序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
1 | 独立的皱褶液化天然气储罐 | CN200880013403.2 | 2008-03-13 | CN101668677B | 2013-11-06 | D·A·利纳 |
提供了一种用于运送LNG(液化天然气)的方法和设备。公开的存储容器包括固定地附连到至少一个顶部板条的支撑框架、至少一个底部组件以及多个皱褶侧板条,其中所述支撑框架外部地置于所述存储容器周围;其中所述支撑框架被构造为可操作地接合船舶的至少部分船体;并且其中所述存储容器是封闭的、液态密封的自支撑的存储容器。还提供了一种制造存储容器的方法。 | ||||||
2 | 用于高压压制机的压力容器 | CN200980159234.8 | 2009-03-11 | CN102439349A | 2012-05-02 | 雷纳特·斯文森; 斯特凡·塞尔斯泰特 |
本发明公开了一种用于高压压制机的压力容器(1),该压力容器包括第一子缸(4)、第二子缸(6)、预加应力装置(8)、和固定构件(16)。第一子和第二子缸(4,6)轴向连接以形成用于包围高压介质的缸主体(2)。第一子缸(4)在外壁中设有用于容纳固定构件(16)的第一部分(24)的第一基座(22),而第二子缸(6)在外壁中设有用于容纳固定构件(16)的第二部分(28)的第二基座(26)。固定构件(16)配合在第一和第二基座(22,26)中。固定构件(16)、第一和第二基座(22,26)被布置成使得固定构件(16)、第一和第二基座(22,26)协作以防止第一和第二子缸(4,6)之间的分离轴向运动。预加应力装置(8)绕缸主体(2)的包络面设置,使得缸主体(2)被径向预加应力,并且使得固定构件(16)被锁定在第一和第二基座(22,26)中。 | ||||||
3 | 用于高压压制机的压力容器 | CN200980159234.8 | 2009-03-11 | CN102439349B | 2014-04-02 | 雷纳特·斯文森; 斯特凡·塞尔斯泰特 |
本发明公开了一种用于高压压制机的压力容器(1),该压力容器包括第一子缸(4)、第二子缸(6)、预加应力装置(8)、和固定构件(16)。第一子和第二子缸(4,6)轴向连接以形成用于包围高压介质的缸主体(2)。第一子缸(4)在外壁中设有用于容纳固定构件(16)的第一部分(24)的第一基座(22),而第二子缸(6)在外壁中设有用于容纳固定构件(16)的第二部分(28)的第二基座(26)。固定构件(16)配合在第一和第二基座(22,26)中。固定构件(16)、第一和第二基座(22,26)被布置成使得固定构件(16)、第一和第二基座(22,26)协作以防止第一和第二子缸(4,6)之间的分离轴向运动。预加应力装置(8)绕缸主体(2)的包络面设置,使得缸主体(2)被径向预加应力,并且使得固定构件(16)被锁定在第一和第二基座(22,26)中。 | ||||||
4 | 独立的皱褶液化天然气储罐 | CN200880013403.2 | 2008-03-13 | CN101668677A | 2010-03-10 | D·A·利纳 |
提供了一种用于运送LNG(液化天然气)的方法和设备。公开的存储容器包括固定地附连到至少一个顶部板条的支撑框架、至少一个底部组件以及多个皱褶侧板条,其中所述支撑框架外部地置于所述存储容器周围;其中所述支撑框架被构造为可操作地接合船舶的至少部分船体;并且其中所述存储容器是封闭的、液态密封的自支撑的存储容器。还提供了一种制造存储容器的方法。 | ||||||
5 | 优选用于低温流体的存储流体的储罐 | CN200580027974.8 | 2005-06-24 | CN101014799A | 2007-08-08 | K·巴肯; P·G·伯冈 |
本发明涉及一种用于在低温下存储流体的储罐,其具有绝热自承载板结构,其中,所述板包括夹层结构,所述夹层结构包括两个由金属或具有类似特性的材料构成的表面板,以及位于所述内侧和外侧表面板之间的芯部材料,所述芯部材料的特性容许热形变的变化,所述芯部材料还为所述储罐至少部分地提供了绝热,并且为所述壁至少部分地提供了必要的刚度和强度。本发明还涉及所述储罐的支撑机构、所述储罐中使用的夹层结构以及制造所述储罐的方法。 | ||||||
6 | APPARATUS AND METHOD FOR CRYOCOOLED DEVICES THERMALIZATION WITH RF ELECTRICAL SIGNALS | US15189426 | 2016-06-22 | US20160377230A1 | 2016-12-29 | Sylvain Chuard; Félix Bussieres; Boris Korzh |
Cryogenic device comprising at least two chambers at two different temperatures, a first chamber at a first temperature T1 accommodating a sample, and a second chamber at a second temperature T2 greater than T1 and being adapted to accommodate a cooling device, said cooling device being adapted to cool wirelines connecting said sample to an external element detector, wherein said cooling device is an IMS thermalization plate comprising at least one wire-guide having an input for plugging a wire line connected to the sample and an output for plugging a wire line connected to said external element, said wire-guide being thermally connected to the first chamber. | ||||||
7 | Pressure vessel for a high pressure press | US13138597 | 2009-03-11 | US08893909B2 | 2014-11-25 | Lennart Svensson; Stefan Sehlstedt |
The present invention relates to a pressure vessel (1) for a high pressure press, wherein the pressure vessel comprising a first sub-cylinder (4), a second sub-cylinder (6), pre-stressing means (8), and a securing member (16). The first and the second sub-cylinders (4, 6) are axially connected to form a cylinder body (2) for enclosing a high pressure medium. The first sub-cylinder (4) is in an outer wall provided with a first seat (22) for receiving a first part (24) of the securing member (16) and the second sub-cylinder (6) is in an outer wall provided with a second seat (26) for receiving a second part (28) of the securing member (16). The securing member (16) is fitted in the first and second seats (22, 26). The securing member (16), and the first and second scats (22, 26) are arranged such that the securing member (16), and the first and second scats (22, 26) cooperate to prevent separating axial movement between the first and the second sub-cylinders (4, 6). The pre-stressing means (8) is provided around the envelope surface of the cylinder body (2) such that the cylinder body (2) is radially pre-stressed and such that the securing member (16) is locked in the first and second seats (22, 26). | ||||||
