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    • 1. 发明申请
    • Health data collection system
    • 健康数据收集系统
    • US20070061361A1
    • 2007-03-15
    • US10570897
    • 2004-11-19
    • Toshiyuki TanakaKazutoshi NagaiNaruaki Akai
    • Toshiyuki TanakaKazutoshi NagaiNaruaki Akai
    • G06F7/00
    • G06Q10/10A61B5/0013A61B5/02055A61B5/749A61B2560/0431
    • A health data collection system for higher quality health care is provided. A patient terminal 21 has a data processor 34 for storing, in a memory 33, vital data obtained by a vital sensor 25 and voice data inputted through a microphone 27 in a memory 33 in association with each other. The vital data and voice data stored in the memory 33 are transmitted to a center server 22 via a communication network 24 and accumulated in a database server 40. A doctor terminal 23 has a memory 52 for storing the vital data and voice data received from the database server 40, and a data processor 57 for outputting the vital data and voice data stored in the memory 52 to a CRT display 55 and speaker 53 in association with each other.
    • 提供了一个健康数据收集系统,提供更高质量的保健。 患者终端21具有数据处理器34,用于在存储器33中存储由生物传感器25获得的重要数据和通过存储器33中的麦克风27输入的声音数据。 存储在存储器33中的重要数据和语音数据经由通信网络24发送到中央服务器22,并累积在数据库服务器40中。 医生终端23具有用于存储从数据库服务器40接收的重要数据和语音数据的存储器52和用于将存储在存储器52中的重要数据和语音数据输出到CRT显示器55和扬声器53的数据处理器57 相互联系。
    • 5. 发明授权
    • High frequency mass spectrometer
    • 高频质谱仪
    • US5565680A
    • 1996-10-15
    • US517793
    • 1995-08-22
    • Yoshihiko NaitoOsamu HoritaKazutoshi Nagai
    • Yoshihiko NaitoOsamu HoritaKazutoshi Nagai
    • H01J49/36B01D59/44H01J49/00
    • H01J49/401
    • A compact mass spectrometer apparatus is presented to enable accurate qualitative and quantitative analyses of target ions. The apparatus can operate in a relatively poor vacuum in the range of 10.sup.-2 to 10.sup.-3 torr compared with the conventional requirement of 10.sup.-6 to 10.sup.-8 torr while providing precision results with lesser number of electrodes than the conventional mass spectrometer. The separation of the ionic species is achieved through two effects: flight time differentials produced by varying mass/charge ratios of the sample ions; as well as high frequency resonance separation by synchronizing the injection of ions with high frequency electric field applied to an electrode system having equi-potential space and high frequency space. The resulting dispersion in the wide energy spectra of the sample ions serves to accurately identify the sample ions both qualitatively and quantitatively. The spectra dispersion is achieved by modulating the ion beam with application of suitable magnitude and phase angle of the high frequency voltage, and allowing only those ions having the maximum kinetic energy to pass through to a collector electrode. The analyses are based on measurements of the maximum ion current flowing in the collector electrode.
    • 提出了一种紧凑的质谱仪装置,以实现目标离子的准确定性和定量分析。 该设备可以在10-2至10-3托的范围内的相对较差的真空中操作,与传统的10-6至10-8托的要求相比,同时提供比常规质谱仪更少数量的电极的精确结果。 离子物质的分离通过两种效应来实现:通过改变样品离子的质量/电荷比产生的飞行时间差; 以及通过使离子注入与施加到具有等势空间和高频空间的电极系统的高频电场同步的高频谐振分离。 在样品离子的宽能谱中产生的分散物用于在定性和定量上准确地鉴定样品离子。 通过施加适当的高频电压幅度和相位角调制离子束,并且只允许具有最大动能的那些离子通过到集电极来实现光谱色散。 分析基于在集电极中流动的最大离子电流的测量。
    • 6. 发明申请
    • Non-contact condensation detecting method and non-contact condensation detecting apparatus
    • 非接触式冷凝检测方法和非接触式冷凝检测装置
    • US20080154518A1
    • 2008-06-26
    • US12073013
    • 2008-02-28
    • Junji ManakaKazutoshi Nagai
    • Junji ManakaKazutoshi Nagai
    • G01N31/00G01N5/02
    • G01F1/684G01N25/66
    • A disclosed detector element includes a substrate including a void, a heating unit including a heat generating electrode bridged across the void, and a temperature sensor including a temperature sensor electrode provided above the void. The heat generating electrode and the temperature sensor electrode are warped, cantilevered, and standing up in space. The temperature sensor measures heat quantity transported from the heating unit. Distribution of an atmosphere surrounding an object surface with respect to the object surface, and the transportation state of the atmosphere are measured by using at least one of temperature, humidity, a direction or velocity of flow, pressure, and composition of gas in the atmosphere. Behavior of the gas adhering and aggregating onto the object surface, and behavior of aggregated liquid undergoing transpiration from the object surface are detected, based on the distribution and the transportation state measured.
