| 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 | Dispositif de guidage lateral pour pont roulant et dispositif de levage comportant un tel dispositif de guidage | EP06291431.2 | 2006-09-11 | EP1762533B1 | 2009-12-02 | Estievenart, Didier |
| 102 | Dispositif de guidage lateral pour pont roulant et dispositif de levage comportant un tel dispositif de guidage | EP06291431.2 | 2006-09-11 | EP1762533A3 | 2008-10-08 | Estievenart, Didier |
Dispositif de guidage latéral pour pont roulant, comprenant un galet (7) monté sur un équipage mobile (10) coulissant sur un premier guide (13) et sollicité vers une position de repos par rapport au premier guide, par un premier dispositif élastique (18). Le premier guide est monté coulissant sur un deuxième guide (14) retenu dans une position normale d'utilisation par rapport au deuxième guide par un dispositif de retenue (28) adapté pour libérer le premier guide lorsqu'un effort prédéterminé est appliqué au premier guide dans la direction de coulissement, un deuxième dispositif élastique (26) étant adapté pour solliciter le premier guide par rapport au deuxième guide vers la position normale d'utilisation.
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| 103 | WIND TURBINE NACELLE WITH INTEGRAL SERVICE CRANE FOR ACCESSING TURBINE COMPONENTS | EP07705633.1 | 2007-02-21 | EP1859165A1 | 2007-11-28 | DEHLSEN, James, G., P.; YARALA, Rahul, R. |
| A service crane for a wind turbine comprising a main crane beam (128) having a track (154) that accommodates a trolley (156) . A hinge (144) is provided at a pivot point (148) near a proximate end of the main beam (128), such that an aft portion of the main beam (128) extends beyond the pivot point (148) to the exterior of the turbine. A distal end of the main beam (128) rests upon a forward beam. A lateral motion actuator (134) moves the main beam (128) back and forth along the forward beam. The trolley (156) runs back and forth along the main beam (128) . A turbine component is attached to a hook lowered by cable from the trolley (156) . The trolley (156) with the component on the hook is moved to the aft portion of the main beam (128), which extends beyond the turbine. The hook is lowered to the ground so that the component can be serviced or replaced. | ||||||
| 104 | LOAD TRANSFER DEVICE | EP04717330.7 | 2004-03-04 | EP1601603A1 | 2005-12-07 | KAHLMAN, Sture; OLSSON, Johan |
| This invention relates to a load transfer device (1) comprising a traverse device and a load carrying device (52), wherein said load carrying device (52) is movable in a three-dimensional space. The traverse device comprises support elements (5, 6), for supporting a traveling bridge (4) arranged to travel along said support elements (5, 6), and a carriage (3) arranged to travel back and forth on said traveling bridge (4). Lateral movement of said load carrying device (52) is effected by a driving device, said driving device is controlled by a control unit. The driving device comprises at least two motors secured to said carriage (3) and is provided with driving wheels (15, 16) and two drag elements (21, 21') secured at its end portions to opposite end portions of said support elements (5, 6) and crossing at said traveling bridge (4). The drag elements (21, 21') crossing each other at said carriage (3) are arranged such that a first driving wheel unit (15) works in contact with one drag element (21) and a second driving wheel unit (16) works in contact with another drag element (21'), thereby moving the carriage (3) and hence the load carrying device (52) in the lateral direction during operation. | ||||||
| 105 | Unité de levage et de manutention de charges au sein d'une installation de production d'aluminium | EP00420224.8 | 2000-10-31 | EP1101726B1 | 2005-02-09 | Piron, Gérard; Boinet, Roger |
| 106 | METHODS AND APPARATUS FOR MANIPULATION OF HEAVY PAYLOADS WITH INTELLIGENT ASSIST DEVICES | EP03731121.4 | 2003-05-08 | EP1501754A1 | 2005-02-02 | COLGATE, J., Edward; DECKER, Paul, F.; KLOSTERMEYER, Stephen, H.; MAKHLIN, Alexander; MEER, David; SANTOS-MUNNE, Julio, J.; PESHKIN, Michael, A.; ROBIE, Michael |
| An intelligent assist method and apparatus are disclosed. The intelligent assist method includes imparting a manual force to a suspended object, determining an angle at which the suspended object is manually forced, generating motorized power to move the object in accordance with the angle at which the suspended object is forced, and inputting a signal to continue the motorized power and enable the object to continue moving on accordance with the angle at which the suspended object is manually forced. | ||||||
| 107 | FASERBEHANDLUNGSANLAGE | EP99971477.7 | 1999-11-02 | EP1127178B1 | 2003-03-05 | HIRSCHEK, Herwig |
| The invention relates to a fibre-processing system (1) for producing non-woven products (3). The inventive system has an input support (4) for the fibre material (2), a bale-processing device (5), a fibre-processing device (6) and an output support (7) for the finished products. These are connected to a common control unit (8) for the individual components of the system, in a common system. The fibre-processing system (1) also has a common transport device (9), especially a crane-type overhead conveyor (24), for the individual system components. | ||||||
| 108 | Unité de levage et de manutention de charges au sein d'une installation de production d'aluminium | EP00420224.8 | 2000-10-31 | EP1101726A1 | 2001-05-23 | Piron, Gérard; Boinet, Roger |