8 | Apparatus and method for cryocooled devices thermalization with RF electrical signals | US15189426 | 2016-06-22 | US10145513B2 | 2018-12-04 | Sylvain Chuard; Félix Bussieres; Boris Korzh |
Cryogenic device comprising at least two chambers at two different temperatures, a first chamber at a first temperature T1 accommodating a sample, and a second chamber at a second temperature T2 greater than T1 and being adapted to accommodate a cooling device, said cooling device being adapted to cool wirelines connecting said sample to an external element detector, wherein said cooling device is an IMS thermalization plate comprising at least one wire-guide having an input for plugging a wire line connected to the sample and an output for plugging a wire line connected to said external element, said wire-guide being thermally connected to the first chamber. | ||||||
9 | Pressure Vessel For a High Pressure Press | US13138597 | 2009-03-11 | US20110315692A1 | 2011-12-29 | Lennart Svensson; Stefan Sehistedt |
The present invention relates to a pressure vessel (1) for a high pressure press, wherein the pressure vessel comprising a first sub-cylinder (4), a second sub-cylinder (6), pre-stressing means (8), and a securing member (16). The first and the second sub-cylinders (4, 6) are axially connected to form a cylinder body (2) for enclosing a high pressure medium. The first sub-cylinder (4) is in an outer wall provided with a first seat (22) for receiving a first part (24) of the securing member (16) and the second sub-cylinder (6) is in an outer wall provided with a second seat (26) for receiving a second part (28) of the securing member (16). The securing member (16) is fitted in the first and second seats (22, 26). The securing member (16), and the first and second scats (22, 26) are arranged such that the securing member (16), and the first and second scats (22, 26) cooperate to prevent separating axial movement between the first and the second sub-cylinders (4, 6). The pre-stressing means (8) is provided around the envelope surface of the cylinder body (2) such that the cylinder body (2) is radially pre-stressed and such that the securing member (16) is locked in the first and second seats (22, 26). | ||||||
10 | System and method for charging canisters with a high pressure gas | US664569 | 1996-06-17 | US5791122A | 1998-08-11 | Brian P. Tobin; Douglas M. Leonard |
A system for charging a metallic canister having a filler opening therein with a gas under pressure and then sealing the opening to provide a closed, pressurized canister generally consisting of means for retaining the canister in a predetermined orientation, a sealing member having a guide passageway therein displaceable between an extended position in sealing engagement with a canister disposed in the predetermined orientation, with the guide passageway therein communicating with the filler opening of the canister, and a retracted position out of sealing engagement with the canister, a first means for applying a gas under pressure to a first side of the sealing member to urge the sealing member into into its retracted position, second means for supplying a gas under pressure to an opposite side of the