| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 一种煤气柜的刷式密封装置 | CN201510865801.9 | 2015-11-30 | CN105423119A | 2016-03-23 | 严淑 |
| 本发明公开了一种煤气柜的刷式密封装置,安装在煤气柜的活塞与柜体的内壁之间,它包括毛刷座、毛刷和耐磨层,毛刷座与活塞相连,毛刷多层交错布置安装在毛刷座上,耐磨层为涂抹在柜体内侧壁上的耐磨涂料。所述毛刷为细金属丝弯曲结构。所述毛刷的刷毛为双向弯曲结构。由于在毛刷的细金属丝之间形成微小的缝隙,且这些缝隙的不均匀性,使均匀的来流进入毛刷的刷丝中就变得不均匀,由于刷丝束破坏流动而确保流动的不均匀性,使流体产生了自密封效应。本发明的有益效果:该密封装置适用于各种容量大小的煤气柜,结构简单,稳定性好,维护方便,仅需定期更换毛刷,成本低廉;采用该密封装置,煤气柜无效容积小,大大减小建设成本。 | ||||||
| 42 | 一种煤气柜的磁流体密封装置 | CN201510864543.2 | 2015-11-30 | CN105351738A | 2016-02-24 | 严淑 |
| 本发明公开了一种煤气柜的磁流体密封装置,安装在煤气柜的活塞与柜体的内壁之间,它包括上极靴、下极靴、永磁体、极齿和磁流体,上极靴和下极靴为圆环形结构,分别位于活塞圆盘边缘的上、下部,且上极靴和下极靴均为磁导体;永磁体夹设在上极靴和下极靴中间,永磁体为圆环形结构、且与活塞不接触;极齿包括多个、设置在上极靴和下极靴的端部,极齿的端部与柜体的内壁之间保持一定缝隙,磁流体注入该缝隙中。柜体为金属磁导体材料,活塞为非金属不导磁材料,磁流体为磁性液体。本发明密封装置具有双向性,适用于各种容量大小的煤气柜,结构简单,稳定性好,仅需定期补充磁流体,维护方便;采用该密封装置,煤气柜无效容积小,大大减小建设成本。 | ||||||
| 43 | 滚动式电磁柔性防摆装置 | CN201110250571.7 | 2011-08-29 | CN102305345B | 2014-02-19 | 程杰; 王苏林; 钱力; 胡长庆; 彭放林; 刘超; 贾艳艳 |
| 本发明公开了一种滚动式电磁柔性防摆装置,包括呈轮形的电磁铁、与电磁铁两侧轴心均铰接在一起的连接拉杆、用于外接其他设备的调节拉杆以及用于连接拉杆与调节拉杆之间连接的柔性装置,所述电磁铁可绕着轴心旋转。通过在橡胶膜密封煤气柜上安装本发明的滚动式电磁柔性防摆装置来替代传统的调平装置,以增大起平衡作用的水平分力,使得煤气柜活塞不易摆动且即使摆动后也能回到水平位置。 | ||||||
| 44 | 贮气罐用膜材料及使用该膜材料的贮气罐 | CN200780022378.X | 2007-06-11 | CN101473161B | 2012-07-25 | 长濑谕司; 森裕之; 日下幹生; 本石靖夫 |
| 本发明提供一种贮气罐用膜材料,其除了具有纤维基布的强度外,还具有能够作为贮气罐使用的耐磨性及耐弯曲性,并且气体阻隔性高。一种贮气罐用膜材料,应用于储存或回收气体的贮气罐,所述膜材料至少由保护层、基布层、气体阻隔层、保护层这四层构成。 | ||||||
| 45 | 滚动式电磁柔性防摆装置 | CN201110250571.7 | 2011-08-29 | CN102305345A | 2012-01-04 | 程杰; 王苏林; 钱力; 胡长庆; 彭放林; 刘超; 贾艳艳 |
| 本发明公开了一种滚动式电磁柔性防摆装置,包括呈轮形的电磁铁、与电磁铁两侧轴心均铰接在一起的连接拉杆、用于外接其他设备的调节拉杆以及用于连接拉杆与调节拉杆之间连接的柔性装置,所述电磁铁可绕着轴心旋转。通过在橡胶膜密封煤气柜上安装本发明的滚动式电磁柔性防摆装置来替代传统的调平装置,以增大起平衡作用的水平分力,使得煤气柜活塞不易摆动且即使摆动后也能回到水平位置。 | ||||||
| 46 | 具有密封环的容器 | CN00819161.1 | 2000-12-28 | CN1267673C | 2006-08-02 | 扬·雅各布斯·马泰斯·科佩特; 安迪·德贝克 |
| 一种容器,它包括包围流体腔的组合壁,该组合壁在至少一个连接部位和延伸穿过该组合壁的轴形体相连。该组合壁包括不透水内衬层,围绕该内衬层设置支撑纤维。该组合壁至少在一个连接部位通过密封环以密封的方式和所述轴形体相连,该密封环以可轴向移动的方式围绕轴形体被设置。 | ||||||
| 47 | 高压容器及其制造方法 | CN200410088203.7 | 2004-10-21 | CN1609500A | 2005-04-27 | 金原雅彦; 森大五郎; 都筑诚; 熊野明子 |
| 本发明旨在使高压容器上的金属制内衬与复合材制外壳的变形量大体一致,从而防止金属制内衬与复合材制外壳之间发生滑动。高压容器(10)具有:有所需的容器形状的金属制内衬(20),和在金属制内衬(20)的外周上形成的复合材制外壳(30)。金属制内衬(20),具有圆筒状的主体部(21),两端部上的接头部(22),以及连接主体部(21)和接头部(22)的盖部(23)。在主体部(21)上,遍及金属制内衬(20)的轴向(纵向)全长而形成风箱状的伸缩容许部(211)。伸缩容许部(211),通过由其基端部(211b)的开闭(变形)引起的弹性作用,来防止当高压容器(10)膨胀/收缩时,金属制主体部(21)和复合材制外壳(30)之间发生滑动。 | ||||||
| 48 | 기송관 내 능동형 에어 쿠션 장치 | KR1020140186152 | 2014-12-22 | KR1020160076222A | 2016-06-30 | 임재홍 |
