| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Bauelement für den Brandschutz einer Ablaufvorrichtung sowie Ablaufvorrichtung mit einem derartigen Bauelement | EP03003307.0 | 2003-02-13 | EP1362961B1 | 2005-11-09 | Dallmer, Johannes |
| 102 | Druckgasbehälter mit einer Sicherheitsvorrichtung zum Ableiten von Flammenrückschlägen | EP90116896.3 | 1990-09-03 | EP0424644B1 | 1993-11-18 | Sontag, Hans-Jürgen, Dipl.-Ing. |
| 103 | Behälter für explosionsgefährdetes Gut | EP89110640.3 | 1989-06-12 | EP0350629A1 | 1990-01-17 | Waggershauser, Konrad; Betzmeir, Helmut |
Behälter zur Aufnahme von explosionsgefährdeten Gütern können ein Reißdach (2) aufweisen, das über Fesselelemente (7) mit dem übrigen Behälter (1) verbunden ist. Diese Fesselelemente (7) sollen zwar ein Abheben des Reißdaches (2) von dem Behälter (1) ermöglichen, jedoch verhindern, daß das Reißdach (2) unkontrolliert durch die Gegend fliegt. Insbesondere bei stärkeren Explosionen kann es jedoch vorkommen, daß die Fesselelemente (7) zerreißen und das Reißdach (2) dennoch durch die Gegend fliegt. Bei dem Behälter sind zusätzlich zumindest zweite Fesselelemente (6) vorgesehen, deren Länge geringer ist als die der ersten Fesselelemente (7). Hierdurch wird das Reißdach auch nach Zerreißen der zweiten Fesselelemente (6) noch sicher von den ersten Fesselelementen (7) gehalten, da durch das Zerreißen der zweiten Fesselelemente (6) bereits ein Großteil der kinetischen Energie abgebaut wurde. |
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| 104 | Burner for refractory flame-gunning apparatus | EP84308101 | 1984-11-22 | EP0146278A3 | 1985-11-21 | Matsuo, Masataka c/o Nippon Steel Corporation |
A refractory flame-gunning apparatus including a burner arrangement which is novel per se comprises a feeder (1), a a controller (2) and a flame-gunning burner (3). The feeder (1) comprises a refractory-powder feed section (4), a fuel feed section (5) and an oxidant feed section (6). The controller (2) controls the supply of refractory powder and fuel and oxidant. The flame-gunning burner (3) has a plurality of refractory powder and flame ejecting nozzles (81, 82) disposed at its tip. The burner has a gas mixer (65) and an oxidant cut-off valve (531. The gas mixer comprises a fuel passage (11) leading from the fuel feed section (5), an oxidant passage (14) leading from the oxidant feed section (6), a gas mixing chamber (65) communicating with the fuel and oxidant passages (11, 14), and a mixed-gas passage (31, 36) the upstream side of which communicates with the gas mixing chamber (65) and the downstream side of which communicates with the flame ejection nozzles (821. A gas mixer is provided for each individual flame nozzle. The oxidant cut-off valve is provided in the gas mixer and is actuated by gas pressure built up in the mixed-gas passage (31, 36). When backfire occurs in the apparatus the pressure in the mixed-gas passage (36) rises to close the oxidant cut-off valve (53), whereby the backfire is put out instantaneously. A temperature sensor (28) also operates a controller (36) to change the setting of valves (22-25) and replace the fuel and oxidant with inert gas delivered via inert gas lines (18, 19 and 20). |
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| 105 | Flame arrestor device with porous membrane | EP83306857.0 | 1983-11-10 | EP0109804A1 | 1984-05-30 | Gifford, Lincoln Smith, Jr. |
A flame arrestor device capable of checking flashback when incorporated in a system utilizing one or more detonatable gases under pressure for controlled energy release purposes, the device being generally installed in series having one or more gas sources upstream while gas conducting means and ignition means are arranged down- stream of a membrane barrier mounted and secured to a supporting means which is, in turn, mounted within an arrestor housing with provision for gaps of limited size on the upstream and downstream side of the membrane barrier to permit gas flow. The invention includes built in or separate ignition means downstream of the membrane barrier. |
