公开(公告)号：US20240426697A1

公开(公告)日：2024-12-26

申请号：US18748601

申请日：2024-06-20

Applicant: Kenji UEDA

Inventor： Kenji UEDA

IPC: G01M5/00

Abstract: A resin molded article includes a beam-shaped portion connected to the resin molded article and rising from a bottom of the resin molded article. The beam-shaped portion has one end as a root portion connected to the bottom of the resin molded article, and another end as a free end plastically deformable or breakable.

公开(公告)号：US20180121139A1

公开(公告)日：2018-05-03

申请号：US15572229

申请日：2016-06-07

Applicant: Takeyoshi SEKINE ,  Takenori OKU ,  Hiroshi NISHIDA ,  Satoshi HATANAKA ,  Kenji UEDA ,  Yasushi NAKAZATO ,  Fumihiro NAGANO ,  Yuuji NAGAMATSU ,  Ryusuke MASE

Inventor： Takeyoshi SEKINE ,  Takenori OKU ,  Hiroshi NISHIDA ,  Satoshi HATANAKA ,  Kenji UEDA ,  Yasushi NAKAZATO ,  Fumihiro NAGANO ,  Yuuji NAGAMATSU ,  Ryusuke MASE

IPC: G06F3/12 ,  G03G15/00 ,  H04N1/00

CPC classification number: G06F3/121 ,  B41J29/38 ,  G03G15/5079 ,  G03G15/553 ,  G06F3/1229 ,  G06F3/1234 ,  G06F3/1273 ,  G06F11/30 ,  H04N1/00 ,  H04N1/00015 ,  H04N1/00039 ,  H04N1/00068 ,  H04N2201/0094

Abstract: An information processing system includes one or more information processing apparatuses for determining lifetimes of components, to be replaced by preventive maintenance, of respective electric devices. The information processing system includes a leading variable specifying unit configured to specify, based on variables that represent use states of the electric devices and failure data of the electric devices which have been obtained from the electric devices, a plurality of leading variables relevant to the lifetimes of the components; a lifetime matrix creating unit configured to classify a plurality of values of each of the leading variables into sections to create a lifetime matrix in which the lifetimes of the components are set with respect to combinations of the sections each of which relates to a different leading variable; and a lifetime outputting unit configured to determine the lifetimes of the components with respect to the respective electric devices.

公开(公告)号：US09541318B2

公开(公告)日：2017-01-10

申请号：US13824215

申请日：2012-02-17

Applicant: Minoru Matsuo ,  Kenji Ueda ,  Toshihiko Niinomi ,  Hitoi Ono

Inventor： Minoru Matsuo ,  Kenji Ueda ,  Toshihiko Niinomi ,  Hitoi Ono

IPC: F25B49/02 ,  F04D27/00 ,  F04D27/02 ,  F25B41/04

CPC classification number: F25B49/02 ,  F04D27/001 ,  F04D27/0246 ,  F25B41/043 ,  F25B2400/0411 ,  F25B2400/23 ,  F25B2500/19 ,  F25B2700/135 ,  F25B2700/1351

Abstract: A flow rate of a heat transfer medium is computed without a flow meter. In a control apparatus (30), a storing portion (36) stores an aerodynamic characteristic map indicating a line causing a rotating stall and lines showing a sonic velocity in a refrigerant sucked in by a compressor (12) on a map displaying a variable θ reflecting a suction volume of the compressor (12) and a variable Ω reflecting a head of the compressor (12); a estimation portion of chilled water flow rate (30b) computes the variable Ω, derives the variable θ according to the variable Ω from the map, computes a heat amount exchanged between the refrigerant and the chilled water in an evaporator (24) based on the suction volume of the compressor (12) according to the computed variable θ, and computes the flow rate of the chilled water based on the heat amount.

Abstract translation: 在没有流量计的情况下计算传热介质的流量。 在控制装置（30）中，存储部（36）存储空气动力学特性图，表示导致旋转失速的线和表示由压缩机（12）吸入的制冷剂中的声速的线，显示变量θ 反映压缩机（12）的抽吸体积和反映压缩机（12）的头部的变量Ω; 冷冻水流量（30b）的估计部分计算变量Ω，根据来自地图的变量Ω导出变量θ，计算基于蒸发器（24）中的制冷剂和冷冻水之间交换的热量， 根据计算出的变量θ对压缩机12的抽吸量进行计算，并基于热量计算冷冻水的流量。

公开(公告)号：US20160334748A1

公开(公告)日：2016-11-17

申请号：US15151566

申请日：2016-05-11

Applicant: Jumpei AOYAMA ,  Hajime NISHIDA ,  Manabu NONAKA ,  Junichi SUGITA ,  Kenji UEDA