| 본발명은기송관내에수용되어, 캐리어를안착시키기위한쿠션장치로서, 기송관내에하부에위치되어, 캐리어의하면을지지하도록제공되는헤드부; 헤드부의하부에제공되어, 헤드부를지지하는피스톤부; 및피스톤부의일부를수용하며, 내부에수용된에어를통해피스톤부를상하유동되도록지지하는실린더부를포함하여, 에어의압력조절을통해, 쿠션의헤드높이를일정하게유지시키며, 스프링등의수명에의해쿠션이파손되는현상이방지되는효과를제공한다. | ||||||
| 49 | 기체저장설비의 피스톤 회전방지장치 및 기체저장설비 | KR1020157017498 | 2013-11-15 | KR1020150090235A | 2015-08-05 | 가와카미요시미치; 미즈노우에도시오; 데라오다카히로; 호리우치아키라 |
| 피스톤의회전방지기능을유지하는것이다. 피스톤회전방지장치(50)는, 통형상의저장부본체와, 저장부본체의내부를승강가능하도록마련된피스톤을구비하는기체저장설비에대하여, 저장부본체의내면으로부터내측으로돌출하여상하방향으로뻗어있는돌조(51)와, 피스톤에마련되어돌조의양 측부에배치되는한 쌍의후크부재(55)를가진다. 그리고, 이피스톤회전방지장치는, 저장부본체의직경방향으로슬라이드이동가능하게피스톤측에지지되어각 후크부재에마련된슬라이드부재(56)와, 슬라이드부재의이동방향에직교하여피스톤측에마련된회전축(57)과, 회전축에대하여회전가능하게지지되어선단측에슬라이드부재에당접가능하게마련된당접부(58a)를가지는레버(58)와, 레버의후단근처에마련되어있으며레버의당접부를슬라이드부재에당접시켜후크부재를돌조측으로누르는압압력을발생시키는스프링(59)을구비한다. | ||||||
| 50 | 가스 홀더용 막재 및 그것을 사용하여 이루어지는 가스 홀더 | KR1020087030373 | 2007-06-11 | KR1020090030264A | 2009-03-24 | 나가세사토시; 모리히로유키; 구사카미키오; 모토이시야스오 |
| Disclosed is a membrane material for gas holders which has high gas barrier properties, while having wear resistance and bending resistance sufficient for gas holders in addition to the strength of the base fabric. Specifically disclosed is a membrane material used for a gas holder for storing or recovering a gas. The membrane material is composed of at least four layers, namely a protective layer, a base fabric layer, a gas barrier layer and another protective layer. | ||||||
| 51 | 기체저장설비의 피스톤 회전방지장치 및 기체저장설비 | KR1020157017498 | 2013-11-15 | KR101692176B1 | 2017-01-02 | 가와카미요시미치; 미즈노우에도시오; 데라오다카히로; 호리우치아키라 |
| 피스톤의회전방지기능을유지하는것이다. 피스톤회전방지장치(50)는, 통형상의저장부본체와, 저장부본체의내부를승강가능하도록마련된피스톤을구비하는기체저장설비에대하여, 저장부본체의내면으로부터내측으로돌출하여상하방향으로뻗어있는돌조(51)와, 피스톤에마련되어돌조의양 측부에배치되는한 쌍의후크부재(55)를가진다. 그리고, 이피스톤회전방지장치는, 저장부본체의직경방향으로슬라이드이동가능하게피스톤측에지지되어각 후크부재에마련된슬라이드부재(56)와, 슬라이드부재의이동방향에직교하여피스톤측에마련된회전축(57)과, 회전축에대하여회전가능하게지지되어선단측에슬라이드부재에당접가능하게마련된당접부(58a)를가지는레버(58)와, 레버의후단근처에마련되어있으며레버의당접부를슬라이드부재에당접시켜후크부재를돌조측으로누르는압압력을발생시키는스프링(59)을구비한다. | ||||||
| 52 | 차량용 내압용기 가스누출감지장치 | KR1020130004697 | 2013-01-16 | KR1020130020818A | 2013-02-28 | 김학성 |
| PURPOSE: A device for sensing a gas leakage from a pressure vessel of a vehicle is provided to safely protect the pressure vessel by preventing the corrosion of the pressure vessel and to sense cracks on the pressure vessel and even a case. CONSTITUTION: A device(10) for sensing a gas leakage from a pressure vessel of a vehicle comprises a case(11), a pressure container(12), a corrosion