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| 106 | 실내에서의 화재의 결과를 제한하는 개선된 장치 | KR1020127033789 | 2011-06-01 | KR101853637B1 | 2018-05-02 | 부와도미니끄; 뇌망마띠유; 들라포르쥬띠에리 |
| 본발명은실내(4)에서의화재의결과를제한하는화재제한장치(10, 11)로서, 상기제한장치는, 액체(26)를담고있는용기(29)를구비한저장소(28)를포함하되, 상기저장소(28)는상기실내(4)와연통하는하나이상의내측챔버(54a, 54b, 54c, 54d, 54e)와, 성기저장소의하나이상의다른챔버(52a, 52b, 52c, 52d, 53)를포함하며, 상기저장소(28)는상기저장소(28)의양측에일체로배치되는적어도제 1 과유동탱크(72a), 제 2 과유동탱크(72b)를포함하되, 각각의탱크는액체가용기(29)이소정의높이를초과할때 액체(26)를수용하게된다. | ||||||
| 107 | 모듈러 화재 방재 플로어링 | KR1020157012575 | 2013-11-12 | KR1020160002661A | 2016-01-08 | 맥킨토시,트리스탄,윌프리드 |
| 모듈러화재방재플로어링시스템은복수의방재플로어링플랭크들을포함한다. 각플랭크는대체로튜브형이며, 배수로를형성한다. 상기플로어링시스템의상부표면상으로유출되는유체들은상기플랭크들의상부표면내에형성된복수의배수홀들을통해배출될수 있다. 상기플랭크들은상기배수로들내로유출되는타오르는유체들의연소를중단시키도록상기배수로들내에배치되는금속충전제를더 포함할수 있다. 상기금속충전제는타오르는유체들을분산시키고그로부터열을제거할수 있다. 일부실시예들에있어서, 퍼징유체는상기플랭크들을통해그로부터임의의유출된유체들을정화시키도록흐를수 있다. | ||||||
| 108 | 인화성 냉매를 사용하는 시스템에서의 화염 전파 감소 방법 | KR1020137021072 | 2012-01-11 | KR1020140053835A | 2014-05-08 | 코반,매리,이.; 렉,토마스,제이.; 마이너,바바라,하빌랜드 |
| 본 발명은 냉매 공급원과 발화원 사이에 금속 메시 화염 어레스터(metal mesh flame arrestor)를 위치시키는 것을 포함하는, 냉각 시스템 내의 또는 냉각 시스템에 인접한 냉매 공급원 및 발화원으로의 화염의 전파, 또는 이들로부터의 화염의 전파를 감소시키기 위한 방법을 제공한다. 방법은 화재 위험이 감소된 인화성 냉매를 사용할 수 있게 한다.
|
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| 109 | FPSO의 벤트 라인 구조 및 그에 따른 화염진정용 필터 교체 방법 | KR1020120046966 | 2012-05-03 | KR1020130123667A | 2013-11-13 | 윤성철; 김광찬; 지영기 |
| The present invention relates to a vent line structure of FPSO system which enables the maintenance of a flame emission pipe and a flame arrestor replacement method. The present invention, which is a vent line structure connected to a hull cargo tank of FPSO, includes a vent line connecting the inside and the outside of the hull cargo tank; a flame arrestor which is inserted into the vent line and separates only the flame arrestor. | ||||||
| 110 | 화염 제어장치 | KR1020080042174 | 2008-05-07 | KR1020090116312A | 2009-11-11 | 김홍순; 강부녕; 이동형; 이진우; 이정엽; 장병우 |
| PURPOSE: A flame controlling device is provided to reduce an oxygen supplying space and block oxygen effectually by dually forming flame controllers inside and outside with a concavo-convex part and closely attaching a metal net between the inside and the outside. CONSTITUTION: A flame controlling device comprises a flame controller, a lower plate(142), and an upper base lid(141) and a supporting bolt(143). The flame controller is formed by laminating a ring-shaped metal band. A concavo-convex part is formed to pass the flame through the metal band. The concavo-convex part is formed to be inclined at constant angle based on the central line of the metal band. The flame controller comprises inner and outer flame controllers(110,120). The lower plate supports the flame controller on the lower side of the flame controller. The upper cover covers the top of the flame controller. The supporting bolt is arranged inside the flame controller along the circumferential direction. | ||||||
| 111 | 영구적으로 내화성이 있는 화염 보호대 | KR1020057023459 | 2004-06-03 | KR100904126B1 | 2009-06-24 | 레인만,크리스토프 |
| 관로의 말단을 이루고 그리고 삽입된 화염 차폐물이 배치되는 유동 단면(2)을 포함하는 영구적으로 내화성 있는 화염 보호대가 개시되고, 화염 차폐물에는 영구적인 화재 안전을 확보하는 다수의 관로 틈새가 제공된다. 영구적으로 내화성 있는 화염 보호대의 냉각은 적어도 하나의 동심 환형 단면(5)을 유동 단면(2) 내에 틈새가 없는 덩어리의 방법으로 형성하고, 동시에 상기 동심 환형 단면(5) 주변에 관로 틈새를 포함하는 환형 화염 보호대 단면(4)을 형성함에 의해 향상될 수 있다. 화염 보호대, 화염, 관로 틈새, 냉각 링, 환형 화염 보호대 단면, 동심 단면, 내화성 | ||||||
| 112 | 기계적 펌프 | KR1020020060047 | 2002-10-02 | KR1020030029021A | 2003-04-11 | 랜섬케빈미첼; 팔머클리포드 |