sealing member to urge the sealing member into its extended position in sealing engagement with the canister, third means for supplying a gas under a third pressure to the guide passageway of the sealing member when the sealing member is in its extended position to pressurize the canister, means for welding the filler opening of the canister closed when the sealing member is in its extended position in sealing engagement with the canister and while operating the third gas supplying means and maintaining the pressure in the canister at the third pressure, and means for sequentially deactivating the third gas supplying means, deactivating the second gas supplying means and activating the first gas supplying means to return the sealing member to its retracted position. | ||||||
11 | Independent corrugated LNG tank | US12530948 | 2008-03-13 | US09365266B2 | 2016-06-14 | David A. Liner |
A method and apparatus for transporting LNG are provided. A storage container is disclosed including a support frame fixedly attached to at least one top panel, at least one bottom assembly, and a plurality of corrugated side panels, wherein the support frame is externally disposed around the storage container; wherein the support frame is configured to operably engage at least a portion of a hull of a marine vessel; and wherein the storage container is an enclosed, liquid-tight, self-supporting storage container. A method of manufacturing the storage container is also provided. | ||||||
12 | Independent Corrugated LNG Tank | US12530948 | 2008-03-13 | US20100083671A1 | 2010-04-08 | David A Liner |
A method and apparatus for transporting LNG are provided. A storage container is disclosed including a support frame fixedly attached to at least one top panel, at least one bottom assembly, and a plurality of corrugated side panels, wherein the support frame is externally disposed around the storage container; wherein the support frame is configured to operably engage at least a portion of a hull of a marine vessel; and wherein the storage container is an enclosed, liquid-tight, self-supporting storage container. A method of manufacturing the storage container is also provided. | ||||||
13 | Tank For Storing of Fluid, Preferably For Fluids at Low Temperatures | US11630438 | 2005-06-24 | US20080314908A1 | 2008-12-25 | Kåre Bakken; Pål G. Bergan |
The invention regards a tank for storing of fluid at low temperature of insulated self carrying plate structure, where the plates comprises a sandwich structure, comprising two surface sheets of a metal or a material with similar properties and a core material with properties allowing for the variation of thermal deformation between the inner and outer surface sheets, which core material also provides for at least partly the insulation of the tank and which provides at least partly the necessary stiffness and strength of the wall. The invention also regard support means for the tank, a sandwich structure for use in a tank, and a method for producing the tank. | ||||||
14 | PRESSURE VESSEL FOR A HIGH PRESSURE PRESS | EP09776428.6 | 2009-03-11 | EP2406535B1 | 2013-07-03 | SVENSSON, Lennart; SEHLSTEDT, Stefan |
15 | Pressure vessel for high-pressure press | JP2011553287 | 2009-03-11 | JP2012519819A | 2012-08-30 | スベンソン、レンナルト; セールステット、ステファン |
