| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Cleanout system for a reciprocating slat conveyor | US11811710 | 2007-06-11 | US20080304947A1 | 2008-12-11 | Kenneth A. Stout; Timothy Bryan Cooley; Daniel W. Jackson; Travis W. Power |
| A sheet member (30) is positioned on the slats (18) of a reciprocating slat conveyor in a container (10). A strap (32) leads from the forward end of the sheet member (30) to and through a guide eye (38) that is mounted at an elevated position (26) adjacent the front wall (16) of the container (10). The strap extends downwardly from the guide eye (38) to a winding reel (36) driven by a motor (34). A block (40) is connected to the strap (32) in a position so that when the front end of the sheet member (30) has been moved by the strap (32) into an elevated position adjacent the front wall (16), the block (40) on the strap (32) will move through the throat (124, 108) of the guide eye (38) to the opposite side of a latch spring (42) that defines one side of the throat (124, 108). When in this position, the block (40) contacts the latch spring (42) and is hard against a reverse movement of the strap (32) and block (40) through the guide eye (38). However, when the conveyor is operated to move material (M) out from the container (10), it will impose a sufficient amount of force on the sheet member (30) to cause a pulling force on the strap (32) sufficient to move the block (40) back through the throat (124, 108) of the guide eye (38), against the force of the latch spring (42). | ||||||
| 62 | Bin sweep with brush | US11366201 | 2006-03-02 | US20060285942A1 | 2006-12-21 | Craig Fridgen; Andrew Young |
| A bin sweep for removal of particulate from a bin having a floor, wherein the bin sweep includes an auger operated by a power mechanism and the auger comprises one or more auger blades. The bin sweep further includes a brush disposed on a shaft that is attached to the cover of the bin sweep, wherein the brush includes bristles at least in partial contact with the bin floor during operation while the blades of the auger are not in contact with the floor. | ||||||
| 63 | Method and apparatus for shipping and/or storing dry particulate matter | US09785347 | 2001-02-16 | US06478517B1 | 2002-11-12 | Charles M. Nelson; Michael J. Rose |
| A rectangular sheet of extruded, twin-walled, fluted plastic fabricated from a polyethylene copolymer is scored with N parallel lines, wherein N is any odd number three (3) or greater. The sheet of plastic is then bent or otherwise configured along the N parallel lines to form N+1 panels. The first and last panels are snapped into place along the opposing sidewalls, respectively, of a shipping container. The intermediate panels are bent into N + 1 2 V-shaped configurations which together will hold the bottom portion of a load of dry particle materials which will be shipped or stored therein. The materials may be loaded and unloaded through parts. | ||||||
| 64 | Dry stacker and reclaimer | US042126 | 1979-05-24 | US4231467A | 1980-11-04 | Edward E. Cheek |
| There is disclosed a backstacker-reclaimer apparatus which includes a frame having a combined stacking and reclaiming boom. A plurality of spaced stacking and reclaiming flights are longitudinally driven about the boom by an endless chain drive. A conveyor is provided which feeds material to be stacked to the lower reach of the boom so that flights traveling along the lower reach may push the material up onto the stack. The material is confined in the lower reach by side skirts which may be raised for a reclaiming operation. | ||||||
| 65 | 더스트 호퍼 타격장치 | KR1020020062987 | 2002-10-15 | KR1020040033754A | 2004-04-28 | 이동희; 위흥덕 |
| PURPOSE: A device for striking a dust hopper is provided to easily separate dust from the dust hopper by striking a plurality of blows to the dust hopper successively. CONSTITUTION: A device for striking a dust hopper is composed of a cylindrical housing(10), a cylindrical tube(11) installed at the upper center of the housing, partitions(12) installed between the tube and the inner surface of the housing and partitioning the inside of the housing into a plurality of air pockets(13), air holes(14) formed at the air pockets and communicated with the housing, a piston(15) installed in the housing, a striking member(16) installed at the piston and striking the hopper, a return spring(17) installed between the piston and the housing, an air supply tube(18) supplying air to the tube, a check valve(19), and a successive operation unit. The check valve is installed at the upper part of the air pocket, and supplies air to the air pocket. The successive operation unit opens the air holes successively. | ||||||
