| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Blowpipe. | US1904212303 | 1904-06-13 | US821188A | 1906-05-22 | PICARD CHARLES |
| 162 | Edmond fouche | US619552D | US619552A | 1899-02-14 | ||
| 163 | 비금속 방폭 볼 | KR1020177002178 | 2015-05-26 | KR1020170024027A | 2017-03-06 | 류순 |
| 비금속방폭볼에있어서, 적도링(1), 경도편(2), 남극링(41)과북극링(31)이포함되며; 상기적도링(1)과경도편(2)은수직으로구비되며; 상기남극링(41)과북극링(31)은각각적도링(1)의양측에위치하며; 또한남극링(41)이경도편(2)의일단에위치하고, 북극링(31)이경도편(2)의타단에위치하며; 상기적도링(1), 남극링(41), 북극링(31)은동축이며; 상기적도링(1)의축방향을따라, 상기남극링(41)의투영이적도링(1)의투영내부에위치하며; 상기북극링(31)의투영이남극링(41)의투영내부에위치하며; 상기경도편(2)의투영은북극링(31)의투영으로부터적도링(1)까지연장된다. 상기비금속방폭볼은제작공정이간단하고생산효율이높다. | ||||||
| 164 | 화염 전파 대비용 보호 장치를 위한 화염 방지 블록 | KR1020167019629 | 2014-12-18 | KR1020160101139A | 2016-08-24 | 라몬타냐페데리코 |
| 외측둘레부(external perimeter) 및상기외측둘레부내부의영역에적어도하나의통공(aperture)을구비한적어도하나의제1 플레이트(first plate; 305); 및상기적어도하나의제1 플레이트(305) 상에적층방향(X)으로적층된폐쇄용제2 플레이트(310)로서, 상기적어도하나의제1 플레이트(305)로부터이격되어(315) 상기적어도하나의제1 플레이트(305)와제2 플레이트(310) 사이에상기적층방향(X)에대해횡방향인간극이형성되게하는, 폐쇄용제2 플레이트(310);를포함하는, 화염및/또는폭발에대비한보호장치용화염방지블록(230; 230-1, 230-2, 230-3, 230-4, 230-5, 230-6)이제공된다. | ||||||
| 165 | 화재진압장치 | KR2020140006240 | 2014-08-21 | KR200475358Y1 | 2014-11-26 | 조일봉 |
| 본 고안에 의한 화재진압장치는, 파이프 형상으로 형성되되 유리창을 파쇄시킬 수 있도록 기준치 이상의 강도를 갖는 헤드부; 파이프 형상을 형성되어 상기 헤드부의 후단에 연결되며, 분사방향이 내측공간을 향하는 다수 개의 분사노즐이 내측면에 장착되고, 외부로부터 전달받은 방화수를 상기 각각의 분사노즐로 공급하기 위한 급수유로가 구비된 냉각부; 파이프 형상으로 형성되어 상기 냉각부의 후단에 연결되며, 상기 냉각부 내부의 유체를 흡입하여 후방으로 배출시키는 흡입팬을 구비하는 흡입부; 상기 흡입부를 구동시키는 구동부;를 포함하여 구성된다. 본 고안에 의한 화재진압장치를 이용하면, 화재공간의 화염과 유독가스를 외부로 배출시켜 화재진압을 보다 효과적으로 수행할 수 있고, 화재공간의 공기를 외부로 배출시킴으로써 화재의 확산을 방지할 수 있으며, 방화수 사용량을 최소화시켜 물에 의한 인명피해 및 재산피해를 감축시킬 수 있다는 장점이 있다. | ||||||
| 166 | 역화 방지장치 | KR1020100053837 | 2010-06-08 | KR1020100132458A | 2010-12-17 | 헬름센,프랑크; 레인만,크리스토프 |
| PURPOSE: A flame arrester is provided, which can avoid unintentional flow around a back fire prevention insert. CONSTITUTION: A flame arrester comprises: a housing fixing flame arrester inserts(6); a plurality of axial directional passage gaps manufactured for combustible gas; and an intermediate layer(7) arranged between two back fire prevention inserts. The gas flow flowing around the back fire prevention insert enables radial distribution. A closed seal is arranged between the back fire prevention insert and housing or two back fire prevention inserts. | ||||||
| 167 | 화염필터 | KR1020090092761 | 2009-09-30 | KR1020100049480A | 2010-05-12 | 슈피겔,베른하르트; 아우어니히,요제프; 마추,군터; 할바흐스,토마스; 바우어,토마스 |
| PURPOSE: A flame filter is provided to increase stability and certainty for a plurality of explosion actions by stacking plates on other plates. CONSTITUTION: A flame filter comprises a flat plate(6). The plates are loaded on top and bottom of a packet with being sealed. The plates, which are arranged near the top and bottom each other, form a through hole for gas. A folded part of each plate(7) is arranged on the plate. | ||||||
| 168 | 방폭 소재 및 그 제조 방법 | KR1020107004168 | 2007-07-31 | KR1020100049086A | 2010-05-11 | 후앙,시야오동 |
| An explosion-proof material includes a high-porosity sheet material (11). The explosion-proof material is obtained by winding the high-porosity sheet material (11), taking its one side (12) as an axis, along a direction vertical to this side (12) to form a multi-layer material body (1), and inserting a skeleton (13) among the multi-layer high-porosity sheet material (11) of the material body (1) to fix and support the material body (1). A preparation method of the explosion-proof material includes: cutting a roll-like flat raw material to form a grid-like