序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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101 | Sealing device for dry type gas holder | JP1891282 | 1982-02-10 | JPS58137695A | 1983-08-16 | FUJIWARA MASAHARU; KAWANA KATSUJI |
PURPOSE:To reduce the flow-down amount of sealing liquid by a method wherein a member for preventing rotation of a piston, a movable sealing piece or the like are utilized. CONSTITUTION:When a piston 4 is rotated, a circumferential gap is caused between a rotation preventing member 15 and a sliding seal member 9, however, the movable seal piece 20 is pressed to both sides of the rotation preventing member 15 of the piston by the energized force of a spring 22 to hold said gap in constant and, thus, the flow-down amount of the seal liquid is held in constant. A clearance between the sliding seal member 9 and the member 15, which is generated by the wear of the seal member 9, is compensated by the movable seal piece 20 and thereby enabling to keep a stable sealing performance for a long period of time. | ||||||
102 | Methane gas generator | JP245582 | 1982-01-11 | JPS58121398A | 1983-07-19 | TOMIOKA TOSHIICHI; NAMIKAWA SHIYUNJI; NUKINA YASUYUKI |
PURPOSE:To enable to realize light-weight small size water sealing type gas tank by a structure wherein a sac-like material, as a side wall of which bellows- shape creases are employed, are used as the gas tank. CONSTITUTION:When the rate of gas consumption of gas consuming apparatuses is larger than the rate of fermentation of fermentation gas in a methane fermentation tank, the gas 2 stored in the bag-like material 1 flows out of the tank through a gas distributing pipe 3 to be charged to the gas consuming apparatuses. When the magnitudes of both the rates mentioned above are reversed, the fermentation gas flows in the gas tank and is stored therewithin. Because the gas tank is constituted of the sac-like material, the capacity of which nearly equals to the maximum volume to be stored, and yet the weight of the gas tank is the weight of structural members only, the light-weight small size gas tank is resulted. | ||||||
103 | JPS5831518B2 - | JP11501078 | 1978-09-19 | JPS5831518B2 | 1983-07-06 | MIRUTON DABURYU HEISUTAABAAGU |
104 | Leak preventive method of gas and sealed oil or the like in gas holders | JP7349181 | 1981-05-18 | JPS57190195A | 1982-11-22 | TAKASHIMA HIROMICHI; KONDOU TAKEHIKO; FUKUSHIMA TOORU; TAKEYABU SADASHI; HIROWATARI YOSHINOBU |
PURPOSE:To surely prevent a leak, by removing adhering materials from the periphery of an outer shell riveted part, and then covering a leakage part with rubber-like elastic resin finally coating its surface with a film follow-up changeable to distortion of a structure. CONSTITUTION:Side plates 3 made of steel, constituting an outer shell, are connected to each other by a side plate connecting material 10 and rivets 9 made by steel. In this case, adhering materials are firstly removed, then a leakage part 12 and its periphery are coated to required thickness by the method of adhesively applying or pouring rubber-like elastic resin 13. This rubber-like elastic resin 13 is resin or the like of elastic polyurethane system. Subsequently, this surface is coated by elastic FRP 14 and provided with strength further applied with paint 15. | ||||||
105 | Dry type gas holder | JP4340781 | 1981-03-25 | JPS57157894A | 1982-09-29 | KIMURA MASASHI; ISHIKAWA HIDEKATSU; MINE TERUO; YAMAMOTO YOSHIBUMI |
PURPOSE:To measure accurately the gas contained in a gas storage by permitting a diaphragm to expand and contract in compliance with vertical movement of a partition plate held horizontally and by obtaining the level of partition plate with a high level meter. CONSTITUTION:A partition plate 12 makes vertical movement smoothly along a side plate 18 being held horizontally by a guide rail or a balance device 20. A diaphragm 15 expands and contracts in compliance with the motion of the partition plate 12 and, also, the inside cross area of a gas storage room 16 is maintained approximately constant, so that amount of the gas in the gas storage room 16 increases proportional to the level of the partition plate 12, which gives that determination of the level of partition plate 12 with a high level meter 25 will allow accurate measurement of gas amount contained in the gas storage room 16. | ||||||
