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    • 21. 发明申请
    • RECORDING MEDIUM OVERTURNING MECHANISM AND RECORDING MEDIUM PROCESSING APPARATUS USING THE SAME
    • 记录介质超声机械和记录介质加工设备
    • US20120119438A1
    • 2012-05-17
    • US13376031
    • 2009-07-23
    • Ming GaoZhenxing ZhaoZhigang XuQiangzi CongTianxin Jiang
    • Ming GaoZhenxing ZhaoZhigang XuQiangzi CongTianxin Jiang
    • B65H7/06B65H5/06
    • B65H15/00B42D25/369B42D25/48B65H5/38B65H2301/33214B65H2301/33312B65H2701/1936G03G15/5029G03G15/65G03G2215/007
    • The present invention provides a recording medium overturning mechanism, comprising: a bracket (100); an entry (50) and an exit (60), arranged in the bracket (100); a first channel (10), communicating the entry (50) with the exit (60) to convey a recording medium which does not need to be overturned; a second channel (20), communicating with the entry (50) to convey a recording medium which needs to be overturned; a third channel (30), communicating with the exit (60) and the second channel (20) to convey the overturned recording medium, wherein the first channel (10), the second channel (20) and the third channel (30) are basically arranged in an inverted triangle and joined with each other; a channel switching mechanism (40), arranged on the bracket (100) and located at a joining area between the first channel (10) and the second channel (20); and an overturning roller (70), arranged on the bracket (100) and located at a joining area between the second channel (20) and the third channel (30), the overturning roller (70) is driven by a motor (M), and the overturning roller (70) firstly rotates in a first direction to convey the recording medium away from the second channel (20), and then rotates in a direction opposite to the first direction to send the recording medium into the third channel (30). The present invention is simple in structure, small in volume and low in cost.
    • 本发明提供了一种记录介质翻转机构,包括:支架(100); 布置在支架(100)中的入口(50)和出口(60); 第一通道(10),使入口(50)与出口(60)通信,以传送不需要翻转的记录介质; 第二通道(20),与入口(50)通信以传送需要翻转的记录介质; 第三通道(30),与出口(60)和第二通道(20)连通以传送翻转的记录介质,其中第一通道(10),第二通道(20)和第三通道(30)是 基本上排列成倒三角形并相互连接; 通道切换机构(40),布置在支架(100)上并且位于第一通道(10)和第二通道(20)之间的接合区域处; 以及设置在所述支架(100)上且位于所述第二通道(20)和所述第三通道(30)之间的接合区域处的翻转辊(70),所述翻转辊(70)由马达(M)驱动, ,并且翻转辊(70)首先沿第一方向旋转以将记录介质输送离开第二通道(20),然后沿与第一方向相反的方向旋转,以将记录介质发送到第三通道(30 )。 本发明结构简单,体积小,成本低。
    • 22. 发明申请
    • SHEET MEDIUM PROCESSING DEVICE
    • 薄板加工设备
    • US20110309565A1
    • 2011-12-22
    • US13148927
    • 2010-02-09
    • Qiangzi CongMing GaoTao GaoTianxin JiangKai Liu
    • Qiangzi CongMing GaoTao GaoTianxin JiangKai Liu
    • B65H5/06
    • B65H31/3027B65H29/14B65H29/62B65H31/02B65H2301/4212B65H2301/4213B65H2403/51B65H2404/143B65H2404/166B65H2404/2613B65H2404/2614B65H2404/2693B65H2404/611B65H2404/6942B65H2405/1124B65H2701/1912
    • A sheet medium processing device comprises a housing, a feeding mechanism (1) mounted on the housing, a stacking mechanism (2) and a switching mechanism (3). The stacking mechanism (2), which is located downstream of the feeding mechanism (1), comprises an upper channel (20), a lower channel (21) and a channel driving mechanism (22). The lower channel is fixedly connected with the housing, and the upper channel is hinged with the housing with one end thereof separatable from or contactable with the lower channel. The channel driving mechanism is used to drive the upper and lower channels to move synchronously to transport sheet mediums. The switching mechanism (3) comprises a first cam (30) and a cam driving mechanism (31), wherein the cam is joined with the upper channel to drive the upper channel to rotate. Different transporting directions are formed by adjusting the position relationship between the upper channel and the lower channel of the stacking mechanism using the switching mechanism and thus sheet mediums are transported to different destinations according to specific requirements.
