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公开(公告)号:US07568352B2
公开(公告)日:2009-08-04
申请号:US11359853
申请日:2006-02-22
Applicant: Gary D. Grayson , Michael L. Hand , Edwin C. Cady
Inventor: Gary D. Grayson , Michael L. Hand , Edwin C. Cady
CPC classification number: F17C3/10 , F17C2201/0109 , F17C2201/0147 , F17C2201/0166 , F17C2203/0316 , F17C2203/0619 , F17C2203/0629 , F17C2205/0149 , F17C2221/011 , F17C2221/033 , F17C2223/0161 , F17C2223/033 , F17C2225/0161 , F17C2227/0339 , F17C2227/0365 , F17C2227/0376 , F17C2260/031 , F17C2270/0194
Abstract: A cryogenic propellant storage tank system and method are disclosed that thermally couple LO2 and LCH4 tanks together by using either a single tank compartmentalized by a common tank wall or two separate tanks that are coupled together with one or more thermal couplers having high thermal conductivity. Cryogenic cooling equipment may be located only in the LO2 tank while the LCH4 is cooled by the LO2 tank interface. Embodiments of the invention may employ both LO2 and LCH4 liquid acquisition devices (LADs) for low-gravity use. In further embodiments, only the LO2 LADs may be integrated with thermal cooling equipment.
Abstract translation: 公开了一种低温推进剂储罐系统和方法,其通过使用由普通罐壁分隔的单个罐或与一个或多个具有高导热性的热成色剂耦合在一起的两个分离的罐将LO2和LCH4罐热耦合在一起。 低温冷却设备只能位于LO2罐中,而LCH4则由LO2储罐接口冷却。 本发明的实施例可以采用LO2和LCH4液体采集装置(LAD)来进行低重力使用。 在另外的实施例中,只有LO2 LAD可以与热冷却设备集成。
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公开(公告)号:US20090134172A1
公开(公告)日:2009-05-28
申请号:US11944788
申请日:2007-11-26
Applicant: Vladimir Yliy Gershtein , Christopher R. Butler
Inventor: Vladimir Yliy Gershtein , Christopher R. Butler
CPC classification number: F17C13/04 , B65D90/10 , B65D90/105 , F17C13/06 , F17C2201/0104 , F17C2201/0109 , F17C2201/0166 , F17C2201/035 , F17C2201/052 , F17C2201/054 , F17C2203/0612 , F17C2203/0617 , F17C2205/0311 , F17C2205/0323 , F17C2205/0379 , F17C2209/221 , F17C2221/05 , F17C2223/0123 , F17C2223/0153 , F17C2223/033 , F17C2260/015 , F17C2260/036 , F17C2270/05 , F17C2270/0518 , Y10T137/0441
Abstract: Embodiments of vessels include personnel access provisions having welded or otherwise permanent connections that substantially reduce the potential for leakage into or out of the vessels by way of the personnel access provisions.
Abstract translation: 船舶的实施例包括具有焊接或其他永久性连接的人员进入准备,其通过人员准入规定大大减少了渗入或流出船舶的潜力。
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公开(公告)号:US20080274383A1
公开(公告)日:2008-11-06
申请号:US10588314
申请日:2005-04-07
Applicant: Yasuharu Kanno , Yasuhiro Osame
Inventor: Yasuharu Kanno , Yasuhiro Osame
CPC classification number: B23K20/123 , B23K33/006 , B23K2101/12 , B23K2103/10 , F17C1/06 , F17C1/16 , F17C2201/0109 , F17C2201/0166 , F17C2201/056 , F17C2203/0604 , F17C2203/0619 , F17C2203/0646 , F17C2203/0648 , F17C2203/0665 , F17C2203/0668 , F17C2203/067 , F17C2209/222 , F17C2209/232 , F17C2221/011 , F17C2221/012 , F17C2221/033 , F17C2223/0123 , F17C2223/035 , F17C2223/036 , F17C2260/036 , F17C2265/07 , F17C2270/0168 , F17C2270/0178 , F17C2270/0184 , F17C2270/0194 , F17C2270/02 , F17C2270/05 , F17C2270/0763 , H01M8/04216 , Y02E60/321
Abstract: A process prevents a reduction in the strength of the joint between the liner components, and assures high productivity without impairment. The peripheral walls (6, 7) of the liner component (4) and each of the second liner components (5) are brought into contact with each other, a probe (22) of friction agitation joining tool (20) is placed into the two liner components across the contact portions thereof, and the probe (22) in rotation is thereafter moved relative to the two liner components (4, 5). Assuming that the number of revolutions of the probe (22) is R rpm and that the speed of joining of the two liner components (4, 5) is V mm/min, R/V is in the range of 2≦R/V≦12.