preventing gas, and a gas pressure sensor(10). The case includes a first case member(111) and a second case member(112). The second case member forms an internal space by being joined to the first case member. A pipeline capable of injecting and discharging gas to outside is formed on the pressure vessel. A body unit of the pressure vessel is joined to the inside the case. The corrosion preventing gas is injected to between the pressure vessel and the case. The gas pressure senor is joined to the case, thereby sensing changes in the pressure of the corrosion preventing gas. | ||||||
| 53 | 구조물 틈새 씰링 장치 | KR1020080109952 | 2008-11-06 | KR1020100050853A | 2010-05-14 | 김규연; 양헌섭; 김양규; 김준한 |
| 제철소의원료또는연료의선별및 정량을위한설비의각 구조물간의틈새로의먼지비산을효과적으로방지할수 있는구조물틈새씰링장치가소개된다. 본발명의구조물틈새씰링장치는, 고정구조물의말단에설치되는고정부클립; 상기고정부클립에연결설치되며, 내부에유체저장공간이마련된씰링스커트; 및상기씰링스커트에연결설치되고, 진동구조물의말단에설치되는진동부클립을포함하고, 상기유체저장공간의하부에는액체또는겔 상태의유체가채워지고, 나머지부분에는기체상태의유체가채워지며, 상기씰링스커트에는액체또는겔 상태의유체가채워져상기진동구조물의말단의일측또는양측에위치하게되는밀착부가형성된것을특징으로한다. | ||||||
| 54 | 고압 용기 및 그 제조 방법 | KR1020040084307 | 2004-10-21 | KR1020050039603A | 2005-04-29 | 김바라마사히코; 모리다이고로; 츠즈키마코토; 구마노아키코 |
| (과제) 고압 용기에 있어서의 금속제 라이너와 복합재로 만들어진 쉘의 변형량을 거의 일치시켜, 금속제 라이너와 복합재로 만들어진 쉘 사이에 발생하는 미끄러짐을 방지하는 것. (해결수단) 고압 탱크 (10) 는, 원하는 탱크 형상을 갖는 금속제 라이너 (20) 와, 금속제 라이너 (20) 의 외주에 형성된 복합재로 만들어진 쉘 (30) 을 구비한다. 금속제 라이너 (20) 는, 원통상의 보디부 (21), 양 단부에 구금부 (22), 보디부 (21) 와 구금부 (22) 를 접속하는 캡부 (23) 를 갖는다. 보디부 (21) 에는, 금속제 라이너 (20) 의 축방향 (길이방향) 의 전체 길이에 걸쳐서 벨로스 모양의 신축 허용부 (211) 가 형성되어 있다. 신축 허용부 (211) 는, 그 기단부 (211b) 의 개폐 (변형) 에 의해 야기되는 탄성 작용에 의해서, 고압 탱크 (10) 가 팽창ㆍ수축할 때에 금속제의 보디부 (21) 와 복합재로 만들어진 쉘 (30) 사이에 발생하는 미끄러짐을 방지한다. | ||||||
| 55 | VESSEL PROVIDED WITH A SEALING RING | PCT/NL0000965 | 2000-12-28 | WO0148418A3 | 2001-12-27 | KOPPERT JAN JACOBUS MATTHIJS; DEBECKER ANDY |
| Vessel (1), comprising a composite wall (2) enclosing a fluid chamber (3) and which is, at at least one connecting location, connected to a shaft-like body (5) extending through the composite wall. The composite wall comprises a fluid-tight inner lining (6) around which support fibers are provided. At the at least one connecting location, the composite wall is connected in a sealing manner to the shaft-like body via a sealing ring arranged around the shaft-like body in an axially slidable manner. | ||||||
| 56 | Gas holder seal material and gas holder seal structure | JP2012242397 | 2012-11-02 | JP2014092210A | 2014-05-19 | SHIBAYAMA SATOSHI |