    • 片介质处理装置包括壳体,安装在壳体上的进给机构(1),堆叠机构(2)和切换机构(3)。 位于进给机构(1)下游的堆垛机构(2)包括上通道(20),下通道(21)和通道驱动机构(22)。 下部通道与壳体固定连接,上部通道与壳体铰接,其一端可与下部通道分离或接触。 通道驱动机构用于驱动上下通道与传送片介质同步移动。 切换机构(3)包括第一凸轮(30)和凸轮驱动机构(31),其中凸轮与上通道接合以驱动上通道旋转。 通过使用切换机构调整堆叠机构的上通道和下通道之间的位置关系形成不同的输送方向,因此根据具体要求将片材介质输送到不同的目的地。
    • 23. 发明申请
    • Methods, systems, and computer program products for performing structural screening
    • 用于执行结构筛选的方法,系统和计算机程序产品
    • US20110106457A1
    • 2011-05-05
    • US11285337
    • 2005-11-21
    • Richard C. McNealyMing GaoMohammed Jaarah
    • Richard C. McNealyMing GaoMohammed Jaarah
    • G06F19/00G01N29/04
    • G01N29/043G01N29/4427G01N2291/0258
    • Methods, systems, and computer program products for performing structural screening. Methods include applying pre-defined filter criteria to measurements resulting from an inspected structure operable for eliminating measurement data falling below a designated threshold. Methods further include identifying a baseline defect size associated with the inspected structure. The baseline defect size indicates a largest defect capable of being undetected during inspection. Methods also include identifying tolerance levels relating to the inspected structures factoring in the baseline defect size and attributes of the inspected structure, comparing results of the applying pre-defined filter criteria with tolerance levels identified, and determining a risk of cracking for the inspected structure based upon the comparing.
    • 用于执行结构筛选的方法,系统和计算机程序产品。 方法包括将预定义的过滤标准应用于可检测结构的测量结果,该检查结构可用于消除低于指定阈值的测量数据。 方法还包括识别与检查结构相关联的基线缺陷大小。 基线缺陷尺寸表示在检查期间未被检测到的最大缺陷。 方法还包括确定与被检查结构相关的耐受水平,分为基准缺陷尺寸和被检查结构的属性,比较应用预定义过滤器标准与识别的耐受性水平的结果,并确定基于检查结构的开裂风险 比较。
    • 24. 发明授权
    • Method for improved crack detection and discrimination using circumferential magnetic flux leakage
    • 使用周向磁通泄漏改善裂纹检测和辨别的方法
    • US07706988B2
    • 2010-04-27
    • US12075903
    • 2008-03-14
    • Richard Clark McNealyMing Gao
    • Richard Clark McNealyMing Gao
    • G06F19/00G01N27/00
    • G01N27/82
    • A method of predicting at least one physical change in crack geometry of a crack in a pipeline based on in-line inspection operating pressure is presented. In one method, a first test on a pipeline is performed at a first pressure, which obtains a first set of test data. A second test is performed on the pipeline at a second pressure, obtaining a second set of test data. The first and second sets of test data are compared for any difference. A run comparison software processing device may be employed. In other methods, finite element analysis of crack-like dimensions is performed to predict Crack Mouth Opening Displacement (CMOD) for a given set of crack dimensions for a surface-breaking crack and inline pipe inspection operating run pressure. Another method predicts probability of detection of a crack associated with a given CMOD as a function of pressure in successive inspections.
    • 提出了一种基于在线检测操作压力预测管道裂纹裂纹几何形状的至少一种物理变化的方法。 在一种方法中,在第一压力下执行管道上的第一测试,其获得第一组测试数据。 在管道上以第二压力执行第二测试,获得第二组测试数据。 比较第一组和第二组测试数据的差异。 可以采用运行比较软件处理装置。 在其他方法中,进行裂纹尺寸的有限元分析以预测裂纹开口位移(CMOD),用于破裂裂纹和管线检查操作运行压力的一组给定的裂纹尺寸。 另一种方法预测在连续检查中作为压力的函数检测与给定CMOD相关联的裂纹的概率。
    • 27. 发明授权
    • Distribution method, operation method and system of application system in mobile communication network
    • 移动通信网络应用系统的分布方式,操作方法和系统
    • US08478350B2
    • 2013-07-02
    • US12810515
    • 2008-05-23
    • Jun LiBibo QinHong XieMing Gao
    • Jun LiBibo QinHong XieMing Gao
    • H04W40/00
    • H04L67/2823H04L67/04H04L67/2828H04W76/10
    • A distribution method and an operation method and system of application system in mobile communication network are disclosed. The methods are adapted to mobile information field, which include: a mobile communication terminal establishes connection with an application system distribution platform through a mobile communication network; the mobile communication terminal uses the application system by an application system human-computer interaction module installed on the application system distribution platform; the application system and the human-computer interaction module run; an output process module of the application system distribution platform obtains a screen display image data of the human-computer interaction module, and sends it to the mobile communication terminal; the mobile communication terminal displays the screen display image of the human-computer interaction module, and sends an input information to the human-computer interaction module; step C and step E are repeated until the mobile communication terminal exit from the operation of the application system. The present invention can make an application system distributed on a mobile communication terminal, therefore, the network requirement is little, and the experience of the user is high.