half-finished product material at first; then stretching outward gradually both sides of the grid-like half-finished product material to a honeycomb web to form a high-porosity sheet material (11); and then winding the high-porosity sheet material (11), taking its one side (12) as an axis, along a direction vertical to this side (12); finally in the winding process, inserting a skeleton (13) among the high-porosity sheet material (11), cutting off the high-porosity sheet material (11) to form the multi-layer explosion-proof material. | ||||||
| 169 | 폭굉 화염 방지장치 | KR1020077027140 | 2006-04-21 | KR1020080011212A | 2008-01-31 | 쿨링,마틴,레이몬드; 홍,다오민; 데이비스,그레이엄,아서 |
| A detonation flame arrester (10) in a gas pipeline (11), comprises a detonation arresting element (12) and a separate deflagration arresting element (23), the detonation arresting element comprising parallel channels having a typical transverse dimension of the same order of magnitude as the detonation cell width of the gas in the pipeline. The walls of the channels are of non-porous material so that the channels are not connected. The elements (12, 23) may be spaced apart or in contact. The elements may be located in an expanded section (17) of the pipeline, or in the pipeline itself. | ||||||
| 170 | 역화 방지 장치 및 역화 방지 장치에 보어를 생성하는 방법 | KR1020070055040 | 2007-06-05 | KR1020070117475A | 2007-12-12 | 라이네만,크리스토퍼 |
| A flame arrester and a method of integrating a bore to the flame arrestor are provided to fix two wound metal strips in position without deforming the fluting on a second metal strip by closing off two lateral sides of the wound metal strips by retaining plates and integrating the bore from outer periphery towards inside in a radial direction by a spark erosion electrode. In a flame arrestor comprised of two metal strips, a method of integrating a radially disposed bore for fixing a pin includes winding the two metal strips together to form a disk having a circular outer circumference. The first metal strip is a smooth strip, and the second metal strip is a fluted strip having predetermined fluting on the surface. The two metal strips are arranged to bear against one another, forming predetermined gaps allowing the liquid to flow through. The flame arrester has two lateral sides in a direction of an axis completely closed off by retaining plates(5). The two metal strips are fixed in position by a fixing pin inserted into a radial bore(6). The bore is integrated by spark erosion electrode without deforming the flutes on the second metal strip, and allows the gaps to be formed in the bore regions as well by the fluting on the second metal strip. | ||||||
| 171 | 용기 또는 파이프 라인 시스템의 이상 폭발 감쇠방법 및 그 장치 | KR1019960043407 | 1996-09-25 | KR100416203B1 | 2004-05-17 | 헬무트아이케르트; 프랑크하인리히; 토마스크라첼; 에베르하르트팬토우 |
| The detonation front is divided into a main and smaller subsidiary front. The main front is introduced into the expansion chamber (17) with a longer operation time so that the expansion chamber contains combustion gases of the subsidiary front. The operation time of the main front in relation to the subsidiary front is such that the subsidiary front is already completely disintegrated in the expansion chamber when the main front enters the expansion chamber. After the disintegration of the detonation, the gas for extinguishing any residual flames is conducted through a flame-extinguishing barrier (7) with gaps in. | ||||||
| 172 | 가스 배출구용 점화차단장치 | KR1020000017482 | 2000-04-04 | KR1020000071550A | 2000-11-25 | 퀴이마이어,요하네스; 베사우,요하네스; 그라프,로베르트 |
