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    • 1. 发明授权
    • Ball quantitative supply system
    • 球定量供应系统
    • US5862945A
    • 1999-01-26
    • US758782
    • 1996-12-03
    • Yasuharu KatsunoMasao NittaMasao OkamotoAtsushi SuzukiTsuyoshi Kuribayashi
    • Yasuharu KatsunoMasao NittaMasao OkamotoAtsushi SuzukiTsuyoshi Kuribayashi
    • B23P19/00F16C43/06B65G59/00
    • B23P19/001F16C43/06
    • A ball quantitative supply system is comprised of an upper plate, a lower plate and a rotary block rotatably retained between the upper and lower plates. The upper plate is provided with a ball receiving aperture for receiving balls fed from a ball feeder, and a ball confirming aperture for confirming a predetermined number of balls, the apertures being provided to extend through different portions of the plate when seen in top plan. The lower plate is provided with a ball discharge aperture extending therethrough. The rotary block is provided with a ball receptacle extending therethrough for receiving a predetermined number of balls. The positions of provision of the ball receiving aperture, ball confirming aperture and ball discharge aperture are displaced from each other at an equal interval of 120.degree. as viewed in top plan. With this arrangement, it become possible for the ball receptacle to receive a fixed number of balls, negating the necessity to count the balls using an expensive counter, whereby an apparatus of the described type can be provided at a low cost.
    • 球定量供给系统由上板,下板和可旋转地保持在上板和下板之间的旋转块组成。 上板设置有用于接收从球进给器进给的球的球接收孔,以及用于确认预定数量的球的球确认孔,当在顶部平面图中看时,该孔设置成延伸穿过板的不同部分。 下板设置有延伸穿过其的球排放孔。 旋转块设置有延伸穿过其中的球窝,用于接收预定数量的球。 如俯视图所示,提供球接收孔,球确认孔和球排放孔的位置以等于120°的间隔彼此移位。 通过这种布置,球容器可以接收固定数量的球,不需要使用昂贵的计数器来计数球,由此可以以低成本提供所述类型的装置。
    • 5. 发明授权
    • Multi-blade centrifugal fan and air conditioner using the same
    • 多叶片离心风机和空调使用相同
    • US09157449B2
    • 2015-10-13
    • US13578891
    • 2011-06-06
    • Seiji SatoTsuyoshi EguchiAtsushi Suzuki
    • Seiji SatoTsuyoshi EguchiAtsushi Suzuki
    • F04D29/38F04D29/28F04D29/30
    • F04D29/281F04D29/30
    • In a multi-blade centrifugal fan including an impeller (7) rotatably disposed in a casing and composed of a disc-shaped hub (8), a plurality of blades (9), and an annular shroud (10), the blades (9) are curved in a concave shape on a pressure side in a cross-section perpendicular to a rotating shaft of the impeller (7) and have a curved shape that is backward-swept near a leading edge (9C) thereof and that is forward-swept near a trailing edge (9D) thereof, the inner diameter of the cascade of blades (9) increases gradually from the hub (8) toward the shroud (10), and the diameter of a maximum-curvature position (9B) where the curvature of the curved shape is maximized increases gradually from the hub (8) toward the shroud (10).
    • 在包括可旋转地设置在壳体中并由盘形轮毂(8),多个叶片(9)和环形护罩(10)组成的叶轮(7)的多叶片离心式风扇中,叶片(9) )在垂直于叶轮(7)的旋转轴的截面上在压力侧弯曲成凹形,并且具有在其前缘(9C)附近向后扫掠的弯曲形状, 在其后缘(9D)附近扫掠,叶片(9)的级联的内径从轮毂(8)朝向护罩(10)逐渐增加,并且最大曲率位置(9B)的直径在 弯曲形状的曲率最大化从轮毂(8)朝着护罩(10)逐渐增加。
    • 6. 发明授权
    • Sample preprocessing and conveying system
    • 样品预处理和输送系统
    • US09097690B2
    • 2015-08-04
    • US13388813
    • 2010-09-17
    • Shigeru YanoAtsushi SuzukiYasushi AokiTatsuya Fukugaki
    • Shigeru YanoAtsushi SuzukiYasushi AokiTatsuya Fukugaki
    • G01N35/02G01N35/00
    • G01N35/02G01N35/0092G01N35/026G01N2035/00326G01N2035/0462
    • In a large-scale analyzing system arrangement with a multi-sample processing capability, connecting a plurality of analyzing systems each having a minimum analyzer configuration makes it difficult for each analyzing system to continue analysis while managing and sharing the consumables information required for measurement between the analyzers. Additionally, since the sample preprocessing and conveying system does not recognize operational states of the analyzing systems during the analysis, conveyance of the sample to an analyzing system unable to conduct the analysis is likely to occur, resulting in delays in reporting the test results on the sample. The internal operational status of a plurality of analyzing systems is collectively managed and samples are conveyed between the analyzing systems. If the analysis is determined not to be capable of being continued, the sample is temporarily placed in a stand-by condition and then the analysis, after returning to a restartable state, is automatically continued.
