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    • 1. 发明申请
    • CELL SEPARATION DEVICE, CELL SEPARATION SYSTEM AND CELL SEPARATION METHOD
    • 细胞分离装置,细胞分离系统和细胞分离方法
    • US20110097793A1
    • 2011-04-28
    • US12994802
    • 2009-05-27
    • Yuji SuzukiNobuhide KasagiTakahiro NishimuraJunichi Miwa
    • Yuji SuzukiNobuhide KasagiTakahiro NishimuraJunichi Miwa
    • C12N5/02C12M1/00
    • C12M47/02G01N1/405G01N2015/1006
    • A cell separation device which can perform a continuous processing without bonding fluorescent molecules or magnetic particles to the surface of the cell membrane, a cell separation system, and a cell separation method, wherein when a sample cell suspension containing the desired target cells is supplied continuously from a sample inlet and physiological saline is supplied continuously from a physiological saline inlet, the sample cell suspension flows together with the physiological saline in a liquid flow path and an adsorption force acts on the target cells due to affinity bonding from the adsorbing portions of adsorbing regions in the form of strips formed in a planar wall portion. Since the adsorbing regions in the form of strips are disposed in an asymmetric fashion to the flow path direction of the liquid flow path, the adsorption force acting on the target cells has a constituent perpendicular to the flow path direction. As a result, the target cells shown in FIG. 1 collect on one side of the planar wall portion after flowing for a prescribed distance in the liquid flow path and can be separated continuously from the non-target constituents.
    • 可以在不将荧光分子或磁性粒子粘附到细胞膜表面的情况下进行连续处理的细胞分离装置,细胞分离系统和细胞分离方法,其中当连续供给包含所需靶细胞的样品细胞悬浮液时 从生理盐水入口连续供给来自样品入口的生理盐水,样品池悬浮液与生理盐水一起在液体流动路径中流动,并且吸附力由吸附的吸附部分的亲和键作用在靶细胞上 形成在平面壁部分中的带状形式的区域。 由于带状吸附区域以液态流路的流路方向为非对称的方式配置,所以作用在靶单元上的吸附力具有与流路方向垂直的构成。 结果,图1所示的靶细胞 1在液体流动路径中流动规定距离之后,在平面壁部分的一侧收集,并且可以与非目标成分连续分离。
    • 3. 发明申请
    • Data transfer system and readjustment control method for use with the system
    • 数据传输系统和系统使用的调整控制方法
    • US20050013393A1
    • 2005-01-20
    • US10889184
    • 2004-07-13
    • Takahiro Nishimura
    • Takahiro Nishimura
    • H04L7/033G06F1/10H04L7/00H04L7/04
    • H04L7/041H04L7/0091
    • An object of the present invention is to provide a data transfer system capable of maintaining synchronization of the data during the operation of apparatus by performing the periodical adjustment for a DLL circuit without using a method of 8B10B. In a transmitting apparatus, a control portion switches a selector to start a readjustment for the DLL circuit in a receiving apparatus, if a counter indicates a readjustment interval time. In performing there adjustment for the DLL circuit, a pattern generator sends a pattern making a signal waveform a stationary wave through the selector for a certain time, and if the signal is made stationary, a readjustment pattern is sent to the DLL circuit. The DLL circuit resets the sampling timing, based on this readjustment pattern. The selector switches the normal data A and the readjustment pattern to be sent to the DLL circuit.
    • 本发明的目的是提供一种数据传输系统,其能够在不使用8B10B的方法的情况下通过对DLL电路进行周期性调整来保持装置的操作期间的数据的同步。 在发送装置中,如果计数器指示重新调整间隔时间,则控制部分切换选择器以开始对接收装置中的DLL电路的重新调整。 在对DLL电路进行调整的情况下,图形生成器通过选择器发送使信号波形成为固定波的模式一定时间,并且如果信号静止,则向DLL电路发送重新调整模式。 DLL电路基于这种调整模式重置采样时序。 选择器将正常数据A和重新调整模式切换为要发送到DLL电路。
    • 4. 发明授权
    • Apparatus for compressively holding casting nozzles
    • 用于压缩保持铸造喷嘴的装置
    • US4693401A
    • 1987-09-15
    • US759638
    • 1985-07-26
    • Takahiro NishimuraMasao Ohnuma
    • Takahiro NishimuraMasao Ohnuma
    • B22D41/56B22D37/00
    • B22D41/56
    • An apparatus for changing casting nozzles such as immersion nozzles easily, quickly, and reliably. The apparatus has a holder frame fixed to the bottom of a molten metal pouring device and defining a substantially C-shaped casting nozzle travel passageway composed of a new-nozzle insertion passage, an old-nozzle ejection passage extending parallel thereto in spaced-apart relationship, and a joint passage connecting the new-nozzle insertion passage and the old-nozzle ejection passage to each other, and having a casting position where the casting nozzle is held under compression; a spring box mounted in the holder frame and having outer side portions resiliently supported by springs on opposite sides of the holder frame across the casting nozzle travel passageway, the spring box having on inner sides thereof guide rails forming part of side portions of the casting nozzle travel passageway, a nozzle moving mechanism mounted on the holder frame for moving the casting nozzle along the guide rails; and a lifting mechanism for lifting the casting nozzle in unison with the spring box in response to movement of the casting nozzle along the guide rails until the casting nozzle is fittingly held against the bottom of the molten metal pouring device.