106 | JPS4866577A - | JP12573472 | 1972-12-14 | JPS4866577A | 1973-09-12 | |
107 | FILLING LEVEL METER FOR MEMBRANE GASOMETERS | EP10727847.5 | 2010-05-20 | EP2435749B1 | 2013-05-01 | SPEDINI, Luigi; SPEDINI, Lorenzo |
108 | FILLING LEVEL METER FOR MEMBRANE GASOMETERS | EP10727847.5 | 2010-05-20 | EP2435749A1 | 2012-04-04 | SPEDINI, Luigi; SPEDINI, Lorenzo |
Filling level meter (4) for membrane gasometer (1 ), consisting of at least one accumulation chamber (C1 ) arranged for containing a gas, comprising an impermeable flexible membrane (2) capable of moving between two positions corresponding to the chamber being totally full and totally empty, wherein said meter (4) comprises: an instrument (12) associated with a fixed element (3, 9), arranged for generating a signal of measurement of a physical value that can be correlated to the quantity of gas contained in said chamber (C1 ); means for processing and displaying (5) the value of the quantity of gas corresponding to said generated signal; a filiform, flexible means (6) for connecting said instrument (12) and said membrane (2); where said filiform, flexible means (6) comprises at least one portion constituted by an elastic means (7). | ||||||
109 | Behälterartiges Bauwerk mit einer Sicherungseinrichtung | EP07112742.7 | 2007-07-19 | EP1881129A3 | 2010-10-13 | Martens, Christoph |
Die Erfindung betrifft ein behälterartiges Bauwerk mit einer umlaufenden Wand (11), welche einen nach oben offenen Innenraum umschließt. Um Montage- und Wartungsarbeiten an dem Bauwerk schnell und damit kostengünstig durchführen zu können, ist das erfindungsgemäße Bauwerk dadurch gekennzeichnet, daß der Innenraum mittels einer Folie (31, 32) abgedeckt ist, wobei an der Folie (31, 32) ein Befestigungsmittel (33) für eine Sicherheitseinrichtung angeordnet ist. |
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110 | Vorrichtung zum Bestimmen eines Volumens eines Speicherbehälters | EP09150166.8 | 2009-01-07 | EP2078937A3 | 2009-12-23 | Agatz, Timo; Behrens, Jan C. F. |
Die Erfindung betrifft eine Vorrichtung zum Bestimmen eines Volumens eines Speicherbehälters (10) eines Gasspeichers, mit einer mindestens teilweise flexiblen Begrenzung (12) und einer die flexible Begrenzung abdeckenden Abdeckung (13), wobei der flexiblen Begrenzung (12) des Speicherbehälters (10) ein Referenzmittel (16) zugeordnet ist, und das Referenzmittel (16) mit einem als festen Referenzpunkt ausgebildeten ortsfesten Erfassungsmittel (17) zusammenwirkt. Hierbei ist das Volumen des Speicherbehälters (10) sehr genau und mit hoher Zuverlässigkeit bestimmbar und gleichzeitig die Montage der Vorrichtung einfach durchführbar, da das Referenzmittel (16) und das Erfassungsmittel (17) mittels einer als eine Funkverbindung mit elektromagnetischer Strahlung einer geeigneten Wellenlänge ausgebildeten drahtlosen Übertragung zusammenwirkt, und die drahtlose Übertragung die Abdeckung (13) durchdringt. |
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111 | GASSPEICHER SOWIE BIOGASANLAGE MIT EINEM GASSPEICHER | EP07818143.5 | 2007-09-13 | EP2061987A1 | 2009-05-27 | Reinelt, Gerhard |
The invention relates to a gas reservoir (2) with a gas chamber (4), the size of which can be varied and at least portions of which are delimited by a flexible wall (6) and a cover (8) as displaceable parts, said chamber also having at least one stabilising element (12) that at least partially delimits the extension of the wall (6). To obtain a simple construction for the gas reservoir (2) and to ensure that the latter functions reliably during permanent operation, the stabilising element (12) is designed to be flexible and the gas reservoir (2) has at least one tensioning device with at least one pair of co-operating abutments (14, 16), between which at least one part of the stabilising element (12) is tensioned by tensile stress. To this end, only one of the co-operating abutments (14, 16) is fixed to one of the displaceable parts (6, 8). | ||||||
