公开(公告)号：US20100181213A1

公开(公告)日：2010-07-22

申请号：US12602675

申请日：2008-06-05

Applicant: Katsuyoshi Fujita ,  Hidehito Kubo ,  Daigoro Mori ,  Katsuhiko Hirose ,  Norihiko Haraikawa

Inventor： Katsuyoshi Fujita ,  Hidehito Kubo ,  Daigoro Mori ,  Katsuhiko Hirose ,  Norihiko Haraikawa

IPC: B65B3/00

CPC classification number: F17C11/005 ,  Y02E60/321 ,  Y02P90/45 ,  Y10T29/49826

Abstract: A hydrogen storage tank includes a tank main body, partition sections, and a hydrogen flow pipe. The hydrogen flow pipe prevents MH powder from passing through and permits hydrogen to pass through. The tank main body includes a hollow body portion having openings on opposite ends. Dome portions are joined to opening ends of the body portion. Partition sections are provided in the body portion so that first retaining chambers, which retain the MH powder, are defined in the body portion. Extended portions, which serve as second partition members, are provided in the dome portions to divide the space in the dome portions into second retaining chambers, which retain the MH powder.

Abstract translation: 储氢罐包括罐主体，分隔部和氢气流管。 氢气流管防止MH粉末通过并允许氢气通过。 罐主体包括在相对端具有开口的中空主体部分。 圆顶部分连接到主体部分的开口端。 分隔部分设置在主体部分中，使得保持MH粉末的第一保持室被限定在主体部分中。 用作第二分隔构件的延伸部分设置在圆顶部分中，以将圆顶部分中的空间分成保留MH粉末的第二保持室。

公开(公告)号：US20090314474A1

公开(公告)日：2009-12-24

申请号：US11919368

申请日：2006-04-19

Applicant: Masahiko Kimbara ,  Keiji Toh ,  Hidehito Kubo ,  Katsufumi Tanaka ,  Kota Otoshi ,  Eiji Kono ,  Nobuhiro Wakabayashi ,  Shintaro Nakagawa ,  Yuichi Furukawa ,  Shinobu Yamauchi

Inventor： Masahiko Kimbara ,  Keiji Toh ,  Hidehito Kubo ,  Katsufumi Tanaka ,  Kota Otoshi ,  Eiji Kono ,  Nobuhiro Wakabayashi ,  Shintaro Nakagawa ,  Yuichi Furukawa ,  Shinobu Yamauchi

IPC: H05K7/20 ,  F28D15/00 ,  F28F3/12

CPC classification number: H01L23/473 ,  F28F3/086 ,  F28F3/12 ,  H01L23/3731 ,  H01L23/3736 ,  H01L2224/48091 ,  H01L2224/48137 ,  H01L2924/00014

Abstract: A heat sink for a power module able to realize a further improvement of heat radiating performance and a further improvement of a mounting property is provided.The heat sink 1 for a power module has a laminating body 20, a first side plate 30 and a second side plate 40. The laminating body 20 has plural flow path plates 21 formed in a plate shape in which plural grooves 23 parallel to each other are concavely arranged on a flat joining face 22. Each groove 23 is set to a parallel flow path 50 parallel to a front face side by laminating each flow path plate 21 by each joining face 22. A portion other than each groove 23 of each joining face 22 forms a heat transfer path 70a to each parallel flow path 50 of a laminating direction. A flow-in path 30a and a flow-out path 40a are formed in the first and second side plates 30, 40. The flow-in path 30a and the flow-out path 40a are joined to side faces 26a, 26b of the laminating body 20, and are communicated with each parallel flow path 50. The flow-in path 30a flows a cooling medium into each parallel flow path 50. The flow-out path 40a flows the cooling medium out of each parallel flow path 50. A refrigerant flow path is constructed by the flow-in path 30a, each parallel flow path 50 and the flow-out path 40a.

