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    • 1. 发明授权
      US08615327B2 Device and method for humidity estimation 有权
    • Device and method for humidity estimation
    • 湿度估算装置及方法
    • US08615327B2
    • 2013-12-24
    • US12903640
    • 2010-10-13
    • Yasuo TakagiKoichi IkedaYukio HiraokaHisashi KobayashiAkihiro Fujii
    • Yasuo TakagiKoichi IkedaYukio HiraokaHisashi KobayashiAkihiro Fujii
    • G01M1/38G05B13/00G05B15/00F25B41/06F25B1/00F25B49/00G01K13/00
    • F24F11/30F24F2110/20
    • A humidity estimation device connected with an air-conditioner includes a charge airflow rate estimation (CARE) unit, a charge air absolute humidity estimation (CAAHE) unit, an indoor generated vapor amount estimation (IGVAE) unit, and an indoor absolute humidity estimation (IAHE) unit. The CARE unit calculates an estimated charge airflow rate (ECAR) of the air-conditioner based on operation control information of the charge fan and a preset fan differential pressure. The CAAHE unit calculates an estimated charge air absolute humidity (ECAAH) of the air-conditioner based on a charge air temperature and a preset charge air relative humidity. The IGVAE unit calculates an estimated indoor generated vapor amount (EIGVA) based on an indoor temperature, the number of persons in the room and activity index values of the persons. The IAHE unit calculates an estimated absolute humidity in the room based on the ECAR, the ECAAH and the EIGVA.
    • 与空调机连接的湿度估计装置包括充气流量估计(CARE)单元,增压空气绝对湿度估计(CAAHE)单元,室内产生蒸气量估计单元和室内绝对湿度估计( IAHE)单位。 CARE单元基于充电风扇的操作控制信息和预设的风扇差压来计算空调的估计的充气流量(ECAR)。 CAAHE单元基于增压空气温度和预设的充气空气相对湿度来计算空调器的估计的增压空气绝对湿度(ECAAH)。 IGVAE单元基于室内温度,房间中的人数和人的活动指标值来计算估计的室内产生蒸气量(EIGVA)。 IAHE单位根据ECAR,ECAAH和EIGVA计算房间的绝对湿度估计值。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 2. 发明申请
      US20110088455A1 DEVICE AND METHOD FOR HUMIDITY ESTIMATION 有权
    • DEVICE AND METHOD FOR HUMIDITY ESTIMATION
    • 用于湿度估计的装置和方法
    • US20110088455A1
    • 2011-04-21
    • US12903640
    • 2010-10-13
    • Yasuo TAKAGIKoichi IkedaYukio HiraokaHisashi KobayashiAkihiro Fujii
    • Yasuo TAKAGIKoichi IkedaYukio HiraokaHisashi KobayashiAkihiro Fujii
    • G01N19/10
    • F24F11/30F24F2110/20
    • A humidity estimation device connected with an air-conditioner includes a charge airflow rate estimation (CARE) unit, a charge air absolute humidity estimation (CAAHE) unit, an indoor generated vapor amount estimation (IGVAE) unit, and an indoor absolute humidity estimation (IAHE) unit. The CARE unit calculates an estimated charge airflow rate (ECAR) of the air-conditioner based on operation control information of the charge fan and a preset fan differential pressure. The CAAHE unit calculates an estimated charge air absolute humidity (ECAAH) of the air-conditioner based on a charge air temperature and a preset charge air relative humidity. The IGVAE unit calculates an estimated indoor generated vapor amount (EIGVA) based on an indoor temperature, the number of persons in the room and activity index values of the persons. The IAHE unit calculates an estimated absolute humidity in the room based on the ECAR, the ECAAH and the EIGVA.
    • 与空调机连接的湿度估计装置包括充气流量估计(CARE)单元,增压空气绝对湿度估计(CAAHE)单元,室内产生蒸气量估计单元和室内绝对湿度估计( IAHE)单位。 CARE单元基于充电风扇的操作控制信息和预设的风扇差压来计算空调的估计的充气流量(ECAR)。 CAAHE单元基于增压空气温度和预设的充气空气相对湿度来计算空调器的估计的增压空气绝对湿度(ECAAH)。 IGVAE单元基于室内温度,房间中的人数和人的活动指标值来计算估计的室内产生蒸气量(EIGVA)。 IAHE单位根据ECAR,ECAAH和EIGVA计算房间的绝对湿度估计值。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 7. 发明授权
      US08203413B2 Winding component 失效
    • Winding component
    • 绕组件
    • US08203413B2
    • 2012-06-19
    • US12223430
    • 2007-01-24
    • Kiyoshi HironakaHideyuki AkiyamaToru HirohashiKatsuo YamadaAkihiro Fujii
    • Kiyoshi HironakaHideyuki AkiyamaToru HirohashiKatsuo YamadaAkihiro Fujii
    • H01F27/29H01F27/02H01F27/28H01F27/30
    • H01F5/04H01F27/29H01F38/10H01F41/076H01F41/10
    • [Problems] To realize a structure that is substantially highly reliable, that solves a problem of a wire break accompanied by an application of an external force to a terminal and at the same time solves a problem of a wire break caused by heat effects during dip soldering, without causing a strength reduction of the terminal, cost increase, and wire thinning.[Means for Solution] A winding component in which a terminal 12 is disposed in a protruding manner to a bobbin 14 provided with a winding portion, and a winding end is connected to the terminal, wherein a resin protrusion 40 is formed integral with the bobbin at a foot of the terminal, the resin protrusion is shaped with a part of its circumference notched so that a side surface of the terminal partially juts out, and a wire material that is wound around the resin protrusion a plurality of times comes into contact with the terminal and is to be connected by dip soldering.