    • 披露了移动通信网络应用系统的分布方式及操作方法及系统。 该方法适用于移动信息领域,包括:移动通信终端通过移动通信网络与应用系统分发平台建立连接; 移动通信终端通过安装在应用系统分发平台上的应用系统人机交互模块使用应用系统; 应用系统和人机交互模块运行; 应用系统分发平台的输出处理模块获得人机交互模块的屏幕显示图像数据,并将其发送到移动通信终端; 移动通信终端显示人机交互模块的画面显示图像,并向人机交互模块发送输入信息; 重复步骤C和步骤E,直到移动通信终端退出应用系统的操作。 本发明可以使应用系统分布在移动通信终端上,因此网络需求很小,用户的体验也很高。
    • 28. 发明授权
    • Recording medium overturning mechanism and recording medium processing apparatus using the same
    • 记录介质翻转机构和使用其的记录介质处理装置
    • US08382108B2
    • 2013-02-26
    • US13376031
    • 2010-07-23
    • Ming GaoZhenxing ZhaoZhigang XuQiangzi CongTianxin Jiang
    • Ming GaoZhenxing ZhaoZhigang XuQiangzi CongTianxin Jiang
    • B65H29/00B65H39/10
    • B65H15/00B42D25/369B42D25/48B65H5/38B65H2301/33214B65H2301/33312B65H2701/1936G03G15/5029G03G15/65G03G2215/007
    • The present invention provides a recording medium overturning mechanism, comprising: a bracket (100); an entry (50) and an exit (60), arranged in the bracket (100); a first channel (10), communicating the entry (50) with the exit (60) to convey a recording medium which does not need to be overturned; a second channel (20), communicating with the entry (50) to convey a recording medium which needs to be overturned; a third channel (30), communicating with the exit (60) and the second channel (20) to convey the overturned recording medium, wherein the first channel (10), the second channel (20) and the third channel (30) are basically arranged in an inverted triangle and joined with each other; a channel switching mechanism (40), arranged on the bracket (100) and located at a joining area between the first channel (10) and the second channel (20); and an overturning roller (70), arranged on the bracket (100) and located at a joining area between the second channel (20) and the third channel (30), the overturning roller (70) is driven by a motor (M), and the overturning roller (70) firstly rotates in a first direction to convey the recording medium away from the second channel (20), and then rotates in a direction opposite to the first direction to send the recording medium into the third channel (30). The present invention is simple in structure, small in volume and low in cost.
    • 本发明提供了一种记录介质翻转机构,包括:支架(100); 布置在支架(100)中的入口(50)和出口(60); 第一通道(10),使入口(50)与出口(60)通信,以传送不需要翻转的记录介质; 第二通道(20),与入口(50)通信以传送需要翻转的记录介质; 第三通道(30),与出口(60)和第二通道(20)连通以传送翻转的记录介质,其中第一通道(10),第二通道(20)和第三通道(30)是 基本上排列成倒三角形并相互连接; 通道切换机构(40),布置在支架(100)上并且位于第一通道(10)和第二通道(20)之间的接合区域处; 以及设置在所述支架(100)上且位于所述第二通道(20)和所述第三通道(30)之间的接合区域处的翻转辊(70),所述翻转辊(70)由马达(M)驱动, ,并且翻转辊(70)首先沿第一方向旋转以将记录介质输送离开第二通道(20),然后沿与第一方向相反的方向旋转,以将记录介质发送到第三通道(30 )。 本发明结构简单,体积小,成本低。
    • 29. 发明申请
    • DISTRIBUTION METHOD, OPERATION METHOD AND SYSTEM OF APPLICATION SYSTEM IN MOBILE COMMUNICATION NETWORK
    • 移动通信网络中的应用系统的分布方法,操作方法和系统
    • US20100279678A1
    • 2010-11-04
    • US12810515
    • 2008-05-23
    • Jun LiBibo QinHong XieMing Gao
    • Jun LiBibo QinHong XieMing Gao
    • H04W40/00
    • H04L67/2823H04L67/04H04L67/2828H04W76/10
    • A distribution method and an operation method and system of application system in mobile communication network are disclosed. The methods are adapted to mobile information field, which include: a mobile communication terminal establishes connection with an application system distribution platform through a mobile communication network; the mobile communication terminal uses the application system by an application system human-computer interaction module installed on the application system distribution platform; the application system and the human-computer interaction module run; an output process module of the application system distribution platform obtains a screen display image data of the human-computer interaction module, and sends it to the mobile communication terminal; the mobile communication terminal displays the screen display image of the human-computer interaction module, and sends an input information to the human-computer interaction module; step C and step E are repeated until the mobile communication terminal exit from the operation of the application system. The present invention can make an application system distributed on a mobile communication terminal, therefore, the network requirement is little, and the experience of the user is high.
    • 披露了移动通信网络应用系统的分布方式及操作方法及系统。 该方法适用于移动信息领域,包括:移动通信终端通过移动通信网络与应用系统分发平台建立连接; 移动通信终端通过安装在应用系统分发平台上的应用系统人机交互模块使用应用系统; 应用系统和人机交互模块运行; 应用系统分发平台的输出处理模块获得人机交互模块的屏幕显示图像数据,并将其发送到移动通信终端; 移动通信终端显示人机交互模块的画面显示图像,并向人机交互模块发送输入信息; 重复步骤C和步骤E,直到移动通信终端退出应用系统的操作。 本发明可以使应用系统分布在移动通信终端上,因此网络需求很小,用户的体验也很高。