| 66 | 벙커 호퍼슈트용 자동타격장치 | KR2019990025201 | 1999-11-17 | KR200177690Y1 | 2000-04-15 | 한상종; 정연진; 장봉기 |
| 본 고안은 코크스 오븐에서 석탄의 장입작업전 공정인 평량 작업을 위한 웨이 호퍼에 석탄을 자동 채탄하는 작업시, 벙커 호퍼슈트 내부의 석탄의 막힘현상을 해소할 수 있도록 한 벙커 호퍼슈트용 자동타격장치에 관한 것이다. 본 고안은 벙커 호퍼슈트(100)의 내측면에 설치된 어저스팅 댐퍼(40,41)를 통해 석탄의 밀착 압력을 감소시키는 댐핑부와; 상기 벙커 호퍼슈트(100)의 하부에서 게이트 기어(110a,110b)와 연결된 게이트 피니언 기어(10,11)의 회전에 의해 래크기어 터치바(12,13)가 좌우왕복운동을 하는 동력전달부와; 햄머 잠금장치수단을 구비하고, 상기 벙커 호퍼슈트(100)의 양측면에 부착된 햄머장치부와; 상기 동력전달부와 햄머장치부 사이에 설치된 댐퍼고정부를 포함하여 구성되는 것을 특징으로 한다. 상기와 같은 본 고안의 구성과 작용에 의하여 벙커 호퍼슈트내에서의 석탄 막힘 현상을 적기에 해소하여 작업성이 향상되고, 석탄의 장입 작업이 용이하게 이루어지며, 작업자의 피로나 안전사고의 발생을 사전에 불식시킬 수 있는 유용한 효과가 제공된다. | ||||||
| 67 | System mit Streustoffbehälter und Flüssigkeitstank | EP13157810.6 | 2013-03-05 | EP2775036B1 | 2018-09-12 | Boschung, Marcel; Isele, Rolf |
| 68 | PROCÉDÉ DE VIDANGE COMPLÈTE D'UN RÉACTEUR CATALYTIQUE | EP16175171.4 | 2016-06-20 | EP3108959B1 | 2017-12-20 | DARCISSAC, Jean; THEVENET, Vincent; VIAL, Romain; BERNARD, Lilian; DUFRESNE, Pierre |
| 69 | PROCÉDÉ DE VIDANGE COMPLÈTE D'UN RÉACTEUR CATALYTIQUE | EP16175171.4 | 2016-06-20 | EP3108959A1 | 2016-12-28 | DARCISSAC, Jean; THEVENET, Vincent; VIAL, Romain; BERNARD, Lilian; DUFRESNE, Pierre |
La présente invention a pour objet un procédé pour vidanger un réacteur (1) contenant un lit de particules (3) de catalyseur usé et comprenant un tube de vidange (2) incliné vers le bas, qui débouche dans le réacteur (1). Ce procédé comprend les étapes successives suivantes : |
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| 70 | Grain sweep conveyor | EP12192057.3 | 2012-11-09 | EP2592028B1 | 2015-03-18 | Ahlén, Anders |
| 71 | METHOD AND DEVICE FOR LOOSENING BULK CARGO IN SHIPS BY VIBRATION | EP04728080.5 | 2004-04-16 | EP1625089B1 | 2009-02-25 | Vermeulen, Jozeph Maria |
| Method device for loosening bulk cargo in ships by vibration by bringing the wall (51, 53) and/or rib (55, 56) of the ship at the location of the stuck bulk cargo (60) and/or the stuck nulk cargo (60) itself into vibration, using a vibration device (10) wherein the vibration device (10) vibrates at a frequency of at least 80 Hz. Preferably the vibration device is pin-shaped. | ||||||
| 72 | Dispositif de vidange d'un silo à fond sensiblement plat | EP04300595.8 | 2004-09-13 | EP1516836B1 | 2008-07-16 | Lizambard, Stéphane |
| 73 | METHOD AND DEVICE FOR LOOSENING BULK CARGO IN SHIPS BY VIBRATION | EP04728080.5 | 2004-04-16 | EP1625089A1 | 2006-02-15 | Vermeulen, Jozeph Maria |
| Method device for loosening bulk cargo in ships by vibration by bringing the wall (51, 53) and/or rib (55, 56) of the ship at the location of the stuck bulk cargo (60) and/or the stuck nulk cargo (60) itself into vibration, using a vibration device (10) wherein the vibration device (10) vibrates at a frequency of at least 80 Hz. Preferably the vibration device is pin-shaped. | ||||||
| 74 | Dispositif de vidange d'un silo à fond sensiblement plat | EP04300595.8 | 2004-09-13 | EP1516836A1 | 2005-03-23 | Lizambard, Stéphane |
L'invention concerne dispositif de nettoyage (4) du fond plat (101) d'un silo stockant un produit de type grains. Le produit est extrait, lors d'une première phase, par écoulement gravitaire naturel, vers une trémie centrale (102). Cet écoulement laisse un volume résiduel de produit sur le fond (101) du silo de configuration conique. Un dispositif de vidange à vis sans fin (3), en rotation autour d'un axe vertical (ΔV) pour balayer le fond (101) du silo sur 360°, permet d'extraire l'essentiel du produit résiduel, mais laisse une couche de produit résiduel final (2"). Selon l'invention, le dispositif de nettoyage (4), assujetti mécaniquement au dispositif de vidange (3), comprend une brosse spiralée (40) dont l'arbre d'entraînement (41) est couplé aux moyens de motorisation de la vis sans fin. La brosse spiralée (40) intercepte la couche de produit résiduel final (2"), la transporte vers la trémie centrale (102) et nettoie le fond (101) du silo. |
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| 75 | DEVICE AND METHOD FOR DISLODGING MATERIAL FROM THE WALLS OF STORAGE VESSELS | EP86905908.0 | 1986-10-09 | EP0241503A1 | 1987-10-21 | ANTEBY, Schlomo |