112 | MEMBRANE MATERIAL FOR GAS HOLDER AND GAS HOLDER USING THE SAME | EP07744986.6 | 2007-06-11 | EP2031293A1 | 2009-03-04 | NAGASE, Satoshi; MORI, Hiroyuki; KUSAKA, Mikio; MOTOISHI, Yasuo |
There is provided a membrane material for a gas folder having abrasion resistance and flex resistance usable as a gas holder, in addition to strength of a base fabric, and having high gas barrier properties. A membrane material for a gas holder, which is used in a gas holder for storing or recovering gas, comprising at least 4 layers of a protective layer, a base fabric layer, a gas barrier layer and a protective layer laminated in this order. |
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113 | Behälterartiges Bauwerk mit einer Sicherungseinrichtung | EP07112742.7 | 2007-07-19 | EP1881129A2 | 2008-01-23 | Martens, Christoph |
Die Erfindung betrifft ein behälterartiges Bauwerk mit einer umlaufenden Wand (11), welche einen nach oben offenen Innenraum umschließt. Um Montage- und Wartungsarbeiten an dem Bauwerk schnell und damit kostengünstig durchführen zu können, ist das erfindungsgemäße Bauwerk dadurch gekennzeichnet, daß der Innenraum mittels einer Folie (31, 32) abgedeckt ist, wobei an der Folie (31, 32) ein Befestigungsmittel (33) für eine Sicherheitseinrichtung angeordnet ist. |
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114 | Membrane für einen Gasspeicher | EP06014794.9 | 2006-07-16 | EP1746336B1 | 2007-11-21 | Wolf, Markus |
115 | Gasbehälter | EP03011848.3 | 2003-05-26 | EP1367315A2 | 2003-12-03 | Kassen, Dirk; Reinelt, Markus |
Gasbehälter (1) mit einem mit zumindest einer flexiblen Wandung (5) versehenen, größenvariablen Aufnahmeraum (2) für Gas im Sinne einer einfachen und zuverlässigen Konstruktion in der Weise ausgestaltet, daß der flexiblen Wandung (5) mehrere Ausdehnungsbegrenzer (8) zugeordnet sind, die mit der Wandung (5) beweglich sind und deren Formgebung zwangsbeeinflussen. |
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116 | VERFAHREN ZUM BEFÜLLEN, REINIGEN UND ENTLEEREN VON GROSSVOLUMIGEN GASBEHÄLTERN, INSBESONDERE LUFTSCHIFFEN | EP00951401.9 | 2000-07-18 | EP1206381A1 | 2002-05-22 | SILLAT, Diethard; SAUER, Thomas, C. |
The invention relates to a method that makes it possible to economically fill large volume gas containers (1), for instance airships, having a gas volumetric capacity of, for instance 400,000 m3, with a process gas and to empty said gas. Helium shall henceforth be referred to as an example for a process gas. In order to fill the gas container (1), said container is initially filled completely with an auxiliary gas, the density of said gas differing from that of the process gas. Air will henceforth be referred to as an example for auxiliary gas. The helium is then gently introduced into the upper area (2) of the gas container (1) in such a way that no substantial mixing with the air occurs while air is simultaneously being suctioned out in the lower area (18) of the gas container (1). In order to clean the gas container, cleaned or new pure helium is gently introduced into the upper area (2) of the gas container (1) in such a way that no substantial mixing with the contaminated helium located in the gas container (1) occurs while the contaminated helium in the lower area (18) of the gas container (1) is simultaneously being suctioned out. To empty the gas container (1), the process described above is inversely carried out, that is, in the upper area (2) of the gas container (1), helium is suctioned out while air is being gently introduced into the gas container (1) in the lower area (18) in such a way that no substantial mixing with the helium occurs. In order to rapidly change the filling of the gas container (1), the gas is preferably stored in several compressed gas tanks (5, 6, 7, 8, 9). | ||||||