Inventor： Jumpei AOYAMA ,  Hajime NISHIDA ,  Manabu NONAKA ,  Junichi SUGITA ,  Kenji UEDA

IPC: G03G15/00 ,  B65H3/52 ,  B65H3/06

CPC classification number: B65H3/5223 ,  B65H3/06 ,  G03G15/6511

Abstract: A sheet feeder, which is included in an image forming apparatus, includes a sheet feeding unit to feed a sheet, a sheet separating unit disposed opposite the sheet feeding unit to separate the sheet together with the sheet feeding unit, a bottom plate on which the sheet is loaded, a pressing unit having a leading end and movably disposed between the bottom plate and the sheet separating unit, and a support to rotatably support the pressing unit such that the leading end of the pressing unit contacts and separates from the sheet feeding unit.

Abstract translation: 包括在图像形成装置中的送纸器包括供纸单元，片材分离单元，与片材进给单元相对设置，以将片材与片材进给单元分离;底板， 片材被加载，具有前端并可移动地设置在底板和片材分离单元之间的按压单元和支撑件，以可旋转地支撑按压单元，使得按压单元的前端与片材进给单元接触并分离 。

公开(公告)号：US09206994B2

公开(公告)日：2015-12-08

申请号：US13389223

申请日：2010-06-30

Applicant: Minoru Matsuo ,  Kenji Ueda

Inventor： Minoru Matsuo ,  Kenji Ueda

IPC: F25D21/06 ,  F25B7/00 ,  F25B19/00 ,  F25B23/00 ,  F24F11/00 ,  F25B1/10

CPC classification number: F24F11/006 ,  F24F11/30 ,  F24F11/62 ,  F24F11/63 ,  F25B1/10 ,  F25B2339/047 ,  F25B2400/13 ,  F25B2600/021 ,  F25B2700/21161 ,  F25B2700/21171 ,  Y02B30/741

Abstract: Upon newly installing a system or installing an additional heat source apparatuses, manual adjustment of a number-of-units control device should be eliminated. Provided is a heat source system including a plurality of heat source apparatuses connected in parallel; and a number-of-units control device that controls on and off of the plurality of the heat source apparatuses and allocates a load to an active heat source apparatus according to a load demand, wherein the heat source apparatuses each possess COP map unique to the respective heat source apparatuses that indicates a relationship among operating status, coefficient of performance, and load factor, each of the heat source apparatuses sets the appropriate operating region in correspondence to the operating status from the COP map and sends it to the number-of-units control device, and the number-of-units control device performs number-of-units control of the heat source apparatus and load allocation on the basis of the appropriate operating region that is sent from each of the heat source apparatuses.

Abstract translation: 在新安装系统或安装额外的热源装置时，应该消除单元数控制装置的手动调节。 提供一种并联连接的多个热源装置的热源系统， 以及多个单元控制装置，其控制多个热源装置的接通和关闭，并根据负载需求向活性热源装置分配负荷，其中，热源装置各自具有对于 表示操作状态，性能系数和负载率之间的关系的各个热源装置，每个热源装置根据来自COP图的操作状态设置适当的操作区域，并将其发送到第 单元控制装置，并且单位数控制装置根据从各个热源装置发送的适当的运行区域，对热源装置进行单位数控制和负荷分配。

公开(公告)号：US09115921B2

公开(公告)日：2015-08-25

申请号：US12763699

申请日：2010-04-20

Applicant: Kenji Ueda ,  Yoshie Togano

Inventor： Kenji Ueda ,  Yoshie Togano

IPC: G01L3/26 ,  F25B49/02 ,  F25B1/053 ,  F25B1/10 ,  F25B25/00 ,  F25B40/02

CPC classification number: F25B49/025 ,  F25B1/053 ,  F25B1/10 ,  F25B25/005 ,  F25B40/02 ,  F25B2339/047 ,  F25B2341/0662 ,  F25B2400/072 ,  F25B2400/13 ,  F25B2400/23 ,  F25B2600/021 ,  F25B2700/195 ,  F25B2700/197 ,  F25B2700/21161 ,  F25B2700/21163 ,  F25B2700/21171 ,  Y02B30/741

Abstract: An object is to sequentially calculate planned COPs. Provided is a performance evaluation device for a variable-speed centrifugal chiller that includes a data acquisition unit that acquires operating data of the variable-speed centrifugal chiller as input data; a storage unit that stores a first arithmetic equation derived on the basis of mechanical characteristics of the chiller and used for calculating a relative load factor that relatively expresses a relationship between a current load factor at a current coolant inlet temperature and a predetermined load factor at a predetermined coolant inlet temperature set as a reference operating point, a second arithmetic equation that expresses a relationship between the relative load factor and a correction coefficient, and a third arithmetic equation used for calculating a planned COP by using the correction coefficient to correct a COP calculation equation derived from a reverse Carnot cycle; and an arithmetic unit that calculates the planned COP under current operating conditions by using the operating data acquired by the data acquisition unit in the first, second, and third arithmetic equations stored in the storage unit.