    • 一种容易,快速,可靠地更换诸如浸入式喷嘴的喷嘴的装置。 该装置具有固定在熔融金属浇注装置的底部的支架框架,并且限定了基本上为C形的铸造喷嘴行进通道,其由新的喷嘴插入通道,与其间隔开的关系延伸的旧喷嘴喷射通道 以及将新喷嘴插入通路和旧喷嘴喷出通路相互连接并具有铸造用喷嘴保持压缩的铸造位置的接合通路; 安装在保持架框架中的弹簧箱,并且具有通过弹簧在支架框架的相对侧上弹性地支撑在铸造喷嘴行进通道上的外侧部分,弹簧箱的内侧具有形成铸造喷嘴的侧部的一部分的导轨 行进通道,安装在保持架上的喷嘴移动机构,用于沿着导轨移动铸造喷嘴; 以及提升机构,用于响应于铸造喷嘴沿着导轨的移动而与铸弹嘴一致地提升铸造喷嘴,直到铸造喷嘴适当地保持在熔融金属浇注装置的底部。
    • 6. 发明申请
    • GLASS PRODUCT FORMING MACHINE
    • 玻璃制品成型机
    • US20120186301A1
    • 2012-07-26
    • US13499600
    • 2010-09-24
    • Takahiro NishimuraMasaki KataokaShintaro OhnoTakahiro Kotoh
    • Takahiro NishimuraMasaki KataokaShintaro OhnoTakahiro Kotoh
    • C03B9/38
    • C03B9/3816C03B9/3875C03B9/3883C03B9/3891C03B9/41
    • In a glass product forming machine having molds 1A and 1B each composed of a pair of split molds 11 and 12, and a mold cooling device X for cooling the molds 1A and 1B to control the temperatures thereof, in order to prevent the occurrence of a defect such as deformation or cracks in a formed article due to a temperature difference between the split molds 11 and 12, the mold cooling device X is configured to include: cooling mechanisms 3R and 3L provided to the respective split molds, the cooling mechanisms each individually applying cooling air to each of the split molds 11 and 12 of the molds 1A and 1B; valve mechanisms 30R and 30L for individually opening and closing each of paths for introducing cooling air to the respective cooling mechanisms 3R and 3L; temperature detection means for detecting the temperature of at least one of the split molds; and a temperature control device 9 for generating and outputting control signals for controlling the opening and closing operations of the respective valve mechanisms 30R and 30L on the basis of the detected temperature value by the temperature detection means.
    • 在具有由一对分割模具11和12构成的模具1A和1B的玻璃制品成型机中,以及用于冷却模具1A和1B以控制其温度的模具冷却装置X,以防止发生 模具冷却装置X由于分型模具11和12之间的温度差造成的成型制品中的变形或裂纹等缺陷,模具冷却装置X构成为:分别设置在各个模具上的冷却机构3R,3L,各冷却机构 对模具1A,1B的分割模具11,12进行冷却风; 用于单独地打开和关闭用于将冷却空气引导到各个冷却机构3R和3L的各个通路的阀机构30R和30L; 温度检测装置,用于检测所述分模中的至少一个的温度; 以及温度控制装置9,用于根据温度检测装置检测到的温度值产生和输出用于控制各个阀机构30R和30L的打开和关闭操作的控制信号。
    • 7. 发明授权
    • System for adjusting sampling timing of DLL circuit, method therefor and transmitter-receiver used therefor
    • 用于调整DLL电路的采样定时的系统,其方法和用于其的发射机 - 接收机
    • US07885367B2
    • 2011-02-08
    • US11345498
    • 2006-02-02
    • Takahiro Nishimura
    • Takahiro Nishimura
    • H03D3/22H04L27/22
    • H04L7/048H04L1/0057H04L7/0337
    • An object of the present invention is to provide a DLL circuit adjustment system that can adjust the sampling timing of a DLL circuit without causing any increase of the number of interface signals or amount of coding overhead and any reduction of the data transfer efficiency. On a transmitter side, an ECC generating section adds an error detection/correction code to transmission data and outputs the transmission data with the error detection/correction code. Of output channels of the transmission data from the ECC generating section, a data bit associated with the DLL circuit to be adjusted is replaced with a sampling timing adjustment pattern using a to-be-adjusted channel selection circuit and a selector, and the resulting transmission data is transmitted to a receiver side. On the receiver side, the transmission data is received via a DLL circuit provided for each channel of the received transmission data, and an error detecting/correcting section corrects any error in the output of each DLL circuit, thereby forming received data. In this way, normal data transfer can be maintained while adjusting the sampling timing of each DLL circuit.