    • [问题]为了实现高度可靠的结构,解决了对端子施加外力的断线问题,同时解决了由于浸渍期间的热效应导致的断线问题 焊接,而不会导致端子的强度降低,成本增加和线材变薄。 [解决方案]一种绕组部件,其中端子12以突出的方式设置在具有绕组部分的线轴14上,并且绕组端连接到端子,其中树脂突起40与线轴一体形成 在端子的脚下,树脂突起成形为其一部分圆周切口,使得端子的侧表面部分地突出,并且多次缠绕在树脂突起上的线材与 该终端并通过浸焊连接。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 8. 发明授权
      US08153295B2 Positive electrode active material and its manufacturing method, positive electrode for lithium secondary cell using same, and lithium secondary cell 有权
    • Positive electrode active material and its manufacturing method, positive electrode for lithium secondary cell using same, and lithium secondary cell
    • 正极活性物质及其制造方法,使用其的锂二次电池用正极和锂二次电池
    • US08153295B2
    • 2012-04-10
    • US10564742
    • 2004-07-13
    • Daisuke EndoAkihiro FujiiRyuji ShiozakiTokuo InamasuHiroe NakagawaToshiyuki Nukuda
    • Daisuke EndoAkihiro FujiiRyuji ShiozakiTokuo InamasuHiroe NakagawaToshiyuki Nukuda
    • H01M4/13
    • H01M4/525H01M4/485H01M4/505
    • A positive active material is provided which can inhibit side reactions between the positive electrode and an electrolyte even at a high potential and which, when applied to a battery, can improve charge/discharge cycle performance without impairing battery performances even in storage in a charged state. Also provided are: a process for producing the active material; a positive electrode for lithium secondary batteries which employs the active material; and a lithium secondary battery which has improved charge/discharge cycle performance while retaining intact battery performances even after storage in a charged state and which can exhibit excellent charge/discharge cycle performance even when used at a high upper-limit voltage. The positive active material comprises: base particles able to dope and release lithium ions; and an element in Group 3 of the periodic table present on at least part of that part of the base particles which is able to come into contact with an electrolyte. It is produced by, e.g., a process which comprises: producing base particles containing lithium and able to dope and release lithium ions; and then imparting an element in Group 3 of the periodic table to the base particles so that the element can be present on at least part of that part of the base particles which is able to come into contact with an electrolyte.
    • 提供一种正极活性物质,即使在高电位下也可以抑制正电极和电解质之间的副反应,并且当应用于电池时,即使在带电状态下的存储中也可以改善充电/放电循环性能而不损害电池性能 。 还提供了:生产活性材料的方法; 使用活性物质的锂二次电池用正极; 以及锂二次电池,即使在充电状态下保存后也能够保持完整的电池性能而具有改善的充放电循环性能,并且即使在高上限电压下使用也能表现出优异的充放电循环性能。 正极活性物质包括:能够掺杂和释放锂离子的基础颗粒; 并且周期表的组3中的元素存在于能够与电解质接触的基础颗粒的该部分的至少一部分上。 它通过例如包括:生产含锂的碱性颗粒并能够掺杂和释放锂离子的方法生产; 然后将元素在元素周期表的第3组中赋予基础颗粒,使得元素可以存在于能够与电解质接触的基础颗粒的那部分的至少一部分上。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 9. 发明授权
      US07576869B2 Three-dimensional shape measurement method and three-dimensional shape measurement apparatus 有权
    • Three-dimensional shape measurement method and three-dimensional shape measurement apparatus
    • 三维形状测量方法和三维形状测量装置
    • US07576869B2
    • 2009-08-18
    • US11820147
    • 2007-06-18
    • Akihiro Fujii
    • Akihiro Fujii
    • G01B11/02
    • G01B11/2441
    • The present invention provides a three-dimensional shape measurement method and a three-dimensional shape measurement apparatus. Color luminance data I (x, y) is separated by an arithmetic processing unit into R, G and B which are color components of a color image. Then, maximum amplitude values are calculated, and the maximum values are composed to obtain an in-focus color omnifocal image. Further, a Z-position corresponding to the maximum amplitude value in an interferogram is calculated in at least one color component, and this processing is performed for all pixels (x, y) to calculate height information for a sample. The height information is provided to the color omnifocal image, such that the three-dimensional shape of the sample can be measured.
    • 本发明提供三维形状测量方法和三维形状测量装置。 颜色亮度数据I(x,y)由算术处理单元分离成作为彩色图像的颜色分量的R,G和B。 然后,计算最大振幅值,并且构成最大值以获得对焦色彩全景图像。 此外,在至少一个颜色分量中计算对应于干涉图中的最大幅度值的Z位置,并且对所有像素(x,y)执行该处理以计算样本的高度信息。 将高度信息提供给全色图像,使得可以测量样品的三维形状。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
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