117 | Gasbehälter | EP93103015.9 | 1993-02-26 | EP0562298A1 | 1993-09-29 | Meyer, Jan Peter; Hänelt, Burkhardt, Dr.-Ing. |
Der Gasraum des Gasbehälters ist durch eine auf dem Gas schwimmende Membran (1) und einen Stülpmantel (2) nach oben abgeschlossen. Um die Membran zu führen, d.h. gegen taumeln zu schützen und vorzugsweise waagerecht zu halten, ist die Membran durch ein Gegengewicht (3) belastet, das über eine an der Unterseite der Membran angreifende und innerhalb des Gasraumes verlaufende Seilführung (4) gehalten ist. |
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118 | A container for gas in which the pressure is maintained constant when the amount, therein contained, changes, specifically suited for accumulating biogas generated from waste waters and biological sludges | EP89830188.2 | 1989-05-04 | EP0350455A3 | 1991-09-11 | Tilche, Andrea; Spedini, Luigi |
A gas container at constant pressure, specifically for biogas, comprising, in combination, a flexible covering or outer membrane which covers the biogas source so as to form an insulated from the outside space or canopy and a flexible and impermeable membrane located at the inside of said space and thereby dividing it in two chambers or volumes of which a lower one is occupied by biogas and an upper one comprises an air chamber of lung from which and into which air is taken off or supplied to comply with the steps of collecting, stocking and taking off the biogas at a substantially constant pressure. |
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119 | Gasspeicher | EP89890067.5 | 1989-03-10 | EP0333698A3 | 1991-09-11 | Neumeister, Heinrich |
Die Erfindung befaßt sich mit einem Gasspeicher mit mindestens zwei teilballonartigen flexiblen, aufblasbaren, vorzugsweise dichten Membranen aus flexiblem Material wie z.B. Kunststoff- oder Kautschukfolien oder mit Kunststoff oder Kautschuk beschichteten textilen Substraten, beispielsweise mit Polyvinylchlorid beschichteten Polyestergewebe, die als Außenmemran und als Innenmembran vorgesehen sind, wobei die Innenmembran mit der Außenmembran einen mit einem Hilfsgas, vorzugsweise Luft, beaufschlagbaren Druckregelraum bildet, die Innenmembran einen Gasspeicherraum abschließt, in den bzw. aus dem mit Zu- und Ableitungen das zu speichernde Gas ein- bzw. ableitbar ist, und wobei die Ränder der Membrane mittels Klemmeinrichtungen an einem Fundament befestigt sind, durch das die Gasanschlußleitung in den Gasspeicherraum mündet. Zur Vermeidung von Behinderungen bei der Zu- und Abfuhr des Hilfsgases und zur Vermeidung von Reibungsschlüssen zwischen der Außen- und der Innenmembran wird erfindungsgemäß vorgeschlagen, daß etwa im höchsten Punkt und im Zentrum der Außenmembran (2) eine Öffnung (33) für die Zufuhr des Hilfsgases, vorzugsweise Luft, zum Druckregelraum (4) durch die Außenmembran (2) vorgesehen ist und daß zumindest nach Einbringung des Hilfsgases und des zu speichernden Gases die Innenmembran (3,3′) in jeder Richtung geringere Außenabmessungen als die Außenmembran (2) aufweist, und daß die Membrane (2,3,3′) mit ihren unteren (insbesondere ringförmigen) Rändern (8,9) in waagrechten Abstand voneinander getrennt, insbesondere durch Verankerungsringe (10,11,13,14,19) auf dem Fundament (12) dicht befestigt sind. |
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120 | Variable volume reservoir and method for its use | EP88305789.5 | 1988-06-22 | EP0298635A2 | 1989-01-11 | Hendry, James W. |
A pressurized fluid reservoir having a variable working volume includes a cylinder body having a fixed storage volume and a first inlet and exhaust structure for allowing a compressible fluid to enter and leave the cylinder. A second inlet and exhaust structure is also provided for allowing a substantially incompressible fluid to enter and leave the cylinder. A first charge mechanism pumps the compressible fluid into the cylinder. A second charge mechanism pumps the substantially incompressible fluid into the cylinder to reduce the cylinder fixed storage volume to a desired working volume into which the compressible fluid can be pumped by the first charge mechanism. |