| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Reingasdurchströmzwischenspeicheranlage | EP85107074.8 | 1985-06-07 | EP0165532B1 | 1988-04-27 | Goebel, Konrad, Dipl.-Ing.; Schiffers, Ulrich, Dr. Dipl.-Ing. |
| 122 | FLEXIBLE ABDECKUNG FÜR EINEN GASSPEICHER | EP83901185.5 | 1983-04-21 | EP0106857B1 | 1986-09-17 | Siegl, Peter |
| The flexible covering is intended for gas storage devices with variable volume and rigid and preferably circular walls (40). The covering is comprised of a gas-tight sheet (42, 45) which may be held in any position by means of a straightening ring (46) while keeping its shape, and in sealing contact (43) with the wall at approximately half the height of the gas volume (G). The cover part (42) of the sheet is tensioned inside the ring (46) as a spherical calotte while its peripheral part (45) extends along the wall upon filling the gas storage device. The load required to obtain the gas pressure may be provided by the ring (46) itself or by weights which may be suspended thereto directly or by means of sheaves (62). Such gas storage devices are appropriate to be incorporated in an aerobic fermentation plant wherein the level (N) of fermentation substrate (B) provides for the lower sealing of the gas volume. The load (60) may be provided by a device for mixing a fermentation substrate or for breaking a supernatant. In order to avoid thermal loss in the fermentation vat, the sheet is provided with a thermal insulation (W). | ||||||
| 123 | GASSPEICHER MIT VARIABLEM NUTZVOLUMEN | EP84901186.0 | 1984-03-23 | EP0138892A1 | 1985-05-02 | SIEGL, Peter |
| L'accumulateur de gaz se compose d'une paroi fixe (W) et d'un plancher fixe (B), alors que son plafond peut monter ou descendre en fonction du volume de gaz. Une feuille en cloche (S) forme une séparation mobile et étanche aux gaz entre le plafond et la paroi fixe. Afin de stabiliser et de centrer le plafond à chaque hauteur, au moins trois guides verticaux (10) répartis sur la circonférence sont installés entre la périphérie du plafond et celle de la paroi, en-dessous de la feuille en cloche, mais à l'intérieur de l'accumulateur. Chacun de ces guides comporte un court élément de guidage (11) fixé à la paroi, un rail de guidage (12), ainsi qu'un support (13) relié au plafond. Ces parties (11-13) peuvent se déplacer les unes par rapport aux autres et s'occupent du guidage vertical du plafond. Sur la gauche de la figure est représentée la position la plus basse du plafond, lorsque l'accumulateur est vide, et sur la droit, la plus haute, lorsque l'accumulateur est plein. | ||||||
| 124 | FLEXIBLE ABDECKUNG FÜR EINEN GASSPEICHER | EP83901185.0 | 1983-04-21 | EP0106857A1 | 1984-05-02 | SIEGL, Peter |
