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    • 2. 发明专利
    • Heat accumulator
    • 热量累加器
    • JPS59180284A
    • 1984-10-13
    • JP5354883
    • 1983-03-31
    • Kenichi KimuraTobishima Kensetsu Kk
    • FUJITA MASAYASUKIMURA KENICHI
    • F28D20/00F28D20/02
    • F28D20/026Y02E60/145Y02E70/30
    • PURPOSE:To provide a heat accumulator with an excellent thermal efficiency which accumulates the solar heat or various waste heat for use in low temperature heating such as domestic heating by forming a latent heat accumulating layer between a primary heat accumulating layer such as a grain heat accumulating layer and soil. CONSTITUTION:A heat accumulator A is buried in the soil 2 under the floor 1 of a room B which is the part being heated. A latent heat accumulating layer 4 is formed by piling up plural sheets of plate-like latent heat accumulating bodies 7, and for the thermal medium, one or above two kinds among grease, wax, hydrocarbon, higher alcohol, polyhydric alcohol, higher fatty acid or crystal material having the melting point of 5-40 deg.C will be suitable. A primary heat accumulating layer 3 is formed by filling or piling one or above two kinds among water, sand, gravel, crushed stone, concrete pieces and ore. In this manner, the heat of the soil 2 is transferred to the latent heat accumulating layer 4 through a heat transfer layer 5 to be accumulated in the primary heat accumulating layer 3, and so the room B can be heated at a constant temperature over a long period of time.
    • 目的:提供一种具有优异热效率的蓄热器,其通过在主蓄热层(例如晶粒蓄热)之间形成潜热蓄积层,积聚太阳能热量或用于低温加热的各种废热,例如家用加热 层和土壤。 构成:蓄热器A埋在作为被加热部分的房间B的地板1下方的土壤2中。 通过堆叠多片板状潜热蓄积体7形成潜热蓄积层4,对于热介质,在油脂,蜡,烃,高级醇,多元醇,高级脂肪酸中的一种或两种以上 或熔点为5-40℃的结晶材料将是合适的。 主要蓄热层3是通过在水,砂,砾石,碎石,混凝土块和矿石中填充或堆放两种以上两种形成的。 以这种方式,土壤2的热量通过传热层5传递到潜热蓄积层4,以积聚在一次蓄热层3中,因此可以在恒温下加热室B 很长一段时间
    • 4. 发明专利
    • Heat accumulator
    • 热量累加器
    • JPS59180285A
    • 1984-10-13
    • JP5354983
    • 1983-03-31
    • Kenichi KimuraTobishima Kensetsu Kk
    • FUJITA MASAYASUKIMURA KENICHI
    • F28D17/00F28D20/02
    • F28D20/026Y02E60/145Y02E70/30
    • PURPOSE:To provide a heat accumulator with an excellent thermal efficiency which can be used as either heater or cooler by employing both a latent heat accumulating body which exchanges heat by the latent heat due to a phase transfer between a liquid phase and a solid phase and a granular heat accumulating layer which is formed by piling grains such as gravel or crushed stone. CONSTITUTION:Inside the heat insulating side plates 3, 3 in a housing 1, a granular heat accumulating layer 4 is formed by piling gravel, crushed stone, concrete pieces etc. Between the granular heat accumulating layer 4 and the top wall 1a of the housing 1, a latent heat accumulating body 8 covering the entire underside of the top wall 1a is disposed. The latent heat accumulating body 8 is made up by sealing a thermal medium 10 that exchanges heat by the latent heat due to a phase transfer between a liquid phase and a solid phase in a flat case 9. For the thermal medium, one or two kinds from among grease, wax, hydrocarbon, higher alcohol, polyhydric alcohol or higher fatty acid having the melting point of 10-90 deg.C will be suitable. When a room B is to be heated, a warm air such as outside air heated by the solar heat, air heated by making use of the night time electricity or waste heat from a boiler, etc. may be blown into the housing 1 through a feed air duct 11. If a cool air is fed into the housing 1 through the feed air duct 11, the room B can be cooled.