Abstract translation: 提供了能够实现进一步提高散热性能的功率模块的散热器，并且进一步提高了安装特性。 用于功率模块的散热器1具有层叠体20，第一侧板30和第二侧板40.层叠体20具有多个形成为板状的流路板21，多个相互平行的槽23 凹陷地布置在平坦的接合面22上。每个槽23通过每个接合面22层压每个流路板21而设置成平行于前表面的平行流动路径50.每个连接的每个槽23之外的部分 面22对层叠方向的各平行流路50形成传热路径70a。 在第一和第二侧板30,40中形成有流入路径30a和流出路径40a。流入路径30a和流出路径40a与层叠的侧面26a，26b接合 主体20并与每个平行流动路径50连通。流入路径30a将冷却介质流入每个平行流动路径50.流出路径40a将冷却介质从每个平行流动路径50流出。制冷剂 流路由流入路径30a，每个平行流路50和流出路径40a构成。

公开(公告)号：US20090302458A1

公开(公告)日：2009-12-10

申请号：US11922945

申请日：2006-06-27

Applicant: Hidehito Kubo ,  Masahiko Kimbara ,  Keiji Toh ,  Kota Otoshi ,  Eiji Kono ,  Katsufumi Tanaka ,  Nobuhiro Wakabayashi ,  Shintaro Nakagawa ,  Yuichi Furukawa ,  Shinobu Yamauchi

Inventor： Hidehito Kubo ,  Masahiko Kimbara ,  Keiji Toh ,  Kota Otoshi ,  Eiji Kono ,  Katsufumi Tanaka ,  Nobuhiro Wakabayashi ,  Shintaro Nakagawa ,  Yuichi Furukawa ,  Shinobu Yamauchi

IPC: H01L23/367 ,  H05K7/20

CPC classification number: H05K7/20263 ,  F28F3/027 ,  H01L23/3672 ,  H01L23/473 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A heat sink (1) for power module is capable of mounting a power device (101) on at least a surface of the heat sink. The heat sink includes a refrigerant passage (1d) in which cooling medium that dissipates heat generated by the power device (101) flows and a corrugated fin body (1a) arranged in the refrigerant passage (1d). The corrugated fin body (1a) has crests (21b) and troughs (21c) that extend in the flow direction of the cooling medium, and side walls (21a) each of which connects the corresponding one of the crests (21b) with the adjacent one of the troughs (21c). Each adjacent pair of the side walls (21a) and the corresponding one of the crests (21b) or the corresponding one of the troughs (21c) arranged between the adjacent side walls (21a) form a fin (21). Each of the side walls (21a) has a louver (31) that operates to, at least, rotate the cooling medium flowing in the associated fin (21). The heat sink (1) thus has a further improved heat dissipating performance.

Abstract translation: 用于功率模块的散热器（1）能够将功率器件（101）安装在散热器的至少一个表面上。 散热器包括散发由动力装置（101）产生的热量的冷却介质流动的制冷剂通路（1d）和布置在制冷剂通路（1d）中的波纹状散热片体（1a）。 波纹状散热片体（1a）具有在冷却介质的流动方向上延伸的波峰（21b）和槽（21c），以及各个顶部（21b）的相应一个与相邻的顶部 一个槽（21c）。 布置在相邻侧壁（21a）之间的每个相邻的一对侧壁（21a）和相应的一个峰（21b）或相应的一个槽（21c）形成翅片（21）。 每个侧壁（21a）具有操作以使至少旋转在相关联的翅片（21）中流动的冷却介质的百叶窗（31）。 因此，散热器（1）具有进一步改善的散热性能。

公开(公告)号：US07418782B2

公开(公告)日：2008-09-02

申请号：US10806163

申请日：2004-03-23

Applicant: Masahiko Kimbara ,  Daigoro Mori ,  Takehiro Nito ,  Hidehito Kubo ,  Akiko Kumano ,  Makoto Tsuzuki ,  Yoshihiro Isogai

Inventor： Masahiko Kimbara ,  Daigoro Mori ,  Takehiro Nito ,  Hidehito Kubo ,  Akiko Kumano ,  Makoto Tsuzuki ,  Yoshihiro Isogai

IPC: B21D53/02 ,  F17C1/08

CPC classification number: C01B3/0005 ,  F17C11/005 ,  Y02E60/321 ,  Y02E60/324 ,  Y10T29/4935 ,  Y10T29/4981 ,  Y10T29/49879

Abstract: The technique of the invention manufactures a gas storage tank, which includes a gas absorbent/adsorbent and is capable of storing a high-pressure gas. The manufacturing process of a hydrogen storage tank first assembles a heat exchanger unit and packs the particles of hydrogen storage alloy into the heat exchanger unit. The manufacturing process then blocks hydrogen storage alloy filling holes used for packing the hydrogen storage alloy in the heat exchanger unit and attaches a detachable cover member to a hydrogen inlet. The manufacturing process subsequently locates the heat exchange unit filled with the hydrogen storage alloy in a cylindrical tank and narrows both ends of the tank to form joint openings. The manufacturing process then heat-treating the tank under water cooling and detaches the cover member. The manufacturing process attaches joint assemblies to the joint openings and forms a reinforcement layer around the outer circumference of the tank to complete the hydrogen storage tank.