| La couverture flexible est destinée aux accumulateurs de gaz à volume variable et à parois (40) rigides et de préférence circulaires. Elle est composée d'une feuille (42, 45) étanche au gaz qui peut être maintenue dans n'importe quelle position au moyen d'un anneau de raidissement (46) tout en gardant sa forme, et qui est en contact étanche (43) avec la paroi à environ la moitié de la hauteur du volume de gaz (G). La partie couvercle (42) de la feuille est tendue à l'intérieur de l'anneau (46) en forme de calotte sphérique tandis que sa partie périphérique (45) se déroule sur la paroi lors du remplissage de l'accumulateur de gaz. La charge nécessaire pour obtenir la pression du gaz peut être fournie par l'anneau (46) même, ou des poids peuvent y être suspendus directement ou au moyen de poulies de renvoi (62). De tels accumulateurs sont appropriés à une intégration dans une installation de fermentation anaérobie où le niveau (N) en substrat de fermentation (B) constitue l'étanchéité inférieure du volume de gaz. La charge (60) peut être ainsi constituée par un dispositif de mélange du substrat de fermentation ou de rupture d'un chapeau. Afin d'éviter des déperditions thermiques dans la cuve de fermentation, la feuille est pourvue d'une isolation thermique (W). | ||||||
| 125 | Unter Wasser oder dgl. angeordneter Druckluftspeicher | EP79890010.6 | 1979-05-30 | EP0006086A1 | 1979-12-12 | Bauman, Ernst |
Der Druckluftspeicher, bei welchem die gespeicherte Luft (1) unter dem Druck einer Wassersäule steht, dient als Energiespeicher. Die Druckluft kann, z.B. mittels eines Verdichters 6. in den Speicher gepumpt werden um im Bedarfsfall eine Turbine (7) oder dgl. anzutreiben. Die Druckluft (1) befindet sich in einem unter dem Wasser (2) auf- und abbewegbaren Behälter (3), der nach unten hin offen ist und in den - von unten her - ein Verdrängungskörper (20) hineinragt. |
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| 126 | 소화가스 저장조 제조방법 및 상기 방법에 의해 제조된 소화가스 저장조 | KR1020170122320 | 2017-09-22 | KR101842406B1 | 2018-03-27 | 이광헌; 김길수; 박만엽; 장창원 |
| 본발명은내부에수용공간이형성되고, 상측이개방되며, 내측저면중간부분에배출구가형성된원기둥이나콘 형상의기초구조물에바닥멤브레인및 가스멤브레인으로구성된내부멤브레인및 외부멤브레인을결합한소화가스저장조제조방법및 상기제조방법에의해제조한소화가스저장조를제공한다. 본발명의방법으로제조한소화가스저장조는소화가스저장조의가스저장능력을비약적으로향상시킬수 있는것은물론, 홍수또는지진등의천재지변이발생한다하더라도저장된소화가스를안전하게보관할수 있는장점을제공한다. | ||||||
| 127 | 가스홀더 및 그 제어방법 | KR1020140189040 | 2014-12-24 | KR1020160078811A | 2016-07-05 | 설혁순; 양재복; 김희용 |
| 본발명은피스톤의수평을유지할수 있도록실 오일의유위를실시간으로조절하는가스홀더및 그제어방법에관한것으로서, 상기가스홀더는탱크몸체와, 유입가스에대응하여승하강하고실 오일이저장되는피스톤유구를포함하는피스톤과, 실오일을상기피스톤유구에공급하는예비유탱크와, 상기피스톤유구에서월류하는실 오일을저장하는저 부유구와, 상기저 부유구의실 오일을상기예비유탱크로공급하는실 오일공급수단, 그리고상기피스톤유구의실 오일유량에대응하여상기피스톤유구에실 오일을공급하도록상기실 오일공급수단을제어하는제어부를포함한다. 이러한구성으로, 실시간으로가스홀더의피스톤유구에저장되어있는실 오일의유위를유지하여피스톤의기움에따른붕괴를방지할수 있어가스누수및 설비파손을방지할수 있는효과를얻을수 있다. | ||||||
| 128 | 수소가스의 정제방법 및 정제장치 | KR1020157030178 | 2014-02-28 | KR1020150134379A | 2015-12-01 | 키시이미츠루; 하루나카즈오; 시마코이치 |
| [과제] 수소가스의정제방법은, 흡착제가충전된흡착탑(10A 내지 10D)을이용해서행하는압력변동흡착법에의해, 상기흡착탑이상대적으로고압인상태에서, 상기흡착탑에상기혼합가스를도입해서해당혼합가스중의불순물을상기흡착제에흡착시켜서, 상기흡착탑으로부터수소가부화된수소부화가스를도출하는공정과, 상기흡착탑을감압시켜상기흡착제로부터불순물을탈착시켜서, 상기흡착탑으로부터탈착가스를도출하는공정을포함하는사이클을반복한다. 상기흡착탑으로부터도출된상기탈착가스를용량이변화되는가스홀더(2)에도입하면서, 가스홀더(2) 내의압력을실질적으로일정하게유지하면서해당가스홀더(2) 내의가스를배출한다. | ||||||
| 129 | 부생가스 홀더 | KR1020130074309 | 2013-06-27 | KR1020150001887A | 2015-01-07 | 안광민 |
| 부생가스 홀더에 대한 발명이 개시된다. 본 발명의 부생가스 홀더는: 부생가스가 저장되는 저장 탱크; 저장 탱크의 내부 공간을 구획하도록 배치되고, 부생가스의 압력에 의해 이동되도록 설치되는 이동 장치; 이동 장치의 둘레부에 설치되고, 이동 장치의 둘레부와 저장 탱크의 내측면 사이의 틈새를 밀봉하도록 저장 탱크의 내측면에 밀봉 유체를 배출하는 밀봉 장치; 및 밀봉 장치에 배치되어 밀봉 유체를 가열하는 가열 장치를 포함하는 것을 특징으로 한다.
