Reinforcing structure of concrete overhead layer

    公开(公告)号:US11186992B2

    公开(公告)日:2021-11-30

    申请号:US16886741

    申请日:2020-05-28

    摘要: The present disclosure relates to a field of construction engineering, and in particular to a reinforcing structure of a concrete overhead layer before a building expires. The reinforcing structure of the concrete overhead layer includes supporting structures, connecting structures, and metal members; wherein the reinforcing structure is configured to reinforce a concrete floor slab and/or a concrete beam; through holes are disposed on the concrete floor slab; each of the supporting structures passes through each of the through holes and the supporting structures are configured to support the concrete floor slab and/or the concrete beam; and each of the connecting structures is configured to fix each of the supporting structures on each of the metal members; each of the metal members is disposed on each of the through holes.

    Self-heat preservation building structure

    公开(公告)号:US10415235B2

    公开(公告)日:2019-09-17

    申请号:US15979691

    申请日:2018-05-15

    摘要: The present utility model relates to a building structure, and in particular to a self-heat preservation building structure applied to extremely severe cold regions. The self-heat preservation building structure adopts a wood material, and comprises an independent foundation, a floor, a wallboard, a ceiling board and a roof board, wherein the independent foundation is disposed on a hard groundwork, and the upper end part of the independent foundation is provided with spigots for mounting wooden pillars; mortises are disposed in the lower ends of the wooden pillars and configured to mount longitudinal and transverse ground beams, and the upper ends of the wooden pillars are provided with criss-cross straight slots which are configured to mount longitudinal and transverse wooden beams; wooden square beams are mounted between the ground beams and between the wooden beams, and the wooden beams are provided with wooden braces; the floor and the ceiling board are respectively paved on the wooden square beams; the wallboard is spliced with the ground beams and the wooden beams in a mortise-tenon manner; the roof board is mounted on the wooden braces; and the wallboard is provided with a window opening for mounting a heat preservation window and a doorway for a wooden door. The self-heat preservation building structure has the following advantages: (1) the mortise-tenon structure is adopted, and (2) the original ecological environment of the extremely severe cold regions is protected.

    SELF-HEAT PRESERVATION BUILDING STRUCTURE
    4.
    发明申请

    公开(公告)号:US20190177967A1

    公开(公告)日:2019-06-13

    申请号:US15979691

    申请日:2018-05-15

    IPC分类号: E04B1/74 E04B1/10 E04B1/00

    摘要: The present utility model relates to a building structure, and in particular to a self-heat preservation building structure applied to extremely severe cold regions. The self-heat preservation building structure adopts a wood material, and comprises an independent foundation, a floor, a wallboard, a ceiling board and a roof board, wherein the independent foundation is disposed on a hard groundwork, and the upper end part of the independent foundation is provided with spigots for mounting wooden pillars; mortises are disposed in the lower ends of the wooden pillars and configured to mount longitudinal and transverse ground beams, and the upper ends of the wooden pillars are provided with criss-cross straight slots which are configured to mount longitudinal and transverse wooden beams; wooden square beams are mounted between the ground beams and between the wooden beams, and the wooden beams are provided with wooden braces; the floor and the ceiling board are respectively paved on the wooden square beams; the wallboard is spliced with the ground beams and the wooden beams in a mortise-tenon manner; the roof board is mounted on the wooden braces; and the wallboard is provided with a window opening for mounting a heat preservation window and a doorway for a wooden door. The self-heat preservation building structure has the following advantages: (1) the mortise-tenon structure is adopted, and (2) the original ecological environment of the extremely severe cold regions is protected.

    Resource measurement and reporting method in long term evolution system
    7.
    发明授权
    Resource measurement and reporting method in long term evolution system 有权
    长期演化体系中的资源测量与报告方法

    公开(公告)号:US08577386B2

    公开(公告)日:2013-11-05

    申请号:US13133794

    申请日:2008-12-30

    申请人: Yin Gao Feng He

    发明人: Yin Gao Feng He

    IPC分类号: H04W72/00

    CPC分类号: H04W24/10

    摘要: A method for measuring and reporting resource in a long term evolution system comprises: a source base station encapsulating a resource status request message and sending the message to a target base station; after receiving the resource status request message, the target base station processing the message, and sending a resource status success response to the source base station if the processing is successful, or else sending a resource status failure response if the processing is failed; the source base station encapsulating at least a message type (2), a measurement request type (3), a source base station global identifier (4) and measurement configuration information (5) in the resource status request message, wherein, the measurement request type (3) is one or more of start, modify and end (7); the measurement configuration information (5) is measurement configuration information (5) in current measurement request type (3). The method makes it convenient to start, modify or end the current measurement by the target base station during network operation after a plurality of resource status measuring and reporting are launched between base stations, and thus reducing the number of information exchange between base stations.

    摘要翻译: 一种用于在长期演进系统中测量和报告资源的方法包括:源基站封装资源状态请求消息并将消息发送到目标基站; 在接收到资源状态请求消息之后,目标基站处理该消息,并且如果处理成功则向源基站发送资源状态成功响应,或者如果处理失败则发送资源状态失败响应; 所述源基站在资源状态请求消息中至少封装消息类型(2),测量请求类型(3),源基站全局标识符(4)和测量配置信息(5),其中,所述测量请求 类型(3)是开始,修改和结束(7)中的一个或多个; 测量配置信息(5)是当前测量请求类型(3)中的测量配置信息(5)。 该方法使得在基站之间启动多个资源状态测量和报告之后,网络操作期间目标基站的启动,修改或结束方便,从而减少基站之间的信息交换次数。