。 令人震惊的吸收织物结构在护套内部具有鞘和伸长部件。 护套和伸长构件在间隔开的连接位置处固定在一起,并且延伸构件通常不固定到连接位置之间的护套。 热处理缩短了伸长部件的长度。 护套相对于伸长构件基本上不会从热处理收缩,并以手风琴状的布置集中在一起。 施加到织物结构的拉伸载荷拉伸延伸部件并展开聚集的护套。 当完全展开时,护套支撑拉伸载荷,而伸长构件在其伸长或伸长时吸收能量。
    • 69. 发明申请
    • SASH WINDOWS
    • US20090265991A1
    • 2009-10-29
    • US12498735
    • 2009-07-07
    • Tsutomu ItoMasanori Moriya
    • Tsutomu ItoMasanori Moriya
    • E05D15/48E05D15/22
    • E06B3/50E05D15/22E05Y2900/148E06B3/5063
    • A sash window includes a support device disposed on a lower end portion of each sash and including a pivot shaft for pivotally supporting the sash relative to a window frame, and a latch device disposed on an upper end portion of the sash for interlocking engagement with each jamb member to lock the sash in position against pivotal movement relative to the window frame. The window frame has a holder member for holding the pivot shaft in position against movement in inward and outward directions of the sash window when the sash is in a fully closed position. A first reinforcement member is mounted in at least one sash rail, and a second reinforcement member is mounted in a portion of each jamb member adapted for engagement with the latch device in the fully closed state of the sash, so as to indirectly reinforce the jamb member portion from inside the jamb member.
    • 窗框包括设置在每个窗框的下端部分上的支撑装置,其包括用于枢转地支撑窗框相对于窗框的枢轴,以及设置在窗框的上端部上的闩锁装置,用于与每个窗框互锁 侧框构件以将窗框锁定在适当位置以防止相对于窗框的枢转运动。 窗框具有保持构件,用于当窗扇处于完全关闭位置时,将支轴保持在适当位置以防止在窗框的向内和向外方向上移动。 第一加强构件安装在至少一个框架轨道中,并且第二加强构件安装在每个侧柱构件的一部分中,适于在窗框的完全关闭状态下与闩锁装置接合,以间接加强侧杆 会员部分从侧面的成员。
    • 70. 发明授权
    • Thermally broken sunshade anchors
    • 热损坏的遮阳板锚
    • US07600350B2
    • 2009-10-13
    • US11524976
    • 2006-09-21
    • Richard Braunstein
    • Richard Braunstein
    • E04D13/18E04H14/00
    • E04F10/08E04B2/96Y02B10/20
    • A thermally broken sunshade anchor can attach a sunshade to a mullion of a curtain wall of a building structure. The thermally broken sunshade anchor has a body for connection to the sunshade, a wall attachment member for attachment to the curtain wall, and a thermal break between the body and the wall attachment member. The thermal break is positioned adjacent a thermal break location portion of the body and adjacent a thermal break location portion of the wall attachment member. The thermal break resists heat transfer such that the body and the wall attachment member are substantially thermally isolated from each other by the thermal break. The thermal break can be formed by pour and debridge processes.
    • 热破碎的遮阳板锚可以将遮阳板附接到建筑结构的幕墙的竖框。 热破碎的遮阳板锚具有用于连接到遮阳板的主体,用于附接到幕墙的壁附接构件以及主体和壁附接构件之间的热断裂。 热断裂位于主体的热断裂位置附近并且邻近壁附接构件的热断裂位置部分。 热断裂抵抗热传递,使得主体和壁附接构件通过热断裂基本上彼此热隔离。 热断裂可以通过浇注和脱桥工艺形成。