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    • 4. 发明授权
    • Sleep state measuring apparatus and sleep state measuring method
    • 睡眠状态测量仪和睡眠状态测量方法
    • US08092399B2
    • 2012-01-10
    • US12222828
    • 2008-08-18
    • Toshiaki Sasaki
    • Toshiaki Sasaki
    • A61B5/103A61B5/117
    • A61B5/0205A61B5/0816A61B5/11A61B5/113A61B5/4806A61B5/4818A61B5/6887A61B5/6892A61B2562/0247
    • Even if a mattress or the like suffers long-term deterioration, a sleep state measuring apparatus is provided which can set a suitable amplification factor A of a biosignal. The sleep state measuring apparatus detects the biosignal which changes depending on the sleep state of a person who gets on the mattress filled with water, amplifies the biosignal, and estimates the sleep state based on the biosignal. A static component P of the mattress internal pressure detected by a biosignal sensor is first obtained (S 11). The mattress internal pressure is the pressure of water in the mattress. From the static component P of the mattress internal pressure, a fluctuation part ΔV of the mattress internal pressure depending on the value is specified (S 12). Each value of the fluctuation part ΔV of the mattress internal pressure is obtained beforehand by applying a predetermined load, and changing the static component P of the mattress internal pressure. The above-described amplification factor A is calculated by correcting predetermined standard amplification factor A0 with the specified fluctuation part ΔV (S 13).
    • 即使床垫等遭受长期恶化,也可以设置睡眠状态测定装置,该睡眠状态测定装置能够设定生物信号的合适的放大倍数A. 睡眠状态测量装置检测根据进入充满水的床垫的人的睡眠状态而变化的生物信号,放大生物信号,并基于生物信号估计睡眠状态。 首先获得由生物信号传感器检测到的床垫内部压力的静态分量P(S11)。 床垫的内部压力是床垫中的水压。 根据床垫内部压力的静态成分P,规定床垫内部压力的变动量&Dgr; V,取决于该值。(S12)。 通过施加预定的负荷,改变床垫内压的静态成分P,预先获得床垫内压的变动部分&Dgr; V的每个值。 通过用指定的波动部分&Dgr; V(S 13)校正预定的标准放大因子A0来计算上述放大因子A.
    • 5. 发明申请
    • Silicon-based thin-film photoeclectric converter and method of manufacturing the same
    • 硅基薄膜光电转换器及其制造方法
    • US20090133753A1
    • 2009-05-28
    • US11991141
    • 2006-07-25
    • Toshiaki SasakiKenji Yamamoto
    • Toshiaki SasakiKenji Yamamoto
    • H01L31/00B05D5/12
    • H01L31/075H01L31/076H01L31/202Y02E10/548Y02P70/521
    • In order to improve photoelectric conversion properties of a silicon-based thin-film photoelectric converter to which a conductive SiOx layer is inserted to obtain an optical confinement effect, the silicon-based thin-film photoelectric converter according to the present invention includes an i-type photoelectric conversion layer of hydrogenated amorphous silicon or an alloy thereof, an i-type buffer layer made of hydrogenated amorphous silicon, and an n-type Si1-xOx layer (x is 0.25-0.6) stacked successively, wherein the buffer layer has a higher hydrogen concentration at its interface with and as compared with the photoelectric conversion layer and has a thickness of at least 5 nm and at most 50 nm. Accordingly, generation of silicon crystal phase parts and reduction of resistivity are promoted in the n-type Si1-xOx layer, contact resistance at the interface is reduced, and FF of the photoelectric converter is improved, so that the photoelectric converter achieves improved properties.