| 가스배출구용점화차단장치에관한것으로서, 특히파이프-와폭발안전장치를위하여그리고주어진위치에서마주보고배치된, 그러나원래평면의블레키들(6,6')로이루어진컨테이너의최종안전을위한것이다. 간단한제작과조립시에기술적으로커다란강도에도불구하고연소성가스와점화파열방전에맞서확실하게정해진틈만한나비에근거하여확실한차단에의해흘러들어올때 매우적은방해만을보증하기위하여, 원래배출구(2)의축에평면으로직선으로평행하게방향지어진블레키(6)는다만블레키의모든두번째블레키(6')의바깥굴곡(8)을통해정해진간격내에서스스로유지되고, 각각의가스를위하여앞서기술된틈만한나비가이에일치하고적어도배출구(2)의영역내에서블레키(6) 사이의사이공간이다른부속품으로부터자유로와진다. | ||||||
| 173 | METHODS AND SYSTEMS FOR ANALYSING A FLUID MIXTURE | PCT/GB2016051398 | 2016-05-13 | WO2016181170A3 | 2016-12-15 | WILLIAMSON MARK EDWARD |
| A method of obtaining the concentration of one component in a fluid mixture (28) of a plurality of components, comprising leading to one side of a sensing element (42) from a source of said mixture a sample of said mixture, leading to another side of said sensing element from said source another sample of said mixture after having substantially removed (36) said one component therefrom, thereby to cause a monitoring device to which said sensing element is connected to signal the ratio between the concentrations of the one component in the samples at the respective sides of the sensing element. | ||||||
| 174 | SAFETY FITTING FOR BLOCKING A LINE | PCT/DE2011001965 | 2011-11-10 | WO2012062285A3 | 2012-07-26 | BECKER DOMINIC |
| The invention relates to a safety fitting for blocking a line, said fitting comprising a blocking element (7, 7a) that is located in a widened section (4, 4a) of a housing (2, 2a), can be guided linearly in the direction of flow of the line and is held in an open position. Said blocking element can be moved under the influence of a pressure fluctuation in the line or moved actively into a sealing position. The housing (2, 2a) has a cylindrical sealing section (17, 17a), in which the blocking element (7, 7a) engages with a cylindrical section (15, 15a) forming a cylindrical annular gap (18). | ||||||
| 175 | METHOD AND DEVICE FOR DAMPING THE PRESSURE SURGE ON FLAME ARRESTERS IN THE CASE OF DETONATIONS | PCT/DE0004200 | 2000-11-20 | WO0137933A2 | 2001-05-31 | PACKEBUSCH REINER KURT; WINKLER HORST; BASCHIN JUERGEN |
| The invention relates to a method for damping the pressure surge on flame arresters, in particular, band safety devices, in the case of detonations of gas/air and/or vapour/air mixtures in plants, tanks and pipe systems, whereby the growing detonation front is divided. The invention further relates to a device for carrying out the method, in housings lying on pipe axes, which are in the form of passages or corner-pieces and a dry flame arrester with at least one band safety device, with or without a safety stop arranged in the direction of the flame source. The aim of the invention is to improve a method and device as described above, such that the band safety device is constantly impinged upon, with or without prior baffling of the detonation front, largely reflection free and with simultaneous shortening of the overall length. The division of the detonation front into a number of partial reaction fronts is achieved by means of cleft-like channels of relatively long length. The partial reaction fronts have both heat energy and kinetic energy drawn off as they pass along the channels. The partial reaction fronts are finally guided to the band safety device, in an almost laminar and direct manner. In order to carry out the method a pre-filter like a band safety device is provided, whose gap width is clearly greater than the usual gap width of each gas/air and/or vapour/air mixture and clearly greater than the gap width of the present band safety device. | ||||||