    • 本发明的目的是提供一种DLL电路调整系统,其可以调整DLL电路的采样定时,而不会导致接口信号的数量或编码开销的数量的任何增加以及数据传输效率的任何降低。 在发送侧,ECC产生部分将错误检测/校正码添加到发送数据,并用错误检测/校正码输出发送数据。 来自ECC产生部分的传输数据的输出通道中,将使用待调整的信道选择电路和选择器的采样定时调整模式替换与要调整的DLL电路相关联的数据位,并且所得到的传输 数据被发送到接收机侧。 在接收侧,通过为接收到的发送数据的每个信道提供的DLL电路接收发送数据,并且错误检测/校正部分校正每个DLL电路的输出中的任何错误,从而形成接收的数据。 以这种方式,可以在调整每个DLL电路的采样定时的同时保持正常的数据传输。
    • 9. 发明申请
    • System for adjusting sampling timing of DLL circuit, method therefor and transmitter-receiver used therefor
    • 用于调整DLL电路的采样定时的系统,其方法和用于其的发射机 - 接收机
    • US20060176991A1
    • 2006-08-10
    • US11345498
    • 2006-02-02
    • Takahiro Nishimura
    • Takahiro Nishimura
    • H04L7/00
    • H04L7/048H04L1/0057H04L7/0337
    • An object of the present invention is to provide a DLL circuit adjustment system that can adjust the sampling timing of a DLL circuit without causing any increase of the number of interface signals or amount of coding overhead and any reduction of the data transfer efficiency. On a transmitter side, an ECC generating section adds an error detection/correction code to transmission data and outputs the transmission data with the error detection/correction code. Of output channels of the transmission data from the ECC generating section, a data bit associated with the DLL circuit to be adjusted is replaced with a sampling timing adjustment pattern using a to-be-adjusted channel selection circuit and a selector, and the resulting transmission data is transmitted to a receiver side. On the receiver side, the transmission data is received via a DLL circuit provided for each channel of the received transmission data, and an error detecting/correcting section corrects any error in the output of each DLL circuit, thereby forming received data. In this way, normal data transfer can be maintained while adjusting the sampling timing of each DLL circuit.
    • 本发明的目的是提供一种DLL电路调整系统,其可以调整DLL电路的采样定时,而不会导致接口信号的数量或编码开销的数量的任何增加以及数据传输效率的任何降低。 在发送侧,ECC产生部分将错误检测/校正码添加到发送数据,并用错误检测/校正码输出发送数据。 来自ECC产生部分的传输数据的输出通道中,将使用待调整的信道选择电路和选择器的采样定时调整模式替换与要调整的DLL电路相关联的数据位,并且所得到的传输 数据被发送到接收机侧。 在接收侧,通过为接收到的发送数据的每个信道提供的DLL电路接收发送数据,并且错误检测/校正部分校正每个DLL电路的输出中的任何错误,从而形成接收的数据。 以这种方式,可以在调整每个DLL电路的采样定时的同时保持正常的数据传输。
    • 10. 发明授权
    • Remote control of laundry appliance
    • 洗衣机远程控制
    • US06778868B2
    • 2004-08-17
    • US09950001
    • 2001-09-12
    • Fumihiro ImamuraTakahiro NishimuraHiroshi IkedaSatoru Matsumoto
    • Fumihiro ImamuraTakahiro NishimuraHiroshi IkedaSatoru Matsumoto
    • G05B1500
    • D06F39/005H04L12/2825H04L2012/285
    • A remote control system for a laundry appliance which includes a remote control device externally accessible via a communication network, the remote control device including a data base storing coping information used to cope with an abnormal condition occurring during operation of the laundry appliance, a laundry appliance control device connected via the communication network to the remote control device so as to transmit information about an abnormal condition via the communication network to the remote control device when the abnormal condition has occurred in the laundry appliance, and an analyzer for analyzing the coping information corresponding to the abnormal condition in the laundry appliance to infer a cause of the abnormal condition of the laundry appliance. When the analyzer analyzes a plurality of pieces of the analytic information, a higher priority is given to the analytic information corresponding to a cause of the abnormal condition with a larger number of times of occurrence.
    • 一种用于洗衣设备的遥控系统,其包括经由通信网络可外部访问的遥控设备,所述遥控设备包括存储用于处理在洗衣设备操作期间发生的异常状况的应对信息的数据库,洗衣设备 所述控制装置经由所述通信网络连接到所述遥控装置,以便当所述洗衣用具中发生异常时,经由所述通信网络向所述遥控装置发送关于异常的信息;以及分析器,用于分析所述应对信息对应 到洗衣用具的异常情况,推测洗衣用具的异常状态的原因。 当分析器分析多条分析信息时,对于具有更多次出现次数的异常状况的原因的分析信息给予较高的优先级。