| Dispositif permettant de détacher une substance adhérant aux parois de récipients de stockage, tels que des silos, comprenant: une structure principale possédant une extrémité de guidage; un organe couplé à la structure principale pour suspendre le dispositif à l'intérieur du récipient de stockage en alignement essentiellement horizontal avec le matériau à détacher, l'extrémité du guidage étant plus près de ce matériau; une paire de bras mobiles fixés l'un en face de l'autre sur l'extrémité du guidage de manière à pouvoir se déplacer en se rapprochant et en s'écartant l'un de l'autre; un organe d'actionnement couplé à la structure principale et aux bras afin d'en provoquer le mouvement; et une alimentation d'air comprimé dont les orifices de sortie sont fixés aux bras pour diriger de l'air comprimé sur le matériau à mesure que les bras se déplacent, afin de détacher les matériaux au hasard lorsque l'organe de suspension est utilisé pour diriger le dispositif contre le matériau restant. | ||||||
| 76 | BIN SWEEP ASSEMBLY AND METHOD | EP18157117.5 | 2018-02-16 | EP3363754A1 | 2018-08-22 | KLUBERTANZ, James Alan; MATENAER, Kyle Mark; ZOLP, Dennis James; BALLWEG, Bradley Joseph |
A bin sweep system having a sweep auger and a brush, wherein the brush extends radially beyond the end of the sweep auger to contact the bin wall during operation of the bin sweep to sweep material away from the wall. The sweep auger rotates about a first axis and the brush rotates about a second axis.
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| 77 | APPARATUS AND METHOD FOR TRANSFERRING AND PRESSURIZING POWDER | EP13799305.1 | 2013-12-04 | EP2928800B1 | 2017-07-26 | BEGON, Xavier; DUFFEY, Jean-Louis; WARNERY, Philippe François; BOURGEOIS, Christian |
| 78 | APPARATUS AND METHOD FOR TRANSFERRING AND PRESSURIZING POWDER | EP13799305.1 | 2013-12-04 | EP2928800A1 | 2015-10-14 | BEGON, Xavier; DUFFEY, Jean-Louis; WARNERY, Philippe François; BOURGEOIS, Christian |
| The invention relates to an apparatus for transferring a powdered material from a first zone under pressure PI to a second zone under pressure P2 and for pressurizing the powdered material from pressure PI to pressure P2. The present invention may impart movement, such as oscillations, to the powdered material typically to avoid packing of the powdered material during transfer. | ||||||
| 79 | System mit Streustoffbehälter und Flüssigkeitstank | EP13157810.6 | 2013-03-05 | EP2775036A1 | 2014-09-10 | Boschung, Marcel; Isele, Rolf |
Ein Streugerät (1), insbesondere für Winterdienstfahrzeuge, zum Ausstreuen von festen Streustoffen (100) umfasst einen Streustoffbehälter (3) zur Aufnahme der auszustreuenden festen Streustoffe (100) und zumindest einen innerhalb des Streustoffbehälters (3) angeordneten Flüssigkeitstank (10) mit einer zumindest teilweise flexiblen Hülle und variablem Volumen zur Aufnahme von Flüssigkeit. Das Streugerät (1) umfasst des Weiteren eine Fördereinrichtung (8) in einer Bodenfläche (9) des Streustoffbehälters (3) zum Fördern der Streustoffe (100) aus dem Streustoffbehälter (3) hinaus. Die Bodenfläche (9) des Streustoffbehälters (3) ist horizontal oder nahezu horizontal, wobei auf oder über der Bodenfläche (9) der mindestens eine Flüssigkeitstank (10) so angeordnet ist, dass bei einer zumindest teilweisen Füllung des Flüssigkeitstanks (10) eine gegenüber der Bodenfläche (9) zur Fördereinrichtung (8) hin geneigte Gleitfläche (11) für die auszustreuenden festen Streustoffe (100) gebildet wird.
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| 80 | Cleanout cover system for unloading particulate material from reciprocating floor assemblies | EP04078308.6 | 2004-12-06 | EP1623871A1 | 2006-02-08 | Simrin, Kirk A. |
The cleanout cover system of this invention is operable with a container having a reciprocating slat-type conveyor for supporting and moving particulate material rearwardly at an unloading site. The container has laterally spaced side walls and a front connecting wall, the rear end being operable for unloading. The cleanout system includes a flexible cover sheet spanning the distance between the side walls and an elongated strap connected at one end to the center point of the front end of the cover and at its opposite end to a strap wind-up reel powered by a pneumatic motor. The reel and motor assembly is mounted on the container adjacent the upper end of the front wall of the container centrally between the side walls. A brake system associated with the reel serves to prevent unwinding of the strap when the pneumatic motor is deactivated after the strap is wound fully onto the reel with the cover suspending therefrom and permit unwinding of the strap when pulling tension is applied by the cover during unloading operation of the reciprocating slat-type conveyor of the container.
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