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    • 2. 发明授权
    • Lactic acid-based polymer laminated product and molded product
    • 乳酸聚合物层压产品和模塑制品
    • US06248430B1
    • 2001-06-19
    • US09371778
    • 1999-08-10
    • Akio ToyodaKousuke Arai
    • Akio ToyodaKousuke Arai
    • B32B700
    • B32B27/08B32B7/12B32B2250/40C08G63/06C08G63/08Y10T428/24942Y10T428/2495Y10T428/31786
    • The present invention provides a lactic acid-based polymer laminated product which is little liable to leakage of lactide during molding or storage of the molded product and can degrade at a raised rate and a molded product made of such a laminated product. Disclosed are a novel lactic acid-based polymer laminated product comprising a degradation accelerator barrier layer (II) made of a lactic acid-based polymer (B) having a lactide content of not more than 0.1% by weight laminated on one or both surfaces of a base layer (I) made of a lactic acid-based polymer (A) comprising a degradation accelerator made of lactide and/or organic acid in an amount of from 0.3 to 7% by weight, wherein the ratio of the barrier layer thickness to the base layer thickness is from 0.02 to 1 based on that of the base layer, and a molded product of the laminated product.
    • 本发明提供了一种乳液型聚合物层压产品,其在模制产品的模塑或储存期间几乎不易于泄漏丙烯酸,并且可以以升高的速率降解,并且由这种层压产品制成的模塑产品。 公开了一种新型的乳酸基聚合物层压产品,其包含由乳酸基聚合物(B)制成的降解促进剂阻隔层(II),丙烯酸含量不超过0.1重量%,层压在一个或两个表面上 由包含由丙交酯和/或有机酸制成的降解促进剂的乳酸类聚合物(A)制成的基础层(I)的量为0.3〜7重量%,其中阻挡层厚度与 基底层的基层厚度为0.02〜1,层叠体的成型品为基材层。
    • 3. 发明授权
    • Sample processing apparatus and sample processing system
    • 样品处理设备和样品处理系统
    • US08083995B2
    • 2011-12-27
    • US12035238
    • 2008-02-21
    • Keisuke TsutsumidaRyuichiro EbiRumi TakataAkio Toyoda
    • Keisuke TsutsumidaRyuichiro EbiRumi TakataAkio Toyoda
    • G01N21/00G01N31/00G01N33/00G01N35/00
    • G01N35/026G01N35/00732G01N35/04G01N2035/00811G01N2035/00851Y10T436/11Y10T436/113332
    • The present invention is to present a sample processing system that is capable of reducing the tasks involved in the connection of the transporting apparatus. The sample processing system comprises: the transporting apparatus 11 for transporting the sample container 32 to a predetermined position; and the analyzer 10 for analyzing the sample contained in the sample container 32 transported to the predetermined position, the analyzer 10 comprising: the connection part 15 for connecting the transporting apparatus 11; the aspirating part 10a for aspirating the sample contained in the sample container 32; the apparatus body 12 for measuring the sample aspirated by the aspirating part 10a; the input part 29 for inputting identification information for identifying a type of the transporting apparatus 11; and the control unit 16 for controlling an operation of the transporting apparatus 11 based on the identification information input by the input part 29.
    • 本发明是提供一种能够减少传送装置连接所涉及的任务的样本处理系统。 样品处理系统包括:用于将样品容器32输送到预定位置的输送装置11; 分析器10,用于分析运送到预定位置的样本容器32中所含的样本,分析器10包括:用于连接输送装置11的连接部15; 用于抽吸容纳在样品容器32中的样品的抽吸部分10a; 用于测量由抽吸部分10a抽吸的样品的装置主体12; 用于输入用于识别传送装置11的类型的识别信息的输入部分29; 以及控制单元16,用于基于由输入部分29输入的识别信息来控制传送装置11的操作。
    • 4. 发明授权
    • Sample rack transfer apparatus
    • 样架转运装置
    • US07931862B2
    • 2011-04-26
    • US11344393
    • 2006-01-31
    • Akio ToyodaHiroki KoikeYoichi Nakamura
    • Akio ToyodaHiroki KoikeYoichi Nakamura
    • G01N21/13
    • G01N35/026G01N2035/0498
    • A sample rack transport apparatus for transporting a sample rack holding a container containing a sample is provided with a rack transport mechanism for transporting sample racks, and a control unit for controlling the operation of the transport mechanism. The transport mechanism has actuators, and the samples rack is transported by the operation of these actuators. The control unit is accommodated in a control box. The transport mechanism and control box are supported in a case. The control box is provided below the transport mechanism, and is configured so as to be slidably transferred into and from the case.
