会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 55. 发明授权
    • Process for manufacturing soybean proteins
    • 制造大豆蛋白的方法
    • US4302473A
    • 1981-11-24
    • US151708
    • 1980-05-20
    • Yasuo MikamiHiroshi KandaAkio Uno
    • Yasuo MikamiHiroshi KandaAkio Uno
    • A23J1/14A23J3/34A23J3/00
    • A23J3/346
    • Soybean proteins are manufactured from soybean protein concentrates. The soybean protein concentrates may be prepared by washing defatted soybean with an alcoholic aqueous solution. The soybean protein concentrates are dispersed in water and then adjusted to a neutral to slightly alkaline pH range or dispersed in an aqueous solution which was previously adjusted with ammonia to be in an alkaline pH range, thus providing a neutral to slightly alkaline aqueous dispersion. The afore-mentioned soybean proteins in this aqueous dispersion are solubilized by the action of a neutral protease. The insolubles in the aqueous dispersion thus prepared are then removed to produce an aqueous solution containing solubilized proteins from which solid proteins are recovered.
    • 大豆蛋白质由大豆蛋白浓缩物制成。 大豆蛋白浓缩物可以通过用醇水溶液洗涤脱脂大豆来制备。 将大豆蛋白浓缩物分散在水中,然后调节至中性至微碱性pH范围,或分散在预先用氨调节至碱性pH范围的水溶液中,从而提供中性至微碱性水性分散体。 这种水性分散体中的上述大豆蛋白质通过中性蛋白酶的作用而溶解。 然后除去如此制备的水分散体中的不溶物,以产生含有溶解的蛋白质的水溶液,从中回收固体蛋白质。
    • 57. 发明授权
    • Ultrasonograph
    • 超声波检查
    • US08043220B2
    • 2011-10-25
    • US10512472
    • 2003-04-03
    • Kazutaka OkadaHiroshi KandaTsuyoshi OtakeTsuyoshi KimuraTatsuya Hayashi
    • Kazutaka OkadaHiroshi KandaTsuyoshi OtakeTsuyoshi KimuraTatsuya Hayashi
    • A61B8/14
    • G01S15/8954A61B8/00G01S7/52038G01S15/8963
    • An ultrasound diagnostic apparatus includes an ultrasound probe, a transmission unit for transmitting an ultrasound signal to an object to be examined via the ultrasound probe, a reception unit for processing a signal received by the ultrasound probe, and an image generating unit for generating an image on the basis of the received signal processed by the reception unit, wherein the transmission unit has a function of transmitting the ultrasound signals with varying frequency plural times in an identical direction at predetermined time intervals. The ultrasound signal transmitted plural times includes a first waveform in which the frequency increases and a second waveform in which the frequency decreases, and the reception unit has a function of phasing and adding received signals respectively corresponding to the first waveform and the second waveform, whereby, in tissue harmonic imaging, the penetration is improved, while the resolution is maintained.
    • 一种超声波诊断装置,包括超声波探头,经由超声波探头将超声信号发送到待检查对象的发送部,用于处理由超声波探头接收到的信号的接收部,以及用于生成图像的图像生成部 基于由接收单元处理的接收信号,其中发送单元具有以预定的时间间隔在相同的方向上多次以变化的频率发送超声信号的功能。 多次发送的超声信号包括频率增加的第一波形和频率降低的第二波形,并且接收单元具有分别对应于第一波形和第二波形的接收信号相位和相加的功能,由此 ,在组织谐波成像中,渗透率得到改善,同时维持分辨率。
    • 58. 发明授权
    • Ultrasonic enhanced-contrast imager and method
    • 超声增强对比成像仪及方法
    • US07850612B2
    • 2010-12-14
    • US11723801
    • 2007-03-22
    • Hiroshi KandaTatsuya HayashiTsuyoshi MitakeMinoru Yoshida
    • Hiroshi KandaTatsuya HayashiTsuyoshi MitakeMinoru Yoshida
    • A61B8/14
    • A61B8/481A61B8/463G01S7/52038G01S15/8952
    • An ultrasonic enhanced-contrast imager and method includes an ultrasonic probe for transmitting and receiving an ultrasonic wave to and from an organism, a transmitting section for transmitting an ultrasonic signal to the ultrasonic probe, a receiving section for processing a response signal ultrasonic wave received by the ultrasonic probe, a filter for extracting a specific frequency component from the processed response signal, and a setting control section for setting a pass frequency band of the filter on the basis of a frequency band of the response signal from a contrast medium injected to the organism. A control section controls the operation of the filter in the set pass band, and the setting control section sets the center frequency of the pass band of the filter to be greater than f0 and less than 2f0, where f0 is the average frequency of the ultrasonic signal transmitted to the ultrasonic probe.