Abstract translation: 一个对象是顺序地计算计划的COP。 本发明提供一种变速离心制冷机的性能评价装置，其包括：数据采集单元，其取得变速离心式制冷机的运转数据作为输入数据; 存储单元，其存储基于所述冷却器的机械特性导出的第一算术方程，并且用于计算相对表示当前冷却剂入口温度下的当前负载系数与预定负载系数之间的关系的相对负载系数 设定为参考工作点的预定冷却剂入口温度，表示相对负载系数和校正系数之间的关系的第二算术公式和用于通过使用校正系数来计算COP计算来计算计划COP的第三算术方程 反向卡诺循环得出的方程; 以及算术单元，其通过使用存储在存储单元中的第一，第二和第三算术等式中的数据获取单元获取的操作数据来计算当前操作条件下的计划COP。

公开(公告)号：US09048400B2

公开(公告)日：2015-06-02

申请号：US12444832

申请日：2007-10-12

Applicant: Kenji Sugiura ,  Hideo Nagai ,  Tetsushi Tamura ,  Kenji Ueda ,  Kazuyuki Okano

Inventor： Kenji Sugiura ,  Hideo Nagai ,  Tetsushi Tamura ,  Kenji Ueda ,  Kazuyuki Okano

IPC: H01L33/00 ,  H01L33/50 ,  H01L33/54 ,  H01L33/58

CPC classification number: H01L33/508 ,  H01L33/54 ,  H01L33/58 ,  H01L2924/0002 ,  H01L2933/0091 ,  H01L2924/00

Abstract: A light-emitting device (1) includes a base (10), a light-emitting element (11) placed on the base (10), and a wavelength converting layer (12) that covers the light-emitting element (11). The wavelength converting layer (12) includes a wavelength converting portion (13) that converts a wavelength of light from the light-emitting element (11), and a light guide portion (14) made of a light-transmitting material, and the light guide portion (14) extends from a light-emitting element (11) side to a light extraction side of the wavelength converting layer (12). Consequently, it is possible to provide a light-emitting device that can be miniaturized and reduced in thickness easily and can prevent a decrease in the light extraction efficiency.

Abstract translation: 发光器件（1）包括基底（10），放置在基底（10）上的发光元件（11）和覆盖发光元件（11）的波长转换层（12）。 波长转换层（12）包括：转换来自发光元件（11）的光的波长的波长转换部（13），以及由透光材料构成的导光部（14） 引导部分（14）从发光元件（11）侧延伸到波长转换层（12）的光提取侧。 因此，可以容易地提供可以小型化和减小厚度的发光装置，并且可以防止光提取效率的降低。

公开(公告)号：US08646284B2

公开(公告)日：2014-02-11

申请号：US13146811

申请日：2010-03-29

Applicant: Kenji Ueda

Inventor： Kenji Ueda

IPC: F25B7/00

CPC classification number: F25B1/053 ,  F25B49/027 ,  F25B2400/06 ,  F25B2700/2106 ,  F28B9/06 ,  F28C2001/006 ,  F28F27/00

Abstract: A heat-source system includes centrifugal-chillers, cooling-water pumps, cooling towers, cooling-tower fans, chilled-water pumps, and a control unit for controlling them. A plurality of the cooling towers are provided so as to have a cooling-tower capacity corresponding to the total capacity of the rated capacities of the respective centrifugal-chillers, the cooling towers being commonly connected to the plurality of centrifugal-chillers. The control unit preliminarily prepares an optimum cooling-tower capacity relationship representing the cooling-tower capacity with which the heat-source system efficiency, taking into consideration the centrifugal-chillers, the cooling-water pump, the cooling towers, the cooling-tower fan, and the chilled-water pump, is higher, in relation to the outside-air wet-bulb temperature and the centrifugal-chiller partial load factor. The control unit determines the number of cooling towers to be operated by referring to the optimum cooling-tower capacity relationship, on the basis of the outside-air wet-bulb temperature and the partial load factor of the centrifugal-chillers during operation.

