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    • 1. 发明申请
    • Data consistency detection device, data consistency detection method and data selection device
    • 数据一致性检测装置,数据一致性检测方法和数据选择装置
    • US20050004901A1
    • 2005-01-06
    • US10880665
    • 2004-07-01
    • Norihiko MizobataKoichi Tsutsumi
    • Norihiko MizobataKoichi Tsutsumi
    • H04N7/08G06F7/00H04J3/00H04N5/00H04N7/081H04N7/24H04N21/434
    • H04N21/434
    • A first memory stores in advance, in an address assigned to each of possible values that each of the plurality of data segments can have, reference data which indicates that the possible value is consistent with the detection condition (“consistency”) or reference data which indicates that the possible value is inconsistent with the detection condition (“inconsistency”) based on the detection condition. A data extraction section sequentially extracts a data segment from the input data to supply an address corresponding to a value of the extracted data segment to the first memory. The first memory outputs reference data stored in the address supplied from the data extraction section. A determination section determines whether or not the input data is consistent with the detection condition based on the reference data output from the first memory.
    • 第一存储器预先存储分配给多个数据段中的每一个可能具有的每个可能值的地址,指示可能值与检测条件(“一致性”)或参考数据一致的参考数据,其中 表示可能的值与基于检测条件的检测条件(“不一致”)不一致。 数据提取部分从输入数据中顺序地提取数据段,以将提取的数据段的值提供给第一存储器。 第一存储器输出存储在从数据提取部分提供的地址中的参考数据。 确定部分基于从第一存储器输出的参考数据来确定输入数据是否与检测条件一致。
    • 2. 发明申请
    • ELECTRONIC DEVICE WITH OPENING/CLOSING DOOR
    • 带打开/关闭门的电子设备
    • US20100060865A1
    • 2010-03-11
    • US12556124
    • 2009-09-09
    • Yosuke NishihataKoichi TsutsumiTakeshi Fujisaki
    • Yosuke NishihataKoichi TsutsumiTakeshi Fujisaki
    • G03B21/14
    • G03B21/142G03B21/145
    • An electronic device with an opening/closing door of the present invention includes a device body in which an opening is defined, a shutter system capable of covering and exposing the opening, and a loosely fixing mechanism. The shutter system includes a door capable of moving back and forth between a closed position for covering the opening and an open position for exposing the opening, an arm swingably supported by the device body and having a front end engaging with the door, a motor for opening and closing the door by driving the arm, and a controller for controlling the operation of the motor. The controller is capable of switching the function of the motor between an electric motor and an electric generator. The loosely fixing mechanism is linked to the arm of the shutter system, and loosely fixes the arm when the door is placed at the open position, while loosely fixing the arm when the door is placed at the closed position. The controller causes the motor to function as an electric motor in the process of opening and closing the door, while causing the motor to function as an electric generator when the door is loosely fixed at the open position or at the closed position.
    • 具有本发明的开/关门的电子装置包括其中限定开口的装置主体,能够覆盖和暴露开口的快门系统以及松散固定机构。 快门系统包括能够在用于覆盖开口的关闭位置和用于暴露开口的打开位置之间来回移动的门,由装置主体可摆动地支撑并具有与门接合的前端的电动机,用于 通过驱动臂来打开和关闭门,以及用于控制电动机的操作的控制器。 该控制器能够切换电动机与发电机之间的功能。 松动固定机构连接到快门系统的臂上,并且当门处于打开位置时松动地固定臂,同时当门处于关闭位置时松动地固定臂。 在门被松开地固定在打开位置或关闭位置时,控制器使电动机在打开和关闭门的过程中用作电动机,同时使电动机用作发电机。
    • 4. 发明授权
    • Method and apparatus for detecting a crater end of a continuously cast product
    • 用于检测连续铸造产品的火山口端的方法和装置
    • US07971630B2
    • 2011-07-05
    • US12657692
    • 2010-01-26
    • Yukinori IizukaJun KubotaKoichi Tsutsumi
    • Yukinori IizukaJun KubotaKoichi Tsutsumi
    • B22D11/00B22D11/16
    • B22D11/16G01N2291/02881
    • A method for detecting a crater end of a continuously cast product, including installing an ultrasonic shear wave sensor for transmitting an ultrasonic shear wave to the continuously cast product and receiving the transmitted ultrasonic shear wave in a continuous casting machine, detecting based on variations of an ultrasonic signal received by the ultrasonic shear wave sensor that the crater end of the cast product is matched with the installed position of the ultrasonic shear wave sensor, calibrating a physical property value used in a calculation based on a heat condition equation such that the crater end computed based on the heat condition equation using casting conditions at that time is matched with the installed position of the ultrasonic shear wave sensor, and after the calibration, determining the crater end by the calculation based on the heat condition equation under respective casting conditions by using the calibrated physical property value.
    • 一种用于检测连续铸造产品的火山口端的方法,包括安装用于将超声剪切波传送到连续铸造产品的超声波剪切波传感器,并在连续铸造机中接收传输的超声剪切波,基于 由超声剪切波传感器接收的超声波信号,铸造产品的火山口端与超声波剪切波传感器的安装位置相匹配,校准基于热条件方程的计算中使用的物理特性值,使得火山口端 基于当时使用铸造条件的热条件方程式计算的与超声波剪切波传感器的安装位置相匹配,并且在校准之后,通过使用各种铸造条件下的基于热条件方程的计算来确定火山口端 校准的物理属性值。
    • 8. 发明申请
    • Method and apparatus for detecting a crater end of a continuously cast product
    • 用于检测连续铸造产品的火山口端的方法和装置
    • US20100163206A1
    • 2010-07-01
    • US12657692
    • 2010-01-26
    • Yukinori IizukaJun KubotaKoichi Tsutsumi
    • Yukinori IizukaJun KubotaKoichi Tsutsumi
    • B22D11/22B22D11/00B22D11/16B22D2/00
    • B22D11/16G01N2291/02881
    • A method for detecting a crater end of a continuously cast product, including installing an ultrasonic shear wave sensor for transmitting an ultrasonic shear wave to the continuously cast product and receiving the transmitted ultrasonic shear wave in a continuous casting machine, detecting based on variations of an ultrasonic signal received by the ultrasonic shear wave sensor that the crater end of the cast product is matched with the installed position of the ultrasonic shear wave sensor, calibrating a physical property value used in a calculation based on a heat condition equation such that the crater end computed based on the heat condition equation using casting conditions at that time is matched with the installed position of the ultrasonic shear wave sensor, and after the calibration, determining the crater end by the calculation based on the heat condition equation under respective casting conditions by using the calibrated physical property value.
    • 一种用于检测连续铸造产品的火山口端的方法,包括安装用于将超声剪切波传送到连续铸造产品的超声波剪切波传感器,并在连续铸造机中接收传输的超声剪切波,基于 由超声剪切波传感器接收的超声波信号,铸造产品的火山口端与超声波剪切波传感器的安装位置相匹配,校准基于热条件方程的计算中使用的物理特性值,使得火山口端 基于当时使用铸造条件的热条件方程式计算的与超声波剪切波传感器的安装位置相匹配,并且在校准之后,通过使用各种铸造条件下的基于热条件方程的计算来确定火山口端 校准的物理属性值。