    • 一种超声波增强对比成像器和方法,包括用于向生物体发送超声波的超声波探头和用于向超声波探头发送超声波信号的发送部,用于处理由超声波探头接收的响应信号超声波的接收部, 超声波探头,用于从经处理的响应信号中提取特定频率分量的滤波器,以及设置控制部分,用于根据来自注入到所述滤波器的造影剂的响应信号的频带来设置滤波器的通过频带 生物。 控制部控制设定通带中的滤波器的动作,设定控制部将滤波器的通带的中心频率设定为大于f0且小于2f0,其中f0是超声波的平均频率 信号传输到超声波探头。
    • 59. 发明授权
    • Ultrasonic imaging device
    • 超声波成像装置
    • US07604600B2
    • 2009-10-20
    • US10546658
    • 2003-12-04
    • Shin-ichiro UmemuraHiroshi KandaTakashi Azuma
    • Shin-ichiro UmemuraHiroshi KandaTakashi Azuma
    • A61B8/14
    • A61B8/481G01S7/52038G01S7/52039G01S15/8963G01S15/8979
    • An ultrasonic imaging device for transmitting/receiving ultrasonic pulses to/from a living body in which microbubbles for contrast are introduced and forming a contrast image of the inside of the living body by using the microbubble for contrast, wherein transmitting/receiving operations are performed N times (N=an integer of three or greater) by using transmission pulse waves having a common envelope signal while varying carrier waves in phase by 360°/N from one wave to another under the same transmission/reception wave focus condition, and by summing N pieces of time-series reception echo signals obtained by the N times of transmitting/receiving operations to obtain a summed signal, thereby forming the contrast image.
    • 引入超声波脉冲的超声波成像装置,其中引入用于对比的微泡的生物的超声脉冲,并且通过使用用于对比的微泡形成生物体内部的对比度图像,其中执行发射/接收操作N 通过使用具有公共包络信号的发送脉冲波,同时在相同的发送/接收波聚焦条件下从一个波到另一个相位改变360°/ N的载波,并且通过求和来计算(N = 3或更大的整数) 通过N次发送/接收操作获得的N个时间序列接收回波信号,以获得加和信号,从而形成对比度图像。
    • 60. 发明授权
    • Information recording/reproduction method
    • 信息记录/再现方法
    • US07263281B2
    • 2007-08-28
    • US10250719
    • 2002-10-23
    • Hiroshi KandaEiji Masuda
    • Hiroshi KandaEiji Masuda
    • H04N5/00H04N5/91
    • G11B27/105G11B20/10527G11B20/12G11B2020/1062
    • According to an information recording/reproducing method by which, at recording or reproduction of data, the data are temporarily stored in a memory to perform the recording or reproduction, when recording or reproduction of the data stored in the memory is performed with dividing data, recording or reproduction of subsequent data is performed without dividing the data, and when recording or reproduction of the data stored in the memory is performed without dividing data, recording or reproduction of subsequent data is performed with divided the data. Accordingly, in a disc device that records or reproduces video on/from a disc, when data stored in a memory is recorded or reproduced without dividing the data and thereafter subsequent recording or reproduction is performed, a rotational delay would not occur, and the increase in the recording/reproduction execution time resulting from the rotational delay is avoided, whereby the data recording/reproduction execution time can be optimized.
    • 根据一种信息记录/再现方法,在记录或再现数据时,将数据临时存储在存储器中以执行记录或再现,当利用分割数据执行存储在存储器中的数据的记录或再现时, 在不分割数据的情况下执行后续数据的记录或再现,并且当在不划分数据的情况下执行存储在存储器中的数据的记录或再现时,分割数据来执行后续数据的记录或再现。 因此,在盘上记录或再现视频的盘装置中,当存储在存储器中的数据在不分割数据的情况下进行记录或重放,并且之后执行后续的记录或再现时,不会发生旋转延迟,并且增加 在避免由旋转延迟引起的记录/再现执行时间,从而可以优化数据记录/再现执行时间。