    • 目的:提供具有优异热效率的蓄热器,其可以通过采用由于液相和固相之间的相转移而由潜热交换热量的潜热蓄热体和用作加热器或冷却器的热蓄热器;以及 通过堆放诸如砾石或碎石的颗粒形成的颗粒蓄热层。 构成:在外壳1内的隔热侧板3,3的内部,通过堆放砾石,碎石,混凝土片等形成颗粒蓄积层4.在颗粒状蓄热层4与壳体的顶壁1a之间, 如图1所示,设置覆盖顶壁1a的整个下侧的潜热蓄积体8。 潜热蓄积体8通过密封由平坦壳体9中的液相和固相之间的相转移而由潜热而进行热交换的热介质10构成。对于热介质,一种或两种 来自油脂,蜡,烃,高级醇,多元醇或熔点为10-90℃的高级脂肪酸将是合适的。 当房间B被加热时,可以通过利用太阳能热量加热的外部空气的温暖空气,利用夜间加热的空气或者来自锅炉的余热等等,可以通过一个 进料空气管道11.如果冷空气通过进料空气管道11进入壳体1,则可以冷却室B。
    • 5. 发明授权
    • Liquid crystal display device and method of driving the same
    • 液晶显示装置及其驱动方法
    • US09286845B2
    • 2016-03-15
    • US14131239
    • 2012-05-29
    • Kenichi Kimura
    • Kenichi Kimura
    • G09G5/10G09G3/36G09G3/20
    • G09G3/3648G09G3/2003G09G2320/0233G09G2320/0242G09G2320/0252G09G2320/0285G09G2340/16
    • An adjacent gradation correcting unit 11 performs processing for correcting gradations of sub-pixels to a video signal X2 after overshoot processing. When determining that a gradation of a target sub-pixel corresponds to a higher liquid crystal application voltage than that of a gradation of an adjacent sub-pixel, and that a gradation difference between the target sub-pixel and the adjacent sub-pixel is large, the adjacent gradation correcting unit 11 corrects the gradation of the adjacent sub-pixel so as to make the gradation difference smaller. In driving a liquid crystal panel 1, a video signal X3 after correction obtained by the adjacent gradation correcting unit 11 is used. With this, when displaying a specific color, such as red, green, or blue, it is possible to suppress a lateral electric field occurring between two sub-pixels that are adjacent to each other, and to improve response speed of the liquid crystal panel 1.
    • 相邻灰度校正单元11执行用于在过冲处理之后将子像素的灰度校正为视频信号X2的处理。 当确定目标子像素的灰度对应于比相邻子像素的灰度更高的液晶施加电压,并且目标子像素和相邻子像素之间的灰度差大时 相邻灰度校正单元11校正相邻子像素的灰度以使灰度差变小。 在驱动液晶面板1时,使用由相邻灰度校正单元11获得的校正后的视频信号X3。 由此,当显示诸如红,绿或蓝的特定颜色时,可以抑制彼此相邻的两个子像素之间产生的横向电场,并且提高液晶面板的响应速度 1。
    • 6. 发明授权
    • Information recording patch, printed sheet, and authenticity discrimination method therefor
    • 信息记录贴片,印刷品和真伪鉴别方法
    • US08556299B2
    • 2013-10-15
    • US12223459
    • 2007-01-31
    • Noriyuki SutoKenichi Kimura
    • Noriyuki SutoKenichi Kimura
    • B42D15/00G09C3/00B42D15/10
    • G07D7/10B42D25/29
    • This invention provides an information recording patch that allows accurate authenticity discrimination, a printed sheet, and an authenticity discrimination method therefor. An information recording patch includes a protective layer (1), intermediate layer (2), metal layer (3), and adhesive layer (4). The protective layer (1) made of a material having a predetermined dielectric constant is arranged at the uppermost layer. The intermediate layer (2) made of a material having a predetermined dielectric constant has, on its surface, a three-dimensional pattern corresponding to the design of a hologram forming layer including the intermediate layer and the metal layer. The metal layer (3) made of a material having a predetermined conductivity is arranged on the three-dimensional surface of the intermediate layer to form a conductive film. A mirror surface having a three-dimensional pattern, which is formed by the metal layer and the intermediate layer, serves as the main component of the image of the hologram forming layer. The adhesive layer (4) made of a material having a predetermined dielectric constant has the characteristic of a dielectric of itself. When this information recording patch was measured using a leakage microwave sensor, the detected voltage exhibited “medium level” in the conductive region of the metal layer and “low level” in the remaining regions.