| 176 | COMBUSTION ARRESTER QUANTIFICATION SYSTEMS AND METHODS | US15472039 | 2017-03-28 | US20180280746A1 | 2018-10-04 | Jason Scott Damazo; Deanna A. Lacoste; Eddie Kwon; William Lafayette Roberts, IV |
| Systems and methods for quantifying combustion arrester performance are disclosed. Methods include filling an upstream volume and a combustion arrester with a flammable gas, igniting the flammable gas in the upstream volume (and upstream of the combustion arrester), measuring a composition of gas discharged from the combustion arrester due to ignition of the flammable gas, and quantifying the performance of the combustion arrester based on the composition of gas measured. The measured gas composition may include types and/or amounts of combustion species within the gas discharged from the combustion arrester. | ||||||
| 177 | EJECTOR NOZZLE AND USE OF THE EJECTOR NOZZLE | US15741544 | 2016-07-13 | US20180193680A1 | 2018-07-12 | Volker Michael ZAHN; Robert John BLANCHARD |
| The invention relates to an ejector nozzle having a liquid-carrying duct and a gas-carrying duct. The gas-carrying duct opens into the liquid-carrying duct upstream of an outlet opening. The insert acting as a flame arrester is positioned in the gas-carrying duct. The insert is configured in such a way that no gas can flow around the insert. The invention furthermore relates to use of the ejector nozzle in a jet loop reactor. | ||||||
| 178 | HYBRID COMPOSITE FLAME CELL | US15253537 | 2016-08-31 | US20180056101A1 | 2018-03-01 | John D. Cockerham; James Myers |
| A flame cell of a flame arrestor may include a body of a first material having a first end, a second end, and a plurality of channels formed in the body and extending from the first end to the second end of the body. The flame cell may also include an element of a second material coupled to the body, the second material being different from the first material. The element may be configured to draw heat away from fluid flowing through the plurality of channels. | ||||||
| 179 | Thermal valve in upstream oil and gas | US15365444 | 2016-11-30 | US09884213B2 | 2018-02-06 | Peter F. Barry; John D. Cockerham; Matthew A. Farris; Samuel S. Garman |
| A storage system includes a storage tank adapted to store a fluid therein, a flame arrestor being positioned downstream from the storage tank, a thermal valve being positioned downstream from the flame arrestor, and a flare stack being positioned downstream from and in fluid communication with the thermal valve. An outlet port of the storage tank is in fluid communication with an inlet port of the flame arrestor, and an outlet port of the flame arrestor is in fluid communication with an inlet port of the thermal valve. A flow path is formed between the storage tank and the flare stack via the flame arrestor and the thermal valve. The thermal valve has a cross-sectional area along a direction of the flow path which is substantially vacant of physical detonation-inducing obstructions. | ||||||
| 180 | EXPLOSION RESISTANT ELECTRO-PNEUMATIC CONTROLLER | US15193490 | 2016-06-27 | US20170368393A1 | 2017-12-28 | Jacob T. R. Renollett; Eric J. Burgett |
| An electro-pneumatic controller includes a base having a body, a top surface, and a bore formed within the body; a cover coupled to the base, the cover having an open end with a rim, the rim contacting the top surface of the base; a plurality of fluid flow paths formed within the base; and at least one flame arrestor disposed within one of the fluid flow paths. | ||||||
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