    • 为了提高插入导电性SiO x层的硅系薄膜光电转换器的光电转换性能,得到光限制效果,本发明的硅系薄膜光电转换元件包括:i- 氢化非晶硅或其合金的类型光电转换层,由氢化非晶硅制成的i型缓冲层和n型Si1-xOx层(x为0.25-0.6),其中缓冲层具有 在与光电转换层相比的界面处的氢浓度较高,并且具有至少5nm至最多50nm的厚度。 因此,在n型Si1-xOx层中促进硅晶相的产生和电阻率的降低,界面处的接触电阻降低,光电转换器的FF提高,光电转换器实现了改善的性能。
    • 7. 发明申请
    • Process for producing continuous alumina fiber blanket
    • 生产连续氧化铝纤维毯的工艺
    • US20060127833A1
    • 2006-06-15
    • US11350476
    • 2006-02-09
    • Mamoru ShojiNorio IkedaToshiaki Sasaki
    • Mamoru ShojiNorio IkedaToshiaki Sasaki
    • F27B9/28
    • D01F9/08
    • A process for producing a continuous alumina fiber blanket by heat treating an alumina fiber precursor formed from a spinning solution containing an aluminum compound, by using a specific high-temperature furnace capable of high-temperature heat treatment. According to this process, a continuous sheet (W) of alumina fiber precursor formed from a spinning solution containing an aluminum compound is supplied continuously into a high-temperature furnace and subjected to heat treatment while being conveyed in one direction by plural conveying mechanisms (2, 3) disposed in said high-temperature furnace. In this operation, the speed of said conveying mechanisms is reduced progressively in the direction of conveyance in correspondence to the rate of heat shrinkage of the continuous sheet (W) of alumina fiber precursor, thereby to lessen fiber crush in the alumina fiber precursor and obtain a continuous alumina fiber blanket with uniform thickness and high bulk density as well as high strength.
    • 通过使用能够进行高温热处理的特定的高温炉,热处理由含铝化合物的纺丝溶液形成的氧化铝纤维前体来制造连续的氧化铝纤维毡的方法。 根据该方法,将由包含铝化合物的纺丝溶液形成的氧化铝纤维前体的连续片材(W)连续供给到高温炉中,并通过多个输送机构(2)沿一个方向输送进行热处理 ,3)设置在所述高温炉中。 在该操作中,与氧化铝纤维前体的连续片材(W)的热收缩率相对应地,输送方向上所述输送机构的速度逐渐减小,从而减少氧化铝纤维前体中的纤维粉碎,得到 具有均匀厚度和高堆积密度以及高强度的连续氧化铝纤维毯。
    • 10. 发明申请
    • Liquid ejection head
    • 液体喷头
    • US20050073556A1
    • 2005-04-07
    • US10620421
    • 2003-07-17
    • Toshiaki SasakiKeiichi MuraiYasuyuki TamuraSadayuki SugamaAkira AsaiTsutomu KawaiMasayoshi Tachihara
    • Toshiaki SasakiKeiichi MuraiYasuyuki TamuraSadayuki SugamaAkira AsaiTsutomu KawaiMasayoshi Tachihara
    • A61M15/00A61M15/02B05B1/24B41J2/14B41J2/05
    • B41J2/1404A61M15/0065A61M15/02A61M15/025B41J2/14016B41J2/1412B41J2/1433B41J2002/14387B41J2002/14475
    • A liquid ejection head includes a liquid path; an ejection outlet forming member which constitutes a part of a wall of the liquid and which forms an ejection outlet for ejecting a droplet of liquid; a heat generating element, provided at a position opposing to the ejection outlet of the wall of the liquid flow path, for generating a bubble in the liquid by application of heat to the liquid; a restrictor portion, provided at a recessed portion of the ejection outlet, wherein the recessed portion is recessed from a plane in which the ejection outlet is formed, wherein the liquid forms a meniscus and is retained in the ejection outlet such that the restrictor portion is within the liquid, wherein an area So of an opening of the restrictor portion and a surface Sh of the heat generating element satisfy So≦Sh. According to this invention, a central portion of the meniscus opposed to the fine opening at the ejection outlet bulges, and the liquid is ejected in this state. Namely, very small amount of the liquid can be ejected, since not all of the liquid in the recess portion in the ejection outlet is ejected.
    • 液体喷射头包括液体通道; 喷射出口形成构件,其构成液体壁的一部分并且形成用于喷射液滴的喷射出口; 发热元件,设置在与液体流路的壁的喷射出口相对的位置处,用于通过向液体施加热量而在液体中产生气泡; 设置在所述喷射出口的凹陷部分处的所述限制器部分,其中所述凹部从形成所述喷射出口的平面凹陷,其中所述液体形成弯液面并保持在所述喷射出口中,使得所述限制器部分 在液体内,限制器部分的开口的面积So和发热元件的表面Sh满足So <= Sh。 根据本发明,与喷射出口处的微细开口相对的弯月面的中心部分凸出,并且在该状态下喷射液体。 也就是说,由于喷出口的凹部内的液体并不全部喷出,因此能够喷射非常少量的液体。