Abstract translation: 一种方法防止衬里部件之间的接合强度降低,并且确保高生产率而不受损害。 衬套部件(4)的周壁(6,7)和每个第二衬套部件(5)彼此接触,将摩擦搅拌接合工具(20)的探针(22)放入 两个衬套部件穿过其接触部分,然后旋转的探头(22)相对于两个衬垫部件(4,5)移动。 假设探头22的转数为R rpm,并且两个衬垫部件4,5的接合速度为V mm / min,R / V为2 <= R / V <= 12。
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公开(公告)号:US20070246461A1
公开(公告)日:2007-10-25
申请号:US11571726
申请日:2005-06-29
Applicant: Toshiaki Shimada , Yasuji Kawamata
Inventor: Toshiaki Shimada , Yasuji Kawamata
IPC: B65D6/02
CPC classification number: F17C1/14 , F17C1/00 , F17C1/16 , F17C13/084 , F17C2201/0104 , F17C2201/0109 , F17C2201/0147 , F17C2201/0166 , F17C2201/0171 , F17C2201/035 , F17C2201/054 , F17C2201/056 , F17C2203/012 , F17C2203/0604 , F17C2203/0617 , F17C2203/0619 , F17C2203/0621 , F17C2203/0646 , F17C2203/0648 , F17C2203/0658 , F17C2203/066 , F17C2203/0663 , F17C2203/0665 , F17C2203/0668 , F17C2203/067 , F17C2203/0673 , F17C2205/0111 , F17C2205/013 , F17C2205/0142 , F17C2205/0305 , F17C2209/2136 , F17C2209/2154 , F17C2209/221 , F17C2209/222 , F17C2209/227 , F17C2209/232 , F17C2209/234 , F17C2221/011 , F17C2221/012 , F17C2221/033 , F17C2223/0123 , F17C2223/035 , F17C2223/036 , F17C2260/011 , F17C2260/012 , F17C2260/018 , F17C2270/0168 , F17C2270/0178 , F17C2270/0184 , F17C2270/0186 , F17C2270/02 , F17C2270/05 , F17C2270/07 , H01M8/04208 , H01M2250/20 , Y02E60/321 , Y02T90/32
Abstract: A pressure vessel arranging and integrating a plurality of vessel structures each including a cylindrical liner opened at both ends and a fiber reinforced resin layer covering the outer periphery of the peripheral wall of the liner. Dome-shaped communicating members bulging outward are fixed across both respective ends of the liners of the vessel structures, thereby making the interiors of these liners communicate with each other and closing the open ends of these liners. This pressure vessel can be installed with no wasted space, and also allows an increase in capacity.
Abstract translation: 一种压力容器,其布置和整合多个容器结构,每个容器结构包括在两端开口的圆柱形衬套和覆盖衬套的周壁的外周的纤维增强树脂层。 向外凸出的圆顶状连通部件固定在容器结构的衬垫的两端,从而使这些衬里的内部彼此连通并且封闭这些衬套的开口端。 该压力容器可以安装没有浪费的空间,并且还允许增加容量。
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公开(公告)号:US20070194051A1
公开(公告)日:2007-08-23
申请号:US11698906
申请日:2007-01-29
Applicant: Kare Bakken , Pal Bergan
Inventor: Kare Bakken , Pal Bergan
IPC: B67D5/64
CPC classification number: F17C1/08 , F17C2201/0157 , F17C2201/0166 , F17C2201/0171 , F17C2201/052 , F17C2203/012 , F17C2203/0337 , F17C2203/0341 , F17C2203/0345 , F17C2203/035 , F17C2203/0383 , F17C2203/0607 , F17C2203/0621 , F17C2203/0624 , F17C2203/0629 , F17C2203/0636 , F17C2203/0643 , F17C2203/0648 , F17C2203/0678 , F17C2205/0119 , F17C2205/018 , F17C2205/0184 , F17C2205/0379 , F17C2209/2109 , F17C2209/221 , F17C2209/222 , F17C2209/228 , F17C2209/232 , F17C2221/033 , F17C2223/0161 , F17C2223/031 , F17C2227/046 , F17C2260/015 , F17C2260/016 , F17C2260/018 , F17C2260/033 , F17C2260/036 , F17C2265/05 , F17C2270/0105 , F17C2270/0107 , F17C2270/0113 , F17C2270/0118 , F17C2270/0121 , F17C2270/0123 , F17C2270/0134 , F17C2270/0136
Abstract: The invention regards a tank for storing of fluid at very low temperature, as LNG, which tank comprises external plates, forming roof, side walls and floor, and an internal cell structure with fluid communication between all the cells in the cell structure at floor level of the tank. At least a part of the external plate comprises a layered structure and where the internal cell structure is formed as self equilibrating support and or anchoring for the external plates. The invention also regards a cell structure for use in a tank for storing fluid.