| PURPOSE: A mechanical pump is provided to effectively combine at least one flame arrester and to reduce the possibility of corrosion and the cost. CONSTITUTION: A mechanical pump(1) has an inlet(2) for a passage of liquid and an outlet being apart from the inlet. The mechanical pump incorporates at least one flame arrester(4). At least one flame arrester is immediately adjacent to the pump inlet. Two flame arresters are incorporated in the pump and one flame arrester is immediately adjacent to the pump inlet and the second flame arrester is immediately adjacent to the pump outlet. Each flame arrester includes a flame arresting element(6) removably mounted within a housing(8). The housing has a rectangular box section body(10) opposite ends of which are closed by removable cover plates(12). | ||||||
| 113 | 폭발-감압밸브 | KR1019990045709 | 1999-10-21 | KR100350746B1 | 2002-08-28 | 퀴마이어요하네스; 베자우요하네스 |
| 폐쇄공간, 특히내연기관크랭크실용의폭발-감압밸브는, 보호대상공간의경계벽(3)에사용되는밸브시트(1), 밸브시트와연동하며탄성부하가작용하는폐쇄판(4), 밸브를통해유입되는가스경로에설치된압력저항이적은적어도하나의화염차단기(9), 가스경로에적어도또 하나의통과면(11, 12)을가지며, 상기화염차단기는가스흐름방향종단으로겹겹이배치된판재로구성되며특히판재너비의적어도일부분은불규칙한파형으로이루어진다. 모든경우에있어서, 화염전면부가폭발-감압밸브를통과하지않도록하여, 모든적용분야에대해안전을보장하기위해, 밸브의통과흐름을최적화하고이때밸브에기계적인손상을방지하기위해, 신전성금속(expanded metal)으로제조된또 다른통과면(11, 12)이설치된다. | ||||||
| 114 | 폭발-감압밸브 | KR1019990045709 | 1999-10-21 | KR1020000029211A | 2000-05-25 | 퀴마이어요하네스; 베자우요하네스 |
| PURPOSE: An explosion-reducing valve is provided to prevent the passing of the front part of flames through an explosion-reducing valve, to optimize the flow passing through the valve and to prevent the mechanical damages of the valve. CONSTITUTION: A closing plate(4) of an explosion-reducing valve moves to a catcher(7) by being lifted from a valve seat(1) by resisting the force of a spring(5) when an explosion is occurred in a crank chamber. Thereafter, a passing aperture of a valve is opened, the explosive gas flows outside via the valve seat, a passing face(11) and a flame interceptor(9), so that the pressure in a crank chamber falls rapidly. The passing face makes the flow of gas slow, disperse the pressure uniformly and makes the gas flow to the whole valve area such that a local pressure rising is not occurred. Then the flame interceptor removes flames and prevents the flames and the gas flowing slowly by the reaction of the passing face from being radiated outside via a reducing valve according to the enlarged passing section. The gas cooled by a corner of the catcher curved in the direction of the crank chamber is converted to the direction of the engine. Thereby, the danger of an operator is minimized. | ||||||
| 115 | TOOL FOR INSERTING COMPONENTS OF A FLAME ARRESTOR ASSEMBLY INTO A PROCESS CONTROL DEVICE | PCT/US2016039155 | 2016-06-24 | WO2016210214A3 | 2017-02-16 | BURGETT ERIC J; RENOLLETT JACOB T R |
| A tool for inserting a flame arrestor assembly into a process control device having a first passageway of a first depth and a second passageway of a second depth different from the first depth. The tool includes a head portion having a first diameter, and a tip portion having a second diameter less than the first diameter. The tip portion has a first portion, a second portion, and a third portion, the first and second portions being separated by a first notch, and the second and third portions being separated by a second notch. The first notch is arranged to indicate when the flame arrestor assembly is fully inserted into the first passageway, and the second notch is arranged to indicate when the flame arrestor assembly is fully inserted into the second passageway. | ||||||
| 116 | FLASHBACK PREVENTER | PCT/DE2011002051 | 2011-11-29 | WO2012089187A3 | 2013-07-25 | HELMSEN FRANK |