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| 130 | 가스 저장탱크의 내부점검과 부품교체를 위한 구조 및 그 방법 | KR1020140056766 | 2014-05-12 | KR101445526B1 | 2014-10-01 | 정옥채 |
| The present invention relates to a structure for internal inspection and component replacement of a gas storage tank and a method thereof. An interval maintaining means, including multi-step support housing, is disposed at one side of a piston deck to enable the interval maintaining means to be folded or unfolded for inspection and repair of a main body in order to easily secure a working space between a bottom surface of the main body and the piston deck. The piston deck (20) includes a plurality of post-housings (22) having a predetermined length; a storage hole (24) formed inside each of the post-housings (22) to be in communication with the main body (10); a support flange (26) formed at an upper end of each of the post-housings (22); at least one guide groove (50) formed inside each of the post-housings (22); and an interval maintaining means (40) stored in the storage holes (24) of the post-housings (22) to secure a working space between the bottom surface of the main body (10) and the piston deck (20) when inspection and repair of the main body are needed. The interval maintaining means (40) has a guide protrusion (42) protruding from an outer circumference; support housings (40a, 40b, 40c), each having an insertion hole (44) formed inside, folded in multi-steps; guide grooves (50) formed inside each of the support housings (40a, 40b, 40c), wherein the guide protrusion (42) is guided along the guide groove (50) to enable the interval maintaining means (40) to be folded at the piston deck (20). | ||||||
| 131 | 초음파 특수 가스 레벨 측정 장치 | KR1020070010398 | 2007-02-01 | KR1020080072121A | 2008-08-06 | 김선태 |
| A special gas level measuring device using ultrasonic waves is provided to reduce the space between a concave bottom of a cylinder and the measuring device by installing a spring moving an ultrasonic sensor. A special gas level measuring device using ultrasonic waves comprises an ultrasonic sensor(20), a spring(30), a lower housing(40), and an upper housing(50). The ultrasonic sensor measures level of material by projecting ultrasonic waves to the material and receiving reflected waves. The spring reciprocates the ultrasonic sensor up and down. The lower housing includes the spring and supports a convex cylinder(10). The upper housing surrounds the lateral part of the ultrasonic sensor, on the flat surface of the lower housing. The upper housing has a convex shape corresponding to the convex shape of the cylinder. | ||||||
| 132 | Piston rotation prevention device for gas storage equipment and gas storage equipment | JP2013034864 | 2013-02-25 | JP2014163449A | 2014-09-08 | KAWAKAMI YOSHIMICHI; MIZUNOE TOSHIO; TERAO TAKAHIRO; HORIUCHI AKIRA |
| PROBLEM TO BE SOLVED: To keep piston rotation prevention function.SOLUTION: A piston rotation prevention device 50 is used in gas storage equipment including a cylindrical storage part body and a piston provided in the storage part body in such a way that it can be lifted up or descended in the storage part body. The piston rotation prevention device 50 includes a protrusion 51 that protrudes inwardly from an inner surface of the storage part body and extends in a vertical direction and a pair of claw members 55 provided in the piston and arranged at both sides of the protrusion. The piston rotation prevention device 50 further includes slide members 56 which are supported at a piston side in such a way that the slide members can slide toward a diametral direction of the storage part body and which are provided in association with the respective claw members; a rotation shaft 57 crossing at a right angle with a moving direction of the slide member and provided at the piston side; levers 58 rotatably supported in respect to the rotation shaft and having abutting segments 58a arranged at the extremity end in such a way that it can be abutted against the slide member; and springs 59 which are provided near the rear end of the lever and generate a pushing pressure causing the abutting segments of the levers to be abutted against the slide members and pushing the claw members toward the protrusion. | ||||||