Abstract translation: 本发明涉及一种用于在非常低的温度下储存液体的罐,作为LNG,该罐包括外部板,形成屋顶,侧壁和地板,以及在室内的细胞结构中的所有细胞之间具有流体连通的内部细胞结构 的坦克。 外部板的至少一部分包括层状结构,并且其中内部单元结构形成为用于外部板的自平衡支撑和/或锚固。 本发明还涉及用于储存液体的罐中的池结构。
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Patent Agency Ranking
公开(公告)号:US20060024554A1
公开(公告)日:2006-02-02
申请号:US11228906
申请日:2005-09-16
Applicant: Ian Kaye , James Kaschmitter
Inventor: Ian Kaye , James Kaschmitter
IPC: H01M8/04
CPC classification number: H01M8/04208 , F17C3/00 , F17C2201/0128 , F17C2201/0157 , F17C2201/0166 , F17C2201/018 , F17C2201/019 , F17C2201/0195 , F17C2201/058 , F17C2203/0636 , F17C2203/0646 , F17C2203/066 , F17C2203/0663 , F17C2203/0697 , F17C2205/0332 , F17C2205/0341 , F17C2205/037 , F17C2205/054 , F17C2205/055 , F17C2205/057 , F17C2205/058 , F17C2221/033 , F17C2221/035 , F17C2223/0153 , F17C2223/033 , F17C2227/0128 , F17C2250/032 , F17C2250/036 , F17C2260/028 , F17C2260/036 , F17C2260/056 , F17C2270/0763 , H01M8/04014 , H01M8/04022 , H01M8/04186 , H01M8/04201 , H01M8/04626 , H01M8/04686 , H01M8/04776 , H01M8/04917 , H01M8/0618 , H01M16/006 , H01M2008/1095 , H01M2250/30 , Y02B90/18 , Y02E60/321
Abstract: Described herein is a portable storage device that stores a hydrogen fuel source. The storage device includes a bladder that contains the hydrogen fuel source and conforms to the volume of the hydrogen fuel source. A housing provides mechanical protection for the bladder. The storage device also includes a connector that interfaces with a mating connector to permit transfer of the fuel source between the bladder and a device that includes the mating connector. The device may be a portable electronics device such as a laptop computer. Refillable hydrogen fuel source storage devices and systems are also described. Hot swappable fuel storage systems described herein allow a portable hydrogen fuel source storage device to be removed from a fuel processor or electronics device it provides the hydrogen fuel source to, without shutting down the receiving device or without compromising hydrogen fuel source provision.