The present invention relates to a pressure vessel (1) for a high pressure press, wherein the pressure vessel comprising a first sub-cylinder (4), a second sub-cylinder (6), pre-stressing means (8), and a securing member (16). The first and the second sub-cylinders (4, 6) are axially connected to form a cylinder body (2) for enclosing a high pressure medium. The first sub-cylinder (4) is in an outer wall provided with a first seat (22) for receiving a first part (24) of the securing member (16) and the second sub-cylinder (6) is in an outer wall provided with a second seat (26) for receiving a second part (28) of the securing member (16). The securing member (16) is fitted in the first and second seats (22, 26). The securing member (16), and the first and second scats (22, 26) are arranged such that the securing member (16), and the first and second scats (22, 26) cooperate to prevent separating axial movement between the first and the second sub-cylinders (4, 6). The pre-stressing means (8) is provided around the envelope surface of the cylinder body (2) such that the cylinder body (2) is radially pre-stressed and such that the securing member (16) is locked in the first and second seats (22, 26). | ||||||
16 | For fluid storage, preferably the tank for a cryogenic fluid | JP2007517989 | 2005-06-24 | JP2008503702A | 2008-02-07 | バッケン,コーレ; ジー. ベルガン,ポール |
本発明は、低温で流体を貯蔵するためのタンクであって、断熱自立式プレート構造を有するタンクに関する。 ここで、プレートはサンドイッチ構造から成り、金属又は同様の特性をもつ材料の2つの表面シートと、内側及び外側表面シート間の、熱変形のばらつきを許容する特性をもつコア材とを有する。 コア材はタンクの断熱材を少なくとも部分的に提供し、壁に必要な剛性及び強度を少なくとも部分的に提供する。 本発明はまた、タンクの支持手段と、タンクに用いられるサンドイッチ構造と、タンクの製造方法に関する。
【選択図】 図1 |
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17 | System and method for filling a high pressure gas canister | JP15561697 | 1997-06-13 | JP3139979B2 | 2001-03-05 | エム. レオナード ダグラス; ピー. トビン ブライアン |
A system for charging a metallic canister having a filler opening therein with a gas under pressure and then sealing the opening to provide a closed, pressurized canister generally consisting of means for retaining the canister in a predetermined orientation, a sealing member having a guide passageway therein displaceable between an extended position in sealing engagement with a canister disposed in the predetermined orientation, with the guide passageway therein communicating with the filler opening of the canister, and a retracted position out of sealing engagement with the canister, a first means for applying a gas under pressure to a first side of the sealing member to urge the sealing member into into its retracted position, second means for supplying a gas under pressure to an opposite side of the sealing member to urge the sealing member into its extended position in sealing engagement with the canister, third means for supplying a gas under a third pressure to the guide passageway of the sealing member when the sealing member is in its extended position to pressurize the canister, means for welding the filler opening of the canister closed when the sealing member is in its extended position in sealing engagement with the canister and while operating the third gas supplying means and maintaining the pressure in the canister at the third pressure, and means for sequentially deactivating the third gas supplying means, deactivating the second gas supplying means and activating the first gas supplying means to return the sealing member to its retracted position. | ||||||
18 | Pressure vessel for high-pressure press | JP2011553287 | 2009-03-11 | JP5571105B2 | 2014-08-13 | スベンソン、レンナルト; セールステット、ステファン |
19 | Stand-alone waveform lng tank | JP2010506189 | 2008-03-13 | JP5229833B2 | 2013-07-03 | ディヴィッド エイ ライナー |
20 | Stand-alone waveform lng tank | JP2010506189 | 2008-03-13 | JP2010525278A | 2010-07-22 | ディヴィッド エイ ライナー |
LNGを輸送する方法及び装置が提供される。 少なくとも1枚の頂部パネルに固定状態に取り付けられた支持フレーム、少なくとも1つの底部組立体及び複数枚の波形側部パネルを有する貯蔵容器が開示され、支持フレームは、貯蔵容器の外部周りに配置されており、支持フレームは、船舶の船体の少なくとも一部分に作動的に係合するよう構成されており、この貯蔵容器は、密閉された液密の自立型貯蔵容器である。 貯蔵容器の製造方法も又、提供される。 |