| 133 | High pressure container and its manufacturing method | JP2003361781 | 2003-10-22 | JP2005127388A | 2005-05-19 | KANEHARA MASAHIKO; MORI DAIGORO; TSUZUKI MAKOTO; KUMANO AKIKO |
| PROBLEM TO BE SOLVED: To prevent slip between a metallic line and a shell made of a composite material by generally matching a deformation volume of the metallic line with that of the shell made of the composite material of the high pressure container. SOLUTION: A high pressure tank 10 comprises a metallic liner 20 having a desired tank shape, and a shell 30 made of a composite material and formed on an outer periphery of the metallic liner 20. The metallic liner 20 has a cylindrical shell part 21, mouthpieces 22 on both ends, and a cap part 23 connecting the shell part 21 with the mouthpieces 22. A bellows-like telescopic part 211 is formed to the shell part 21 across the entire length in an axial direction (longitudinal direction) of the metallic liner 20. The telescopic part 211 prevents slip between the metallic shell part 21 and the shell 30 made of the composite material when the high pressure tank 10 is expanded or shrunk by an elastic action caused by opening or closing (deforming) its base end 211b. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 134 | Gas storage device | JP16979098 | 1998-06-17 | JPH11132397A | 1999-05-21 | MICHEL BROCHIER |
| PROBLEM TO BE SOLVED: To correctly know a rate of gas entering in an inner shell by forming the inner shell provided with ballast, connecting the inner shell to an external shell on a plurality of positions, and arranging a means for detecting the position of the ballast in relation to one reference position. SOLUTION: A rope 26 is arranged on a height of a nearly equatorial position of an inner shell 2, one end of the rope 26 is fixed, and the equator is fixed to the external shell 4. The rope 26 is regularly arranged along the whole circumference of the equator on the inner shell 2, for example, at an equal clearance, and a ballast 28 is fixed to the inner shell 2. A sensor 30 is arranged on the ceiling end of the external shell 4, and a distance till the ballast 28 is measured, and thereby, the height of the ballast 28 can be known, and the volume of the inner shell 2 can be found out. The height of the ballast 28 is measured, therefore, the gas volume in the tank can be known. COPYRIGHT: (C)1999,JPO | ||||||
| 135 | For gas injection unit and a gas injection molding method using the same | JP17075988 | 1988-07-08 | JP2645333B2 | 1997-08-25 | JEIMUZU DABURYUU HENDORII |
| 136 | JPH028195B2 - | JP7349181 | 1981-05-18 | JPH028195B2 | 1990-02-22 | TAKASHIMA HIROMICHI; KONDO TAKEHIKO; FUKUSHIMA TOORU; TAKEYABU SADASHI; HIROWATARI YOSHINOBU |
| 137 | JPS633199B2 - | JP8764882 | 1982-05-24 | JPS633199B2 | 1988-01-22 | TAJIMA YOSHIO; SUZUKI KAZUTSUGU; OBARA MASAAKI |
| 138 | JPS6253758B2 - | JP6097381 | 1981-04-21 | JPS6253758B2 | 1987-11-11 | NAGAYA KIICHI |
| 139 | Gas holder operating device | JP24869684 | 1984-11-27 | JPS61127997A | 1986-06-16 | ONO HIDETAKA |
| PURPOSE:To prevent abnormal increase in pressure in a gas holder, by providing a valve in an inlet pipe of the gas holder, and controlling an opening/closing operation of the valve according to a signal from a pressure detecting device for detecting pressure in the inlet pipe across the valve. CONSTITUTION:When a piston 2 reaches an upper position of a gas holder 1, a position sensor 7 detects the piston 2 and supplies a signal to a control device 8'. Then, the control device 8' supplies a valve closing signal to a valve 6 to close the valve 6. When pressure in a main pipe 10 becomes higher than that in the gas holder 1, the control device 8' receives a signal from a pressure sensor 9 and supplies a valve opening signal to the valve 6 to open the valve 6. In the case that the piston 2 is located at a lower position of the gas holder 1, the control device 8' receives a signal from the position sensor 7 and supplies a valve opening signal to the valve 6. Accordingly, even if the control device 8' receives a signal from the pressure sensor 9, the valve 6 is maintained open. | ||||||
| 140 | Pure-gas penetrating intermediate storage facility | JP13392085 | 1985-06-19 | JPS6113100A | 1986-01-21 | KONRAATO GEEBERU; URURITSUHI SHIFUAASU |
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