Abstract translation: 这里描述的是存储氢燃料源的便携式存储装置。 储存装置包括一个包含氢燃料源并符合氢燃料源体积的气囊。 外壳为膀胱提供机械保护。 存储装置还包括与配合连接器相接合以允许燃料源在气囊和包括配合连接器的装置之间传送的连接器。 该设备可以是诸如膝上型计算机的便携式电子设备。 还描述了可再填充的氢燃料源储存装置和系统。 本文所述的热交换燃料储存系统允许便携式氢燃料源储存装置从其提供氢燃料源的燃料处理器或电子装置中移除,而不关闭接收装置或不危及氢燃料源的供应。
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公开(公告)号:US20060024543A1
公开(公告)日:2006-02-02
申请号:US11229094
申请日:2005-09-16
Applicant: Ian Kaye , James Kaschmitter
Inventor: Ian Kaye , James Kaschmitter
CPC classification number: H01M8/04208 , F17C3/00 , F17C2201/0128 , F17C2201/0157 , F17C2201/0166 , F17C2201/018 , F17C2201/019 , F17C2201/0195 , F17C2201/058 , F17C2203/0636 , F17C2203/0646 , F17C2203/066 , F17C2203/0663 , F17C2203/0697 , F17C2205/0332 , F17C2205/0341 , F17C2205/037 , F17C2205/054 , F17C2205/055 , F17C2205/057 , F17C2205/058 , F17C2221/033 , F17C2221/035 , F17C2223/0153 , F17C2223/033 , F17C2227/0128 , F17C2250/032 , F17C2250/036 , F17C2260/028 , F17C2260/036 , F17C2260/056 , F17C2270/0763 , H01M8/04014 , H01M8/04022 , H01M8/04186 , H01M8/04201 , H01M8/04626 , H01M8/04686 , H01M8/04776 , H01M8/04917 , H01M8/0618 , H01M16/006 , H01M2008/1095 , H01M2250/30 , Y02B90/18 , Y02E60/321
Abstract: Described herein is a portable storage device that stores a hydrogen fuel source. The storage device includes a bladder that contains the hydrogen fuel source and conforms to the volume of the hydrogen fuel source. A housing provides mechanical protection for the bladder. The storage device also includes a connector that interfaces with a mating connector to permit transfer of the fuel source between the bladder and a device that includes the mating connector. The device may be a portable electronics device such as a laptop computer. Refillable hydrogen fuel source storage devices and systems are also described. Hot swappable fuel storage systems described herein allow a portable hydrogen fuel source storage device to be removed from a fuel processor or electronics device it provides the hydrogen fuel source to, without shutting down the receiving device or without compromising hydrogen fuel source provision.
Abstract translation: 这里描述的是存储氢燃料源的便携式存储装置。 储存装置包括一个包含氢燃料源并符合氢燃料源体积的气囊。 外壳为膀胱提供机械保护。 存储装置还包括与配合连接器相接合以允许燃料源在气囊和包括配合连接器的装置之间传送的连接器。 该设备可以是诸如膝上型计算机的便携式电子设备。 还描述了可再填充的氢燃料源储存装置和系统。 本文所述的热交换燃料储存系统允许便携式氢燃料源储存装置从其提供氢燃料源的燃料处理器或电子装置中移除,而不关闭接收装置或不危及氢燃料源的供应。
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公开(公告)号:US20060008687A1
公开(公告)日:2006-01-12
申请号:US11228764
申请日:2005-09-16
Applicant: Ian Kaye , James Kaschmitter
Inventor: Ian Kaye , James Kaschmitter
CPC classification number: H01M8/04208 , F17C3/00 , F17C2201/0128 , F17C2201/0157 , F17C2201/0166 , F17C2201/018 , F17C2201/019 , F17C2201/0195 , F17C2201/058 , F17C2203/0636 , F17C2203/0646 , F17C2203/066 , F17C2203/0663 , F17C2203/0697 , F17C2205/0332 , F17C2205/0341 , F17C2205/037 , F17C2205/054 , F17C2205/055 , F17C2205/057 , F17C2205/058 , F17C2221/033 , F17C2221/035 , F17C2223/0153 , F17C2223/033 , F17C2227/0128 , F17C2250/032 , F17C2250/036 , F17C2260/028 , F17C2260/036 , F17C2260/056 , F17C2270/0763 , H01M8/04014 , H01M8/04022 , H01M8/04186 , H01M8/04201 , H01M8/04626 , H01M8/04686 , H01M8/04776 , H01M8/04917 , H01M8/0618 , H01M16/006 , H01M2008/1095 , H01M2250/30 , Y02B90/18 , Y02E60/321
Abstract: Described herein is a portable storage device that stores a hydrogen fuel source. The storage device includes a bladder that contains the hydrogen fuel source and conforms to the volume of the hydrogen fuel source. A housing provides mechanical protection for the bladder. The storage device also includes a connector that interfaces with a mating connector to permit transfer of the fuel source between the bladder and a device that includes the mating connector. The device may be a portable electronics device such as a laptop computer. Refillable hydrogen fuel source storage devices and systems are also described. Hot swappable fuel storage systems described herein allow a portable hydrogen fuel source storage device to be removed from a fuel processor or electronics device it provides the hydrogen fuel source to, without shutting down the receiving device or without compromising hydrogen fuel source provision.
