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    • 86. 发明授权
    • Point-based customer tracking and maintenance incentive system
    • 基于点的客户跟踪和维护激励系统
    • US07975049B2
    • 2011-07-05
    • US12708193
    • 2010-02-18
    • Hiroshi NishikawaYouichi ArakiKiichi Hama
    • Hiroshi NishikawaYouichi ArakiKiichi Hama
    • G06F15/173
    • G06Q10/10G06Q10/20G06Q30/02G06Q30/0207G06Q30/0208G06Q30/0212
    • A computer terminal connected to a manufacturing apparatus as an object of the maintenance management is connected to a server machine providing a maintenance management service by a network, enabling bi-directional communication. The computer terminal transmits maintenance information including a kind of a maintenance method executed at the customer side to the server machine. The server machine acquires the kind of the maintenance method from the maintenance information received from the computer terminal, retrieves points corresponding to the kind of the maintenance method, and stores the retrieved points in a maintenance point storage unit. More points are set for more time consuming maintenance. This can encourage the customer to perform more time consuming maintenance on the manufacturing apparatus in order to obtain more points.
    • 连接到作为维护管理对象的制造装置的计算机终端连接到由网络提供维护管理服务的服务器机器,从而实现双向通信。 计算机终端将包括在客户端执行的一种维护方法的维护信息发送到服务器机器。 服务器机器从从计算机终端接收的维护信息中获取维护方法的种类,检索与维护方法的种类对应的点,并将检索到的点存储在维护点存储单元中。 更多的点被设置为更加耗时的维护。 这可以鼓励客户在制造设备上执行更多的耗时维护,以获得更多的积分。
    • 87. 发明授权
    • CAD program, structure design system, and structure design method
    • CAD程序,结构设计系统和结构设计方法
    • US07974817B2
    • 2011-07-05
    • US12326980
    • 2008-12-03
    • Hiroshi NishikawaMasahiro Akiyama
    • Hiroshi NishikawaMasahiro Akiyama
    • G06F17/50
    • G06T19/00G06F17/50Y10S715/964
    • A computer acquires maximum lengths of a structure as measured along X-axis, Y-axis, and Z-axis directions, and acquires numbers of divisions of line segments which extend along the X-axis, Y-axis, and Z-axis directions, respectively, and have the maximum lengths, respectively. The computer then calculates a basic shape, which is the shape of a rectangular parallelepiped divided into a three-dimensional grid, on the basis of the maximum lengths and the numbers of divisions. The computer creates a basic frame of the structure from the basic shape by deleting a selected line, and adding a line between two selected grid points. The computer calculates structure data, which are three-dimensional data representing the structure, by arranging frame members, which are represented by three-dimensional frame member data, along lines between the grid points of the basic frame. The computer then outputs a drawing of the structure from the structure data.
    • 计算机获取沿X轴,Y轴和Z轴方向测量的结构的最大长度,并且获取沿X轴,Y轴和Z轴方向延伸的线段的分割数 ,分别具有最大长度。 然后计算机基于最大长度和分割数来计算基本形状,其为分成三维网格的长方体的形状。 计算机通过删除选定的行,并在两个选定的网格点之间添加一条线,从基本形状创建结构的基本框架。 通过沿着基本帧的网格点之间的线排列由三维帧成员数据表示的帧成员,计算作为表示结构的三维数据的结构数据。 然后,计算机从结构数据输出结构图。
    • 88. 发明申请
    • Screw Driven Conveyance Device
    • 螺杆驱动输送装置
    • US20100000843A1
    • 2010-01-07
    • US12498078
    • 2009-07-06
    • Hiroshi NishikawaTeruaki Nabeta
    • Hiroshi NishikawaTeruaki Nabeta
    • B65G33/26
    • B65G35/066B65G33/04
    • A screw driven conveyance device has a conveyance carriage driven continuously and smoothly irrespective of the presence of an air space between adjacent screw shafts. Shorter auxiliary screw shafts have a pitch equal to a pitch of the screw shaft and are placed in juxtaposition with the screw shafts. The conveyance carriage has a follower roller engaged with the screw shaft and an auxiliary follower roller engaged with the auxiliary screw shaft by deviating a position in an axial direction of the screw shaft. While the follower roller moves through the air space, the auxiliary follower roller is engaged with the auxiliary screw shaft.
    • 螺杆驱动输送装置具有连续且平稳地驱动的输送托架,而不管相邻螺杆之间是否存在空气间隙。 较短的辅助螺杆轴的螺距等于螺杆轴的螺距,并与螺杆轴并列放置。 传送台具有与螺杆轴接合的从动辊和通过偏离螺杆轴的轴向位置而与辅助螺杆轴接合的辅助从动辊。 当从动辊移动通过空气空间时,辅助从动辊与辅助螺杆轴接合。
    • 89. 发明申请
    • CAD PROGRAM, STRUCTURE DESIGN SYSTEM, AND STRUCTURE DESIGN METHOD
    • CAD程序,结构设计系统和结构设计方法
    • US20090319237A1
    • 2009-12-24
    • US12326980
    • 2008-12-03
    • Hiroshi NishikawaMasahiro Akiyama
    • Hiroshi NishikawaMasahiro Akiyama
    • G06F17/50
    • G06T19/00G06F17/50Y10S715/964
    • A computer acquires maximum lengths of a structure as measured along X-axis, Y-axis, and Z-axis directions, and acquires numbers of divisions of line segments which extend along the X-axis, Y-axis, and Z-axis directions, respectively, and have the maximum lengths, respectively. The computer then calculates a basic shape, which is the shape of a rectangular parallelepiped divided into a three-dimensional grid, on the basis of the maximum lengths and the numbers of divisions. The computer creates a basic frame of the structure from the basic shape by deleting a selected line, and adding a line between two selected grid points. The computer calculates structure data, which are three-dimensional data representing the structure, by arranging frame members, which are represented by three-dimensional frame member data, along lines between the grid points of the basic frame. The computer then outputs a drawing of the structure from the structure data.
    • 计算机获取沿X轴,Y轴和Z轴方向测量的结构的最大长度,并且获取沿X轴,Y轴和Z轴方向延伸的线段的分割数 ,分别具有最大长度。 然后计算机基于最大长度和分割数来计算基本形状,其为分成三维网格的长方体的形状。 计算机通过删除选定的行,并在两个选定的网格点之间添加一条线,从基本形状创建结构的基本框架。 通过沿着基本帧的网格点之间的线排列由三维帧成员数据表示的帧成员,计算作为表示结构的三维数据的结构数据。 然后,计算机从结构数据输出结构图。