| PROBLEM TO BE SOLVED: To provide a gas holder seal material and a gas holder seal structure capable of keeping excellent airtightness while improving bending resistance under low temperature in a cold district.SOLUTION: A gas holder seal member 5 is interposed between an inner peripheral surface of a tank 1 configuring a gas holder and an outer edge portion of a shock absorbing member 3 elevating in the tank 1 on the outer peripheral side of a moving cover 2 by interlocking with the moving cover 2 elevating in the tank 1, and is formed in a cylinder shape. To at least a tank side end portion 7 of the tank side end portion 7 which is a fixed side to the inner peripheral surface of the tank 1 and a shock absorbing member side end portion 8 which is a fixed side to the outer edge portion of the shock absorbing member 3, both surfaces of the end portion is coated by ethylene-propylene diene rubber, and to parts other than the tank side end portion 7 and the shock absorbing member side end portion 8, the ethylene-propylene diene rubber is not coated. | ||||||
| 57 | For gas holder membrane material and gas holder which is formed by using the same | JP2006164181 | 2006-06-14 | JP5123495B2 | 2013-01-23 | 諭司 長瀬; 裕之 森; 幹生 日下; 靖夫 本石 |
| 58 | Method of packaging gas-filled way and bag with air bag to with airbag and a method for manufacturing the same, and bags with the air bag | JP2005310525 | 2005-10-25 | JP4684079B2 | 2011-05-18 | 正則 安平 |
| 59 | JPH0144959B2 - | JP13761682 | 1982-08-06 | JPH0144959B2 | 1989-10-02 | YANO TOSHIO; ICHINOMYA TETSUO; MASUDA MOTO; ENDO HACHIRO |
| 60 | Variable displacement vessel and usage thereof | JP17075988 | 1988-07-08 | JPS6474301A | 1989-03-20 | JIEIMUZU DABURIYUU HENDORII |
| PURPOSE: To make a gas storing volume variable by connecting, via an electromagnetic open-close valve, an oil-hydraulic pump to one of the inlet-and-exhaust structures of a cylinder body for storing gas. CONSTITUTION: A disk 92 is inserted into a cylinder body 10. One of the chambers in the cylinder body 10, i.e., a chamber 90 is adapted to store gas, and the other chamber is connected to a fluid pump 44 via an electromagnetic open-close valve 46. Due to this structure, the position of the disk 92 can be varied by driving the fluid pump 44 in a direction or other directions, thus allowing the gas storing volume to vary. | ||||||
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