公开(公告)号：US20110107675A1

公开(公告)日：2011-05-12

申请号：US12945238

申请日：2010-11-12

Applicant: Christian BOURGET

Inventor： Christian BOURGET

IPC: E05F15/04 ,  E05D11/10 ,  E05D7/00

CPC classification number: E05F15/614 ,  E05D7/06 ,  E05Y2201/434 ,  E05Y2201/71 ,  E05Y2600/10 ,  E05Y2800/232 ,  E05Y2900/132 ,  Y10T16/54

Abstract: Motorized split-hinge device for a very heavy double door, designed to be motorized and consisting of at least one flap or panel (1) that is mounted to pivot, around an essentially vertical axis of rotation, on a frame (2), comprising a stationary split-hinge part (3) that is integral with said frame (2) and a movable split-hinge part (4) that is integral with said flap (1) and mounted in rotation relative to said stationary split-hinge part (3) around a pivoting shaft.The movable split-hinge part (4) comprises a drive mechanism that is driven by a motor unit (7) that is able to drive said movable split-hinge part (4) in rotation around its pivoting shaft and starting said flap (1) moving by pivoting when opening or closing, whereby said motor unit (7), on the one hand, is mounted in a removable manner on said drive mechanism and on a stationary part (3) of said door, and, on the other hand, is kept in drive position of said mechanism with anti-rotational locking, optionally with radial play, relative to said flap (1).

Abstract translation: 用于非常重的双门的电动分裂铰链装置，其被设计为电动的并且由至少一个翼片或面板（1）组成，其安装成围绕基本上垂直的旋转轴线枢转在框架（2）上，包括 与所述框架（2）成一体的固定的分裂铰链部分（3）和与所述翼片（1）成一体并且相对于所述固定的分裂铰链部分旋转安装的可移动的分裂铰链部分（4） 3）围绕枢转轴。 可移动的分叉铰链部分（4）包括驱动机构，该驱动机构由马达单元（7）驱动，马达单元能够驱动所述可动分接铰链部分（4）围绕其枢转轴旋转并启动所述翼片（1） 通过在打开或关闭时枢转移动，由此所述马达单元（7）一方面以可拆卸的方式安装在所述驱动机构和所述门的静止部分（3）上，另一方面， 被保持在所述机构的驱动位置，相对于所述翼片（1），具有防旋转锁定，任选地具有径向游隙。

公开(公告)号：US20110107677A1

公开(公告)日：2011-05-12

申请号：US12945208

申请日：2010-11-12

Applicant: Christian BOURGET

Inventor： Christian BOURGET

IPC: E05D11/04 ,  E06B3/40

CPC classification number: E05D7/06 ,  E05D11/04 ,  E05F15/614 ,  E05Y2900/132 ,  Y10T16/5377

Abstract: An oscillating-mount split-hinge device designed to be fitted on a very heavy door that includes at least one flap or panel mounted to pivot on a frame, includes at least one lower split-hinge for supporting at least the bulk of the load of the flap of the door and at least one upper split-hinge to form an anti-tilting holding point and axial guide of the flap, whereby each lower or upper split-hinge, includes a stationary split-hinge part integral with the frame and a movable split-hinge part, respectively, integral with the flap, and a pivoting shaft integral with the frame, or the flap, to guide in rotation the movable split-hinge part relative to the stationary split-hinge part around the pivoting shaft, by insertion of roller bearing elements that can allow an angular lack of coaxiality on the stationary split-hinge part relative to the movable split-hinge part of each so-called lower split-hinge and/or upper split-hinge.

Abstract translation: 设置成安装在非常重的门上的振动安装分离铰链装置，其包括至少一个安装成在框架上枢转的挡板或面板，包括至少一个下分离铰链，用于至少支撑 门的翼片和至少一个上分裂铰链以形成翼片的防倾斜保持点和轴向引导件，由此每个下或上分裂铰链包括与框架一体的固定分离铰链部分和 分别与翼片一体的可动分裂铰链部分，以及与框架或翼片一体的枢转轴，以使可移动的分裂铰链部分相对于围绕枢转轴的静止分离铰链部分旋转，由 插入滚子轴承元件，其可以允许相对于每个所谓的下分裂铰链和/或上部分离铰链的可移动分开铰链部分在静态分裂铰链部分上角度上没有同轴度。

公开(公告)号：US20100142943A1

公开(公告)日：2010-06-10

申请号：US12623711

申请日：2009-11-23

Applicant: Michael Y. FRANKEL ,  Loudon T. BLAIR ,  Christian BOURGET ,  Lyndon Y. ONG

Inventor： Michael Y. FRANKEL ,  Loudon T. BLAIR ,  Christian BOURGET ,  Lyndon Y. ONG

IPC: H04B10/08

CPC classification number: H04B10/0795 ,  H04J14/0257 ,  H04J14/0258 ,  H04J14/0268 ,  H04J14/0269 ,  H04J14/0271 ,  H04J14/0284

Abstract: The present disclosure provides dynamic performance monitoring systems and methods for optical networks to ascertain optical network health in a flexible and accurate manner. The present invention introduces accurate estimations for optical channel performance characteristics based either on existing channels or with a dynamic optical probe configured to measure characteristics on unequipped wavelengths. Advantageously, the dynamic performance monitoring systems and methods introduce the ability to determine physical layer viability in addition to logical layer viability.

Abstract translation: 本公开提供了用于光网络的动态性能监视系统和方法，以灵活和准确的方式确定光网络健康。 本发明基于现有信道或配置成测量未装配波长上的特性的动态光学探针引入对于光通道性能特性的精确估计。 有利地，动态性能监视系统和方法除了逻辑层可行性之外还引入了确定物理层存活能力的能力。