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    • 26. 发明申请
    • LOW-VOLTAGE SMART GLASS
    • 低压智能玻璃
    • WO2018009936A2
    • 2018-01-11
    • PCT/US2017/041387
    • 2017-07-10
    • DIRTT ENVIRONMENTAL SOLUTIONS, INC.
    • SEFFER, Rastislav
    • G02F1/153E06B3/67
    • Embodiments include modular wall systems, smart glass controllers and methods for operating such. In one scenario, a modular wall system is provided which includes a frame with a horizontal stringer. The modular wall system also includes first connectors positioned on the horizontal stringer, and a decorative smart glass pane which includes second connectors configured to attach to the first connectors on the horizontal stringer. The second connectors and the first connectors physically attach the decorative smart glass pane to the modular wall system. A power connector is also included. The power connector is configured to receive a direct current (DC) input voltage from a power source. A power inverter converts the DC input voltage to an alternating current (AC) voltage of less than a threshold maximum number of volts. Furthermore, a smart glass surface is included, which is in communication with an output of the inverter.
    • 实施例包括模块化墙体系统,智能玻璃控制器以及用于操作这些系统的方法。 在一种情况下,提供了包括具有水平纵梁的框架的模块化墙体系统。 模块化墙体系统还包括位于水平纵梁上的第一连接器以及包括第二连接器的装饰性智能玻璃板,该第二连接器构造成附接至水平纵梁上的第一连接器。 第二连接器和第一连接器将装饰性智能玻璃板物理地附接到模块化壁系统。 电源连接器也包括在内。 电力连接器被配置为从电源接收直流(DC)输入电压。 功率逆变器将直流输入电压转换成小于阈值最大伏特数的交流(AC)电压。 此外,还包括一个智能玻璃表面,与变频器的输出端进行通讯。
    • 27. 发明申请
    • MIXED-REALITY ARCHITECTURAL DESIGN ENVIRONMENT
    • 混合现实建筑设计环境
    • WO2017214559A1
    • 2017-12-14
    • PCT/US2017/036838
    • 2017-06-09
    • DIRTT ENVIRONMENTAL SOLUTIONS, INC.
    • LOBERG, Barrie A.HOWELL, JosephBLODGETT, RobertSTANNUS, Simon FrancisHIBBERD, MatthewWEST, Tyler
    • G06T19/00G06T17/00G06T15/10G06F3/01
    • A computer system for managing multiple distinct perspectives within a mixed-reality design environment loads a three-dimensional architectural model into memory. The three-dimensional architectural model is associated with a virtual coordinate system. The three-dimensional architectural model comprises at least one virtual object that is associated with an independently executable software object that comprises independent variables and functions that are specific to a particular architectural element that is represented by the at least one virtual object. The computer system associates the virtual coordinate system with a physical coordinate system within a real-world environment. The computer system transmits to each device of multiple different devices rendering information. The rendering information comprises three-dimensional image data for rendering the three-dimensional architectural model and coordinate information that maps the virtual coordinate system to the physical coordinate system.
    • 用于在混合现实设计环境中管理多个不同视角的计算机系统将三维建筑模型加载到存储器中。 三维建筑模型与虚拟坐标系相关联。 三维体系结构模型包括与独立可执行软件对象相关联的至少一个虚拟对象,该独立可执行软件对象包括独立变量和特定于由至少一个虚拟对象表示的特定体系结构元素的函数。 计算机系统将虚拟坐标系与真实世界环境内的物理坐标系相关联。 计算机系统向多个不同设备的每个设备传输渲染信息。 渲染信息包括用于渲染三维建筑模型的三维图像数据和将虚拟坐标系映射到物理坐标系的坐标信息。
    • 28. 发明申请
    • ANGLED WALL CONNECTOR BRACKET
    • 歪斜的墙连接器支架
    • WO2017214371A1
    • 2017-12-14
    • PCT/US2017/036511
    • 2017-06-08
    • DIRTT ENVIRONMENTAL SOLUTIONS, INC.
    • GOSLING, Geoff
    • E04B2/74E04B1/61
    • A connector bracket is used to connect a second wall module to a first wall module at an intermediate position between opposing sides of the first wall module. The connector bracket can include a first connector plate, having one or more tabs extending therefrom, that connects to a vertical bracket of the second wall module and a second connector plate that connects to a horizontal support member of the first wall module. The connector bracket can additionally include a transition plate connected between the first connector plate and the second connector plate. The connector bracket can allow for the two wall modules to be connected together at right angles, obtuse singles, or acute angles, depending on the orientation and/or configuration of the connector bracket, the second connector bracket, and/or the transition bracket.
    • 连接器支架用于在第一壁模块的相对侧之间的中间位置处将第二壁模块连接到第一壁模块。 连接器支架可以包括第一连接器板和第二连接器板,第一连接器板具有从其延伸的一个或多个突出部,连接到第二壁模块的竖直支架,第二连接器板连接到第一壁模块的水平支撑构件。 连接器支架可另外包括连接在第一连接器板和第二连接器板之间的过渡板。 取决于连接器支架,第二连接器支架和/或过渡支架的取向和/或配置,连接器支架可以允许两个壁模块以直角,钝单或锐角连接在一起。
    • 30. 发明申请
    • ASSOCIATING COMPUTER-EXECUTABLE OBJECTS WITH TIMBER FRAMES WITHIN AN ARCHITECTURAL DESIGN ENVIRONMENT
    • 与建筑设计环境中的木材框架相关的计算机可执行对象
    • WO2015191112A1
    • 2015-12-17
    • PCT/US2015/011105
    • 2015-01-13
    • DIRTT ENVIRONMENTAL SOLUTIONS INC.
    • LOBERG, Barrie, A.
    • E04F19/00
    • G06F17/5004G06F17/11G06F2217/12
    • A computer system can incorporate a timber framework within a variable spatial framework by receiving input to divide the variable spatial framework into one or more independent spaces within the variable spatial framework. Upon receiving input to divide the variable spatial framework, the system can create at least a first independent space and a second independent space based upon the received input. Creating the first independent space and the second independent space can also include associating with at least the first independent space a first independently executable software object. Additionally, the method can include automatically incorporating a digital representation of a first timber framework into the first independent space. The first independently executable software object can determine the characteristics of the first timber framework.
    • 计算机系统可以通过接收输入将可变空间框架划分成可变空间框架内的一个或多个独立空间而在可变空间框架内结合木材框架。 在接收到用于划分可变空间框架的输入时,系统可以基于接收的输入创建至少第一独立空间和第二独立空间。 创建第一独立空间和第二独立空间还可以包括将至少第一独立空间与第一独立可执行软件对象相关联。 此外,该方法可以包括将第一木材框架的数字表示自动并入到第一独立空间中。 第一个可独立执行的软件对象可以确定第一个木材框架的特征。