Abstract translation: 本发明的技术制造了一种包括气体吸收剂/吸附剂并且能够储存高压气体的储气罐。 氢储罐的制造工序首先组装热交换器单元，并将储氢合金颗粒包装到热交换器单元中。 制造工艺然后阻止用于在热交换器单元中包装储氢合金的储氢合金填充孔，并将可拆卸的盖构件附接到氢气入口。 制造过程随后将填充有储氢合金的热交换单元定位在圆筒形罐中并使罐的两端变窄以形成接合孔。 然后制造过程在水冷却下对罐进行热处理并分离盖构件。 制造过程将接头组件附接到接合开口，并且围绕罐的外周形成加强层以完成储氢罐。

公开(公告)号：US20080066887A1

公开(公告)日：2008-03-20

申请号：US11981145

申请日：2007-10-30

Applicant: Keiji Toh ,  Hidehito Kubo ,  Katsuyoshi Fujita ,  Akiko Kumano ,  Masahiko Kimbara ,  Yoshihiro Isogai ,  Daigoro Mori

Inventor： Keiji Toh ,  Hidehito Kubo ,  Katsuyoshi Fujita ,  Akiko Kumano ,  Masahiko Kimbara ,  Yoshihiro Isogai ,  Daigoro Mori

IPC: F28D1/06 ,  F28F9/02

CPC classification number: F17C1/00 ,  F17C1/16 ,  F17C2201/0109 ,  F17C2201/035 ,  F17C2201/054 ,  F17C2201/056 ,  F17C2203/0604 ,  F17C2203/0619 ,  F17C2203/0621 ,  F17C2203/0636 ,  F17C2203/0639 ,  F17C2203/0643 ,  F17C2203/0646 ,  F17C2203/0648 ,  F17C2203/0658 ,  F17C2203/066 ,  F17C2203/0665 ,  F17C2203/067 ,  F17C2205/0305 ,  F17C2205/0323 ,  F17C2209/2154 ,  F17C2209/221 ,  F17C2209/228 ,  F17C2221/012 ,  F17C2221/014 ,  F17C2221/033 ,  F17C2223/0123 ,  F17C2223/035 ,  F17C2223/036 ,  F17C2227/0302 ,  F17C2227/0309 ,  F17C2227/0316 ,  F17C2227/0348 ,  F17C2227/0372 ,  F17C2260/011 ,  F17C2260/012 ,  F17C2260/018 ,  F17C2260/036 ,  F17C2265/066 ,  F17C2270/00 ,  F17C2270/0168 ,  F17C2270/0184 ,  F17C2270/0763 ,  F28D1/0213 ,  H01M8/04208 ,  Y02E60/321

Abstract: A pressure tank includes a liner separated into a cap and a main body. A shell covers the outer surface of the liner. The shell is formed of a fiber reinforced plastic. A heat exchanger is arranged in the liner. A header is connected to the heat exchanger. The heat exchanger is supported on the liner by fastening the header to the cap or the main body.

公开(公告)号：US20080044704A1

公开(公告)日：2008-02-21

申请号：US11659897

申请日：2005-12-22

Applicant: Hidehito Kubo ,  Daigoro Mori

Inventor： Hidehito Kubo ,  Daigoro Mori

IPC: H01M8/04 ,  F17C11/00 ,  F17C7/00 ,  H01M8/10 ,  H01M8/00

CPC classification number: H01M8/04089 ,  F17C2221/012 ,  H01M8/04007 ,  H01M8/04014 ,  H01M8/04208 ,  H01M8/04216 ,  H01M8/04253 ,  H01M2250/20 ,  Y02E60/321 ,  Y02T90/32

Abstract: In a fuel cell system 10, hydrogen is supplied to a fuel cell 11 from a hydrogen storage tank 12 provided with a hydrogen-absorbing alloy MH and a heat exchanger 18. In this process, the pressure in the hydrogen storage tank 12 is held at a level equal to or higher than a predetermined pressure by using a heat medium that cooled the fuel cell 11. When the temperature of the hydrogen supplied to the fuel cell 11 is at the predetermined temperature or below, a control device 30 controls, based on a detection signal provided from a temperature sensor 23, first to fourth electromagnetic valves V1 to V4 so that the heat medium after having cooled the fuel cell 11 is supplied to the heat exchanger 18.