    • 本发明提供一种信息记录贴片,其允许准确的真实性鉴别,印刷品及其真实性鉴别方法。 信息记录贴片包括保护层(1),中间层(2),金属层(3)和粘合剂层(4)。 由具有预定介电常数的材料制成的保护层(1)布置在最上层。 由具有预定介电常数的材料制成的中间层(2)在其表面上具有与包括中间层和金属层的全息图形成层的设计相对应的三维图案。 由具有预定导电性的材料制成的金属层(3)布置在中间层的三维表面上以形成导电膜。 由金属层和中间层形成的具有三维图案的镜面用作全息图形成层的图像的主要成分。 由具有预定介电常数的材料制成的粘合层(4)具有自身电介质的特性。 当使用泄漏微波传感器测量该信息记录贴片时,检测到的电压在金属层的导电区域中呈现“中等水平”,在其余区域中呈现“低电平”。
    • 7. 发明申请
    • OPTICAL INFORMATION ANALYZER AND OPTICAL INFORMATION ANALYSIS METHOD
    • 光信息分析仪和光信息分析方法
    • US20120154804A1
    • 2012-06-21
    • US13337848
    • 2011-12-27
    • Ken TSUKIIKenichi KimuraToru TakahashiJie Xu
    • Ken TSUKIIKenichi KimuraToru TakahashiJie Xu
    • G01N21/49
    • G01N15/1434G01N2015/1452
    • An optical information analyzer (10) includes a light emitting unit (30) that emits light (excitation light) (L0) to a sample (S), a transmission light receiving unit (50) that receives transmission light (L1), which is the excitation light passing through the sample (S), and detects the received transmission light as a transmission light signal (SG1), scattered light/fluorescence receiving units (60) and (70) that are provided at a plurality of positions, receive side scattered light/fluorescence components (L2) and (L3) from the sample (S), and detect the received side scattered light/fluorescence components as scattered light/fluorescence signals (SG2) and (SG3), and an analyzing unit (90) that measures the optical information of the sample (S) on the basis of the detected scattered light/fluorescence signals (SG2) and (SG3) and the detected transmission light signal (SG1) and analyzes the sample (S) on the basis of the measured optical information.
    • 光信息分析装置(10)包括对样本(S)发光(激发光)(L0)的发光单元(30),接收透射光(L1)的透射光接收单元(50) 通过样品(S)的激发光,并且检测作为透射光信号(SG1)的接收的透射光,设置在多个位置的散射光/荧光接收单元(60)和(70),接收侧 检测来自样品(S)的散射光/荧光成分(L2)和(L3),并检测作为散射光/荧光信号(SG2)和(SG3)的接收侧散射光/荧光成分,以及分析单元(90) 根据检测到的散射光/荧光信号(SG2)和(SG3)和检测到的透射光信号(SG1)来测量样品(S)的光学信息,并基于样品(S) 测量光信息。
    • 9. 发明申请
    • OPTICAL INFORMATION ANALYZING DEVICE AND OPTICAL INFORMATION ANALYZING METHOD
    • 光信息分析装置和光信息分析方法
    • US20120092667A1
    • 2012-04-19
    • US13335997
    • 2011-12-23
    • Ken TSUKIIKenichi KimuraToru TakahashiJie Xu
    • Ken TSUKIIKenichi KimuraToru TakahashiJie Xu
    • G01N21/59G01N21/64G01N21/53
    • G01N15/1434G01N2015/1452
    • There are provided an optical information analyzing device and an optical information analyzing method in which a light receiving unit for receiving transmitted light is provided at a position directly facing an irradiating unit and which may increase the sensitivity of the received transmitted light by adjusting the position of a sample flow relative to a measurement region in a flow passage and measure the optical information on specimens with a small variation. An optical information analyzing device includes an irradiating unit that irradiates irradiation light to specimens, a transmitted light receiving unit that receives transmitted light and detects the transmitted light as a transmitted light signal, a scattering/fluorescent light receiving unit that receives lateral scattering light and fluorescent light and detects the lateral scattering light and the fluorescent light as a scattering/fluorescent light signal, a nozzle position adjusting mechanism that adjusts the position of an end portion of an introduction nozzle so as to align the position of the end portion of the introduction nozzle with the transmitted light receiving unit and the irradiating unit, and an analyzing unit that measures the optical information on the specimen on the basis of the detected transmitted light signal and the detected scattering/fluorescent light signal and analyzes the specimen.
    • 提供了一种光信息分析装置和光信息分析方法,其中用于接收透射光的光接收单元设置在直接面向照射单元的位置,并且可以通过调节所接收的透射光的位置来增加所接收的透射光的灵敏度 相对于流动通道中的测量区域的样品流,并且测量具有小变化的样品的光学信息。 光学信息分析装置包括:照射照射光的照射单元,接收透射光的透射光接收单元,并将透射光作为透射光信号进行检测;散射/荧光受光单元,其接收横向散射光和荧光 照射并检测横向散射光和荧光,作为散射/荧光信号;喷嘴位置调节机构,其调节引入喷嘴的端部的位置,以便对准引入喷嘴的端部的位置 以及分析单元,其基于检测到的透射光信号和检测到的散射/荧光信号来测量样本上的光学信息,并分析样本。