Abstract translation: 这里描述的是存储氢燃料源的便携式存储装置。 储存装置包括一个包含氢燃料源并符合氢燃料源体积的气囊。 外壳为膀胱提供机械保护。 存储装置还包括与配合连接器相接合的连接器,以允许燃料源在气囊和包括配合连接器的装置之间传递。 该设备可以是诸如膝上型计算机的便携式电子设备。 还描述了可再填充的氢燃料源储存装置和系统。 本文所述的热交换燃料储存系统允许便携式氢燃料源储存装置从其提供氢燃料源的燃料处理器或电子装置中移除,而不关闭接收装置或不危及氢燃料源的供应。
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29.发明授权公开(公告)号:US06962365B2
公开(公告)日:2005-11-08
申请号:US10379054
申请日:2003-03-04
Applicant: Karl K. Rink , Matthew Scott Johnson
Inventor: Karl K. Rink , Matthew Scott Johnson
CPC classification number: F17C1/00 , B60R21/26 , F17C2201/0104 , F17C2201/0109 , F17C2201/0119 , F17C2201/0166 , F17C2201/0171 , F17C2201/058 , F17C2203/0617 , F17C2205/0311 , F17C2205/0314 , F17C2205/0323 , F17C2205/0326 , F17C2205/035 , F17C2205/0391 , F17C2205/0394 , F17C2205/0397 , F17C2209/22 , F17C2209/221 , F17C2221/013 , F17C2221/015 , F17C2221/017 , F17C2221/03 , F17C2223/0123 , F17C2223/0153 , F17C2223/036 , F17C2223/043 , F17C2225/0123 , F17C2225/035 , F17C2225/043 , F17C2227/0304 , F17C2227/0332 , F17C2227/036 , F17C2227/0372 , F17C2260/017 , F17C2260/025 , F17C2260/042 , F17C2270/0181 , F17C2270/0189
Abstract: The invention provides apparatus for inflating an inflatable safety restraint cushion and associated methods for producing an inflation gas for inflating an inflatable safety restraint cushion which rely, at least in part, on Joule-Thomson heating.
Abstract translation: 本发明提供了用于充气可充气安全约束垫的装置和用于产生充气气体的相关方法,所述膨胀气体用于充气至少部分依赖焦耳 - 汤姆森加热的可充气安全约束垫。
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公开(公告)号:US20050092756A1
公开(公告)日:2005-05-05
申请号:US10932983
申请日:2004-09-01
Applicant: Brian Goggin
Inventor: Brian Goggin
CPC classification number: F17C1/00 , B60K15/03006 , F17C13/12 , F17C2201/0157 , F17C2201/0166 , F17C2201/0171 , F17C2201/056 , F17C2203/012 , F17C2203/0617 , F17C2203/0636 , F17C2203/0643 , F17C2203/0648 , F17C2203/0663 , F17C2205/0323 , F17C2205/035 , F17C2205/0352 , F17C2205/0394 , F17C2209/221 , F17C2209/227 , F17C2209/228 , F17C2221/012 , F17C2221/033 , F17C2221/035 , F17C2223/0123 , F17C2223/0161 , F17C2223/035 , F17C2260/042 , F17C2270/0171 , F17C2270/0176 , F17C2270/0178 , Y02E60/321
Abstract: A storage vessel for storing a fluid substance, said storage vessel including a plurality of abutting individually sealed storage chambers, each chamber capable of withstanding super atmospheric pressure, with adjacent chambers forming at least one fluid passageway therebetween, characterised in that at least one said chamber includes an external peripheral seal configured to be relatively weaker than the remainder of said vessel.
Abstract translation: 一种用于存储流体物质的储存容器,所述储存容器包括多个邻接的单独密封的储存室,每个室能够承受超大气压,相邻的室在其间形成至少一个流体通道,其特征在于,至少一个所述室 包括被配置为比所述容器的其余部分相对较弱的外部周边密封件。
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