Abstract translation: 在燃料电池系统10中，从设置有吸氢合金MH和热交换器18的储氢箱12向燃料电池11供给氢。在该过程中，将氢储存罐12中的压力保持在 通过使用冷却燃料电池11的热介质，等于或高于预定压力的水平。当供应到燃料电池11的氢的温度处于预定温度或更低时，控制装置30基于 从温度传感器23，第一至第四电磁阀V 1至V 4提供的检测信号，使得将燃料电池11冷却后的热介质供应到热交换器18。

公开(公告)号：US07240549B2

公开(公告)日：2007-07-10

申请号：US10969014

申请日：2004-10-21

Applicant: Masahiko Kimbara ,  Daigoro Mori ,  Takehiro Nito ,  Hidehito Kubo ,  Makoto Tsuzuki

Inventor： Masahiko Kimbara ,  Daigoro Mori ,  Takehiro Nito ,  Hidehito Kubo ,  Makoto Tsuzuki

IPC: G01F23/20

CPC classification number: G01F23/20 ,  B60K2015/03217

Abstract: A control unit 40 acquires acceleration α sensed by an acceleration sensor 31, and if the control unit 40 determines that acceleration α does not equal zero, the control unit 40 again acquires acceleration α. In the event that the control unit 40 decides that acceleration α equals zero, the control unit 40 acquires the weight M sensed by the weight sensor 30. The control unit 40 continues sampling of weight M until a predetermined sampling period has elapsed. Once the sampling period has elapsed, the control unit 40 calculates the average of weight M obtained through sampling, and uses the calculated average and a map to determine hydrogen amount.

Abstract translation: 控制单元40获取由加速度传感器31感测的加速度α，并且如果控制单元40确定加速度α不等于零，则控制单元40再次获取加速度α。 在控制单元40判定加速度α等于零的情况下，控制单元40获取由重量传感器30感测到的重量M.控制单元40继续采样重量M，直到经过预定的采样周期。 一旦采样周期过去，控制单元40计算通过采样获得的权重M的平均值，并使用所计算的平均值和映射来确定氢量。

公开(公告)号：US07152665B2

公开(公告)日：2006-12-26

申请号：US10841279

申请日：2004-05-07

Applicant: Keiji Toh ,  Hidehito Kubo ,  Katsuyoshi Fujita ,  Akiko Kumano ,  Masahiko Kimbara ,  Yoshihiro Isogai ,  Daigoro Mori

Inventor： Keiji Toh ,  Hidehito Kubo ,  Katsuyoshi Fujita ,  Akiko Kumano ,  Masahiko Kimbara ,  Yoshihiro Isogai ,  Daigoro Mori

IPC: F28F9/02

CPC classification number: F17C1/00 ,  F17C1/16 ,  F17C2201/0109 ,  F17C2201/035 ,  F17C2201/054 ,  F17C2201/056 ,  F17C2203/0604 ,  F17C2203/0619 ,  F17C2203/0621 ,  F17C2203/0636 ,  F17C2203/0639 ,  F17C2203/0643 ,  F17C2203/0646 ,  F17C2203/0648 ,  F17C2203/0658 ,  F17C2203/066 ,  F17C2203/0665 ,  F17C2203/067 ,  F17C2205/0305 ,  F17C2205/0323 ,  F17C2209/2154 ,  F17C2209/221 ,  F17C2209/228 ,  F17C2221/012 ,  F17C2221/014 ,  F17C2221/033 ,  F17C2223/0123 ,  F17C2223/035 ,  F17C2223/036 ,  F17C2227/0302 ,  F17C2227/0309 ,  F17C2227/0316 ,  F17C2227/0348 ,  F17C2227/0372 ,  F17C2260/011 ,  F17C2260/012 ,  F17C2260/018 ,  F17C2260/036 ,  F17C2265/066 ,  F17C2270/00 ,  F17C2270/0168 ,  F17C2270/0184 ,  F17C2270/0763 ,  F28D1/0213 ,  H01M8/04208 ,  Y02E60/321

Abstract: A pressure tank includes a liner separated into a cap and a main body. A shell covers the outer surface of the liner. The shell is formed of a fiber reinforced plastic. A heat exchanger is arranged in the liner. A header is connected to the heat exchanger. The heat exchanger is supported on the liner by fastening the header to the cap or the main body.