| A flashback preventer with a cylindrical flame trap (8, 8', 21) which is installed in a wall (6, 6'), separating an at-risk region (13) from an external region (15), and has a cross-sectional surface area containing a plurality of throughflow gaps and a height determining the length of the throughflow gaps and an underside (9) directed towards the at-risk region (13), and an upper side (16) directed towards the external region (15), can be formed with a low mass and high energy-dissipation efficiency in that the flame trap (8, 8', 21) is inserted into an opening (7, 7') in the wall (6, 6'), said opening corresponding to the cross-sectional surface areas of the flame trap (8, 8', 21), and has at least a fifth of its height projecting beyond the wall (6, 6') into the external region (15). | ||||||
| 117 | FILLING ELEMENTS FOR SECURING EXPLOSION IN SHAFTS, CAVITIES, CASINGS | PCT/IB2006051629 | 2006-05-22 | WO2006126162B1 | 2007-03-15 | LICHKA HELMUT JOSEF |
| The invention relates to filling elements for shafts, tanks, tank vehicles, containers and pipe lines, in order to deviate heat, and/or to increase cell-type distribution of the volume chamber ( Quenching ), in order to prevent and surpress and/or diffuse explosions, in addition to mechanically stabilising fluids or gas in containers, in addition to avoiding the splash sound of liquids. The filling elements are also used to protect the contents of the containers for example, cash dispensing machines, from gas-sabotage blasts, and to prevent and/or obstruct external blasts by means of explosives, and/or against welding blasts on cash-dispensing machines, armoured cash-points, money transporting vehicles and transport containers by high heatproof EXPLO-ZERO sandwich plate systems as dissipation and dynamic spacer layers. EXPLO-ZERO-filing elements are also used to secure shafts, combined with lateral wall covered, shaped, open-celled, synthetic foaming plates, in order to reduce the pressure in the event of ignitions. | ||||||
| 118 | VALVE DEVICE AND METHOD FOR PREVENTING EXPLOSION PROPAGATION | PCT/BE2013000042 | 2013-08-26 | WO2014032125A3 | 2014-04-24 | VAN GELDER PAUL ALFONS LEON; MACKEN PETER JOZEF REGINA MARIA |
| Valve device comprising a housing and a closing body for closing a passage in the housing in mechanical manner, wherein the closing body is movable between an open position and a closing position; a reservoir for a flame-extinguishing substance; an injecting means configured to inject the flame-extinguishing substance into the passage in order to prevent explosion propagation resulting from a non-fully sealed closure by the closing body. | ||||||
| 119 | EXPLOSION PROTECTION WITH HOUSING | PCT/EP2013055325 | 2013-03-15 | WO2013139688A2 | 2013-09-26 | KELLER HORST; STOLZ ULRICH; FRANK NORBERT; KOCH MORRIS; KUHN JENS; RANG LEOPOLD; GERWIG VOLKER |
| The explosion protection device (1) according to the invention serves as protection for a system arranged in a closed space, comprising a relief element which is arranged in a boundary wall and by means of which, during the occurrence of an explosion, a pressure relief occurs inside the space in that a gas flow is discharged from the space via the relief element. The boundary wall is adjoined by a housing (5), wherein at least one flame filter is arranged in the latter. The housing (5) is designed in such a way that a gas flow exiting the relief element is guided in the housing (5) and in the process passes through the flame filter. | ||||||
| 120 | FLAME DETECTION AND SUPPRESSION SYSTEM USING A THERMOELECTRIC GENERATOR | PCT/US2009049488 | 2009-07-02 | WO2010003045A3 | 2010-04-22 | FARRELL TOM |
| Apparatus and methods for protecting process equipment from a fire and/or an explosion are provided. In particular, the apparatus and methods utilize Seebeck sensors or thermoelectric generators to detect the propagation of a flame front or deflagration wave within the process equipment. Upon detection of the deflagration wave, the system controller activates mitigation apparatus which may be in the form of a chemical suppressant or isolation valves in order to protect the process equipment from damage. | ||||||