Abstract translation: 热源系统包括离心冷却器，冷却水泵，冷却塔，冷却塔式风扇，冷水泵和用于控制它们的控制单元。 多个冷却塔设置成具有对应于各个离心冷却器的额定容量的总容量的冷却塔容量，冷却塔通常连接到多个离心式冷却器。 控制单元预先准备表示考虑到离心冷却器，冷却水泵，冷却塔，冷却塔风扇等的热源系统效率的冷却塔容量的最佳冷却塔容量关系 和冷水泵相对于外部空气湿球温度和离心冷却器部分负荷系数较高。 控制单元基于室外湿球温度和离心冷水机组在运行中的部分负荷系数，通过参考最佳冷却塔容量关系确定要运行的冷却塔数量。

公开(公告)号：US08559084B2

公开(公告)日：2013-10-15

申请号：US12140457

申请日：2008-06-17

Applicant: Koji Eto ,  Minoru Azakami ,  Kazutoshi Awano ,  Kenji Ueda

Inventor： Koji Eto ,  Minoru Azakami ,  Kazutoshi Awano ,  Kenji Ueda

IPC: G03H1/00

CPC classification number: G03H1/0011 ,  B42D25/29 ,  B42D25/328 ,  B42D25/387 ,  B42D25/455 ,  B42D2035/06 ,  B42D2035/08 ,  B42D2035/24 ,  B44C1/1704 ,  G03H1/02 ,  G03H1/0248 ,  G03H1/0256 ,  G03H2001/2234 ,  G03H2222/15 ,  G03H2250/10 ,  G03H2250/40

Abstract: A major object of the present invention is to provide a volume hologram transfer foil that gives a volume hologram laminate higher in antiforgery function.The present invention achieves the object by providing a volume hologram transfer foil comprising: a substrate, a volume hologram layer carrying a recorded volume hologram that is formed on the substrate, and an image forming layer carrying a formed image and a heat seal layer containing a thermoplastic resin that are formed on the volume hologram layer, and comprising no reflective layer having a function to reflect light.

Abstract translation: 本发明的主要目的是提供一种体积全息图转印箔，其赋予体积全息图叠层更高的防伪功能。 本发明通过提供一种体积全息图转印箔来实现该目的，其包括：基板，承载形成在基板上的记录体积全息图的体积全息图层和承载形成图像的图像形成层和含有 形成在体积全息图层上的热塑性树脂，并且不包括具有反射光的功能的反射层。

公开(公告)号：US20130238258A1

公开(公告)日：2013-09-12

申请号：US13885944

申请日：2012-02-16

Applicant: Minoru Matsuo ,  Kenji Ueda ,  Toshihiko Niinomi ,  Hitoi Ono

Inventor： Minoru Matsuo ,  Kenji Ueda ,  Toshihiko Niinomi ,  Hitoi Ono

IPC: G01F3/00

CPC classification number: G01F3/00 ,  F25B41/04 ,  F25B49/025 ,  F25B2400/13 ,  F25B2600/2509 ,  F25B2600/2513

Abstract: A required-circulated-refrigerant flow-rate calculating portion provided in a chilled-water flow-rate estimation calculation portion calculates an evaporator exchanged heat quantity exchanged between a refrigerant and chilled water at an evaporator based on a planned chilled-water-flow-rate value and a measured value of the temperature of the chilled water flowing in the evaporator, and calculates an evaporator-refrigerant flow rate based on that evaporator exchanged heat quantity. Then, a circulated-chilled-water flow-rate back-calculating portion back-calculates an evaporator-refrigerant flow rate based on the calculated evaporator-refrigerant flow rate and a ratio between a set value of differential pressure between a condenser and the evaporator and a measured value of that differential pressure, back-calculates an evaporator exchanged heat quantity exchanged between the refrigerant and the chilled water at the evaporator from the back-calculated evaporator-refrigerant flow rate, and back-calculates the flow rate of the chilled water.

Abstract translation: 设置在冷冻水流量估计计算部中的所需循环制冷剂流量计算部基于计划的冷冻水流量计算蒸发器在制冷剂与冷冻水之间交换的蒸发器交换热量 值和在蒸发器中流动的冷冻水的温度的测量值，并且基于该蒸发器交换热量来计算蒸发器 - 制冷剂流量。 然后，循环冷水流量反向运算部基于所计算的蒸发器 - 制冷剂流量和冷凝器与蒸发器之间的压差设定值之间的比率，反演计算蒸发器 - 制冷剂流量，以及 该差压的测定值，从反算出的蒸发器 - 制冷剂流量，反向计算在蒸发器处的制冷剂与冷冻水之间交换的蒸发器交换热量，并反向计算冷冻水的流量。