Abstract translation: 压力罐包括分隔成盖和主体的衬垫。 外壳覆盖衬套的外表面。 外壳由纤维增强塑料制成。 热交换器布置在衬套中。 集管连接到热交换器。 热交换器通过将集管固定到盖或主体而支撑在衬套上。

公开(公告)号：US20060180235A1

公开(公告)日：2006-08-17

申请号：US11361540

申请日：2006-02-24

Applicant: Hidehito Kubo ,  Yoshihiro Isogai ,  Daigoro Mori

Inventor： Hidehito Kubo ,  Yoshihiro Isogai ,  Daigoro Mori

IPC: B65B1/28 ,  B65B1/20

CPC classification number: B60H1/00257 ,  B60H1/00392 ,  B60L11/1896 ,  B60L2240/36 ,  F17C5/06 ,  F17C11/005 ,  F17C2201/0109 ,  F17C2201/056 ,  F17C2201/058 ,  F17C2205/0142 ,  F17C2205/0326 ,  F17C2221/012 ,  F17C2223/0123 ,  F17C2227/0157 ,  F17C2227/0309 ,  F17C2227/0313 ,  F17C2227/0388 ,  F17C2227/0397 ,  F17C2250/032 ,  F17C2250/043 ,  F17C2250/0439 ,  F17C2250/0631 ,  F17C2260/025 ,  F17C2265/065 ,  F17C2270/0139 ,  F17C2270/0168 ,  F17C2270/0184 ,  H01M8/04201 ,  H01M2250/20 ,  Y02E60/321 ,  Y02T90/32 ,  Y02T90/34

Abstract: A hydrogen station includes gas storage equipment for storing hydrogen, a dispenser for charging hydrogen gas supplied from the gas storage equipment into a hydrogen tank of a vehicle, and a blower. When charging hydrogen, the blower blows air towards a radiator of the vehicle parked at a predetermined vehicle parking area of the hydrogen station. The current flow of the blower is adjusted in accordance with the heat load on the radiator.

Abstract translation: 氢气站包括用于储存氢气的储气设备，用于将从气体存储设备供应的氢气充入车辆的氢罐中的分配器和鼓风机。 当充入氢气时，鼓风机将空气吹向停放在氢气站的预定车辆停车区域的车辆散热器。 鼓风机的电流根据散热器上的热负荷进行调节。

公开(公告)号：US20050000234A1

公开(公告)日：2005-01-06

申请号：US10848055

申请日：2004-05-19

Applicant: Masahiko Kimbara ,  Daigoro Mori ,  Takehiro Nito ,  Hidehito Kubo ,  Keiji Toh

Inventor： Masahiko Kimbara ,  Daigoro Mori ,  Takehiro Nito ,  Hidehito Kubo ,  Keiji Toh

IPC: C01B3/00 ,  F17C11/00 ,  F25D25/00

CPC classification number: C01B3/0005 ,  F17C11/005 ,  F17C2205/013 ,  F17C2223/0123 ,  F17C2227/0337 ,  Y02E60/321 ,  Y02E60/327

Abstract: A hydrogen storage apparatus that includes multiple gas storage tanks that each house a storing/adsorbing material and through the interior of which a fluid travels is provided. The gas storage apparatus 10 includes roughly cylindrical gas storage tanks 20 that house hydrogen-storing alloy. The multiple gas storage tanks 20 are disposed longitudinally parallel to each other in an ordered fashion such that roughly triangular prism-shaped empty spaces are formed between multiple adjacent hydrogen storage tanks 20. Coolant paths through which coolant flows are formed in these roughly triangular prism-shaped empty spaces. These coolant paths are thermally connected to the hydrogen-storing alloy in the gas storage tanks 20 via constituent members of the gas storage tanks 20 and via heat transfer plates 28 disposed on the gas storage tanks 20.

Abstract translation: 一种氢存储装置，其包括多个储气罐，每个储气罐容纳储存/吸附材料并且通过其流体行进的内部。 气体存储装置10包括容纳储氢合金的大致圆筒形的储气罐20。 多个气体储存罐20以有序的方式纵向平行地设置，使得在多个相邻的储氢罐20之间形成大致三角形的棱柱形的空间。冷却剂流过的冷却剂路径形成在这些大致三角形的棱镜 - 形空空间。 这些冷却剂路径经由气体储存槽20的构成部件和设置在气体储存槽20上的传热板28与气体储罐20中的储氢合金热连接。