    • 用于运送保持容纳样品的容器的样品架的样品架传送装置设置有用于运送样品架的齿条传送机构和用于控制传送机构的操作的控制单元。 输送机构具有致动器,并且通过这些致动器的操作来运送样品架。 控制单元容纳在控制箱中。 一种情况下支持运输机构和控制箱。 控制箱设置在输送机构的下方,并被构造成可滑动地传送到壳体中和从壳体传送。
    • 5. 发明申请
    • SAMPLE PROCESSING SYSTEM, METHOD FOR SAVING ELECTRICITY CONSUMED BY SAMPLE PROCESSING SYSTEM, AND NON-TRANSITORY STORAGE MEDIUM
    • 样本处理系统,用于保存采样处理系统消耗的电力的方法和非接收存储介质
    • US20110054800A1
    • 2011-03-03
    • US12871613
    • 2010-08-30
    • Toru MizumotoAkio Toyoda
    • Toru MizumotoAkio Toyoda
    • G01N33/48G06F1/32
    • G01N35/00584G01N35/00603G01N2035/00326G01N2035/0415
    • A sample processing system is disclosed which comprises at least one processor and at least one memory that stores programs executable collectively by the at least one processor. According to the stored programs, the at least one processor transports sample containers through a conveying path along which there are arranged at least one first module for testing of samples and at least one second module for processing of samples which have been tested by the at least one first module. The at least one second module is switchable between an active state and an inactive state. The at least one processor further obtains a determination result as to whether a sample which has been tested by the at least one first module is necessary to be processed by the at least one second module. If the sample is determined necessary to be processed by the at least one second module, the at least one processor transports a sample container containing the sample to the at least one second module for processing. If the at least one second module is in the inactive state, at least one processor places the at least one second module in the active state to make it ready to process the sample.
    • 公开了一种示例处理系统,其包括至少一个处理器和至少一个存储器,其存储由所述至少一个处理器共同执行的程序。 根据存储的程序,至少一个处理器通过传送路径传送样品容器,沿着该输送路径布置有用于测试样品的至少一个第一模块和至少一个第二模块,用于处理至少已被测试的样品 一个第一个模块。 所述至少一个第二模块可在活动状态和非活动状态之间切换。 所述至少一个处理器还获得关于由所述至少一个第一模块测试的样本是否需要由所述至少一个第二模块处理的确定结果。 如果确定样品需要由至少一个第二模块处理,则至少一个处理器将包含样品的样品容器输送到至少一个第二模块进行处理。 如果所述至少一个第二模块处于非活动状态,则至少一个处理器将所述至少一个第二模块置于所述激活状态以使其准备好处理所述样本。
    • 7. 发明授权
    • Sample processing system, method for saving electricity consumed by sample processing system, and non-transitory storage medium
    • 样品处理系统,用于节省样品处理系统消耗的电力的方法,以及非暂时性的存储介质
    • US09279819B2
    • 2016-03-08
    • US12871613
    • 2010-08-30
    • Toru MizumotoAkio Toyoda
    • Toru MizumotoAkio Toyoda
    • G01N35/00G01N35/04
    • G01N35/00584G01N35/00603G01N2035/00326G01N2035/0415
    • A sample processing system is disclosed which includes at least one processor and at least one memory that stores programs executable collectively by the at least one processor. According to the stored programs, the at least one processor transports sample containers through a conveying path along which there are arranged at least one first module for testing of samples and at least one second module for processing of samples which have been tested by the at least one first module. The at least one second module is switchable between an active state and an inactive state. The at least one processor further obtains a determination result as to whether a sample which has been tested by the at least one first module is necessary to be processed by the at least one second module.
    • 公开了一种示例处理系统,其包括至少一个处理器和至少一个存储器,其存储由至少一个处理器集体执行的程序。 根据存储的程序,至少一个处理器通过传送路径传送样品容器,沿着该输送路径布置有用于测试样品的至少一个第一模块和至少一个第二模块,用于处理至少已被测试的样品 一个第一个模块。 所述至少一个第二模块可在活动状态和非活动状态之间切换。 所述至少一个处理器还获得关于由所述至少一个第一模块测试的样本是否需要由所述至少一个第二模块处理的确定结果。
    • 8. 发明授权
    • Dispenser, reagent dispenser and sample analyzer
    • 分配器,试剂分配器和样品分析仪
    • US07850921B2
    • 2010-12-14
    • US11893919
    • 2007-08-17
    • Satoshi IguchiTakashi YamatoNobuhiro KitagawaAkio Toyoda
    • Satoshi IguchiTakashi YamatoNobuhiro KitagawaAkio Toyoda
    • B01L3/02G01N21/00G01N31/00G01N33/00G01N1/22
    • G01N35/1009G01N35/025G01N35/1002G01N2035/00425G05D23/1919G05D23/24
    • The present invention is to present a dispenser which is capable of heating a liquid to an approximately constant temperature in the same time regardless of an aspiration amount of the liquid. The dispenser comprises a liquid holder for holding a liquid; aspiration amount information obtaining means for obtaining aspiration amount information indicating an aspiration amount of the liquid; an aspiration-discharge part for aspirating the aspiration amount of the liquid indicated by the obtained aspiration amount information into the liquid holder and discharging the liquid from the liquid holder; a heater for heating the liquid held by the liquid holder; a temperature sensor for detecting a temperature of the liquid held by the liquid holder; target temperature determining means for determining a target temperature of the liquid based on the aspiration amount of the liquid indicated by the obtained aspiration amount information; and controlling means for controlling the heater so as to conform the temperature detected by the temperature sensor to the target temperature.
    • 本发明是提供一种分配器,其能够在液体的吸入量无论在同一时间内将液体加热到近似恒定的温度。 分配器包括用于保持液体的液体保持器; 抽吸量信息获取装置,用于获得指示液体抽吸量的抽吸量信息; 抽吸排出部,用于将由所获取的吸液量信息指示的液体的吸入量吸入液体保持器并从液体保持器排出液体; 用于加热由液体保持器保持的液体的加热器; 用于检测由液体保持器保持的液体的温度的温度传感器; 目标温度确定装置,用于基于由所获得的抽吸量信息指示的液体的抽吸量来确定液体的目标温度; 以及用于控制加热器以使温度传感器检测的温度与目标温度一致的控制装置。