    • 在具有多样本处理能力的大规模分析系统布置中,连接多个具有最小分析器配置的分析系统使得每个分析系统难以继续分析,同时管理和共享在 分析仪 另外,由于样本预处理和传送系统在分析过程中不能识别分析系统的运行状态,因此很可能将样品运送到不能进行分析的分析系统,导致测试结果报告延迟 样品。 集体管理多个分析系统的内部操作状态,并在分析系统之间传送样品。 如果确定分析不能继续进行,则将样品暂时置于待机状态,然后在返回到可重启状态之后自动继续进行分析。
    • 7. 发明授权
    • Automatic analyzer
    • 自动分析仪
    • US08758684B2
    • 2014-06-24
    • US11833650
    • 2007-08-03
    • Kenichi YagiTakayuki NodaKenichi TakahashiKenji TeshigawaraAtsushi Suzuki
    • Kenichi YagiTakayuki NodaKenichi TakahashiKenji TeshigawaraAtsushi Suzuki
    • G01N35/02G01N35/00
    • G01N35/00603G01N35/02Y10T436/113332
    • An automatic analysis system, which is capable of quickly performing reinspection, includes a sample rack which holds a sample vessel containing a sample; a sample rack input unit in which the sample rack is input; a carrier line which carries the sample rack; a plurality of automatic analyzers arranged along the carrier line; a sample rack holding unit which holds the sample rack storing an analyzed sample; a sample rack collection unit which collects the sample rack storing an analyzed sample; a carrier line for reinspection which returns the sample rack containing a sample subjected to reinspection depending on analysis results; and a controller for returning the sample rack from the sample rack holding unit through the carrier line for reinspection and controlling any one of automatic analyzers different from one that has previously performed analysis to perform reanalysis of the sample.
    • 能够快速进行再检测的自动分析系统包括容纳样品的样品容器的样架, 样品架输入单元,其中输入样品架; 承载样品架的载体线; 沿着载体线布置的多个自动分析器; 样品架保持单元,其容纳存储分析样品的样品架; 样本架收集单元,其收集存储分析样本的样本架; 用于重新检查的载体线,其根据分析结果返回包含经受再检查的样品的样品架; 以及控制器,用于通过载体线从样品架保持单元返回样品架,用于再次检测,并且控制与先前进行的分析不同的自动分析仪之一以进行样品的再分析。
    • 8. 发明授权
    • Coil transformer composed of unit configuration
    • 线圈变压器由单元配置组成
    • US08487732B2
    • 2013-07-16
    • US13021232
    • 2011-02-04
    • Masaki TakeuchiAtsushi SuzukiTatsuhito Azegami
    • Masaki TakeuchiAtsushi SuzukiTatsuhito Azegami
    • H01F21/12H01F27/28H01F21/04H01F21/02H01F27/30
    • H01F27/30H01F27/08H01F27/2823H01F27/29H01F29/02
    • There are many varieties of windings. Coils adopting an edgewise winding wire in which winding wires are wound around in the radial direction of the coil have a wide flux linkage area orthogonal to the electric wire, so that stray loss within the wire is increased, winding wire loss is increased and temperature is raised thereby. The present invention provides an arrangement in which a plurality of coil units are prepared and connected via external coupling terminals. At this time, winding is performed so that the contact faces of the coil units have equal potentials, so that there is no need to ensure an insulation distance between coils, and the coils can be downsized. Therefore, the mass of the respective coils can be reduced. Taps disposed on the respective coils are arranged to have equal potentials, according to which the external coupling terminals can double as tap switch terminals, so that there is no need to provide a dedicated tap switch.
    • 绕组有很多种类。 卷绕绕线的绕线线圈绕线圈绕线的线圈具有与电线正交的宽的磁链区域,导线内的杂散损耗增大,绕组线损耗增加, 从而升高。 本发明提供一种通过外部耦合端子准备并连接多个线圈单元的结构。 此时,进行绕线,使得线圈单元的接触面具有相等的电位,使得不需要确保线圈之间的绝缘距离,并且线圈可以被小型化。 因此,可以减小各个线圈的质量。 设置在相应线圈上的抽头被布置成具有相等的电位,根据该电位,外部耦合端子可以作为分接开关端子加倍,使得不需要提供专用的分接开关。
    • 9. 发明申请
    • SAMPLE PREPROCESSING AND CONVEYING SYSTEM
    • 样品预处理和输送系统
    • US20120179405A1
    • 2012-07-12
    • US13388813
    • 2010-09-17
    • Shigeru YanoAtsushi SuzukiYasushi AokiTatsuya Fukugaki
    • Shigeru YanoAtsushi SuzukiYasushi AokiTatsuya Fukugaki
    • G06F19/00G01D5/02
    • G01N35/02G01N35/0092G01N35/026G01N2035/00326G01N2035/0462
    • In a large-scale analyzing system arrangement with a multi-sample processing capability, connecting a plurality of analyzing systems each having a minimum analyzer configuration makes it difficult for each analyzing system to continue analysis while managing and sharing the consumables information required for measurement between the analyzers. Additionally, since the sample preprocessing and conveying system does not recognize operational states of the analyzing systems during the analysis, conveyance of the sample to an analyzing system unable to conduct the analysis is likely to occur, resulting in delays in reporting the test results on the sample. The internal operational status of a plurality of analyzing systems is collectively managed and samples are conveyed between the analyzing systems. If the analysis is determined not to be capable of being continued, the sample is temporarily placed in a stand-by condition and then the analysis, after returning to a restartable state, is automatically continued.
    • 在具有多样本处理能力的大规模分析系统布置中,连接多个具有最小分析器配置的分析系统使得每个分析系统难以继续分析,同时管理和共享在 分析仪 另外,由于样品预处理和输送系统在分析过程中不能识别分析系统的运行状态,所以很可能将样品运送到不能进行分析的分析系统,导致测试结果报告延迟 样品。 集体管理多个分析系统的内部操作状态,并在分析系统之间传送样品。 如果确定分析不能继续进行,则将样品暂时置于待机状态,然后在返回到可重启状态之后自动继续进行分析。