    • 所公开的检测器元件包括包括空隙的基板,包括跨过空隙桥接的发热电极的加热单元和包括设置在空隙上方的温度传感器电极的温度传感器。 发热电极和温度传感器电极在空间中翘曲,悬臂和站立。 温度传感器测量从加热单元输送的热量。 通过使用大气中的温度,湿度,流动方向或速度,压力和气体组成中的至少一个来测量物体表面相对于物体表面的气氛的分布和气氛的输送状态 。 根据测量的分布和运输状态,检测气体粘附并聚集到物体表面上的行为,以及从物体表面蒸发的聚集液体的行为。
    • 8. 发明授权
    • Sanitary cleaning apparatus
    • 卫生清洁设备
    • US4616368A
    • 1986-10-14
    • US748668
    • 1985-06-25
    • Kazutoshi NagaiHirofumi Aoyagi
    • Kazutoshi NagaiHirofumi Aoyagi
    • E03D9/08A47K3/20A47K4/00E03D9/00
    • E03D9/08Y10S4/03
    • A sanitary cleaning apparatus is disclosed, which comprises a cleaning water discharge device, a functional device including another cleaning water discharge device or a private parts dryer, a member for turning on and off the cleaning water discharge device, and a human body (presence or absence) detector. Only while the human body detector produces a human body detection signal, the on-off member for the cleaning water discharge device or the functional device is turned on, thereby selectively actuating a corresponding device. One of the devices thus turned on as selected above is de-energized by (a) the turning off of the on-off member of the selected device, (b) the turning on of the on-off member of the other device not selected, or (c) extinction of the human body detection signal of the human body detector.
    • 公开了一种卫生清洁装置,其包括清洁水排出装置,包括另一个清洁水排放装置或私人部件干燥器的功能装置,用于打开和关闭清洁排水装置的构件以及人体(存在或 缺席)检测器。 只有当人体检测器产生人体检测信号时,清洗排水装置或功能装置的开 - 关构件被打开,从而选择性地致动对应的装置。 如上选择的这样打开的设备中的一个通过(a)关闭所选择的设备的开关构件而被断电,(b)未选择的其他设备的开 - 关构件的接通 ,或(c)人体检测器的人体检测信号的灭绝。
    • 10. 发明授权
    • Non-contact condensation detecting apparatus
    • 非接触式冷凝检测装置
    • US07360416B2
    • 2008-04-22
    • US11481097
    • 2006-07-06
    • Junji ManakaKazutoshi Nagai
    • Junji ManakaKazutoshi Nagai
    • G01F1/68
    • G01F1/684G01N25/66
    • A disclosed detector element includes a substrate including a void, a heating unit including a heat generating electrode bridged across the void, and a temperature sensor including a temperature sensor electrode provided above the void. The heat generating electrode and the temperature sensor electrode are warped, cantilevered, and standing up in space. The temperature sensor measures heat quantity transported from the heating unit. Distribution of an atmosphere surrounding an object surface with respect to the object surface, and the transportation state of the atmosphere are measured by using at least one of temperature, humidity, a direction or velocity of flow, pressure, and composition of gas in the atmosphere. Behavior of the gas adhering and aggregating onto the object surface, and behavior of aggregated liquid undergoing transpiration from the object surface are detected, based on the distribution and the transportation state measured.
    • 所公开的检测器元件包括包括空隙的基板,包括跨过空隙桥接的发热电极的加热单元和包括设置在空隙上方的温度传感器电极的温度传感器。 发热电极和温度传感器电极在空间中翘曲,悬臂和站立。 温度传感器测量从加热单元输送的热量。 通过使用大气中的温度,湿度,流动方向或速度,压力和气体的组成中的至少一个来测量物体表面相对于物体表面的气氛的分布和气氛的输送状态 。 根据测量的分布和运输状态,检测气体粘附并聚集到物体表面上的行为,以及从物体表面蒸发的聚集液体的行为。