Cette unité de levage et de manutention de charges (7) au sein d'une installation de production d'aluminium par électrolyse ignée, comprenant au moins une série de cuves d'électrolyse (I) en série et étant pourvue d'un chemin de roulement (5) destiné à permettre le déplacement d'au moins un pont roulant au dessus de ladite série de cuves pour la réalisation des différentes fonctions nécessaire à la mise en oeuvre de ladite installation, constitue l'un desdits ponts roulants, sur lequel sont susceptibles de se déplacer selon une direction perpendiculaire à la translation de l'unité (7), au moins deux ensembles de levage et de manutention montés chacun sur un chariot (11, 12, 13). Lesdits chariots sont susceptibles de se translater sur ladite unité l'un en dessus de l'autre pour ainsi permettre leur croisement respectif. |
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| 109 | Ladevorrichtung zum Be- und Entladen eines Fahrzeuges | EP99117226.3 | 1999-09-01 | EP0983899A2 | 2000-03-08 | Die Erfindernennung liegt noch nicht vor |
Die Erfindung betrifft eine in ein Fahrzeug einbaubare Ladevorrichtung zum Be- und Entladen des Fahrzeugs umfassend eine Vertikalbewegungsvorrichtung (14), mit der eine Last verbindbar ist, zum vertikalen Bewegen der Last, eine Drehvorrichtung (31) zum Drehen der Vertikalbewegungsvorrichtung (14) um eine vertikale Achse, eine erste Horizontalbewegungsvorrichtung (42) zum linearen Bewegen der Kombination aus Vertikalbewegungs- (14) und Drehvorrichtung (31) entlang einer ersten Lagerung (40), die in einer ersten horizontalen Richtung verläuft, eine zweite Horizontalbewegungsvorrichtung (50) zum Bewegen der Kombination aus erster Lagerung (40), Vertikalbewegungs- (14) und Drehvorrichtung (31) entlang einer zweiten Lagerung (53), die in der ersten horizontalen Richtung verläuft, eine dritte Horizontalbewegungsvorrichtung (62) zum Bewegen der Kombination aus erster (40) und zweiter Lagerung (53), Vertikalbewegungs- (14) und Drehvorrichtung (31) entlang einer zweiten horizontalen Richtung, die im wesentlichen orthogonal zur ersten horizontalen Richtung verläuft, wobei die Vertikalbewegungsvorrichtung einen gegenüber der Fahrzeughochachse schwenkbaren, mit der Last oder einer Lastgabel (26), die die Last trägt, verbindbaren Abschnitt aufweist. |
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| 110 | Method and device for loading and unloading of vessels | EP94902122.4 | 1993-11-09 | EP0666826B1 | 1997-07-02 | OUDAKKER, Gerrit |
| Container loading and unloading device for vessels, comprising a movable hoisting means which is suitable for acting upon a container, which hoisting means is guided along an essentially horizontal track extending above a quay and a vessel to be moored at said quay, the device (4) being set up in a fixed position and having a series of tracks laying adjacent to each other over a longitudinal part of the quay (3), and each track being provided with one or more hoisting means (9). The hoisting means (9) of adjacent tracks and/or said tracks are designed in such a way that the hoisting means are capable of operating in each other's boundary area. | ||||||
| 111 | Refueling of nuclear reactor | EP83302956.4 | 1983-05-23 | EP0095373A1 | 1983-11-30 | Kaufmann, John William; Swidwa, Kenneth John; Hornak, Leonard Paul |
Refueling apparatus for a nuclear reactor including a bridge (57) and a trolley (59). The bridge (57) is moveable on tracks (62, 63) along the containment (55) of the pit (53) in which the reactor is immersed in water and the trolley (59) is moveable in tracks (121, 123) on the bridge (57) at right angles to the tracks (62, 63) on the bridge (57). The trolley (59) carries a mast assembly (61) for engaging and raising and lowering a nuclear-reactor component assembly involved in the refueling. The bridge (57), trolley (59) and mast assembly (61) each has a pulse generator which produces pulses in accordance with the movement of each for identification of the position of each. Means are provided for automatic re-calibration of the position identifying system. Also, means are provided for containing supply lines for the mast (61) so as to permit undisturbed movement of the- mast relative to the trolley (59). |
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| 112 | Device and a process for controlling a swinging of a load suspended from a lifting apparatus | US15038729 | 2014-11-06 | US09919901B2 | 2018-03-20 | Sergio M. Savaresi; Felice Vinati; Samuele Vinati; Matteo Vinati; Mariachiara Vinati; Giacomo Vinati |
| A device for controlling a swinging of a load suspended from a motorized slidable element is described. The controlling device includes a control unit and an inertial platform. The control unit is provided with means to measure and control the speed of the motorized slidable element and is able to process the values representative of the inclination angle of the cable with respect to the vertical to calculate and to impart control actions in order to dynamically control the speed of the motorized slidable element as a function of a desired inclination angle of the cable with respect to the vertical. | ||||||
| 113 | CRANE, IN PARTICULAR BRIDGE CRANE OR GANTRY CRANE, HAVING AT LEAST ONE CRANE GIRDER | US15547651 | 2016-02-05 | US20180029848A1 | 2018-02-01 | Christoph Passmann; Richard Kreisner; Thomas Schlierbach-Knobloch; Stefan Noll |
| A crane, such as a bridge crane or gantry crane, having at least one horizontally extending crane girder, which is designed as a lattice girder having a plurality of braces and on which a crane trolley having a lifting device can be moved. At least some of the braces are planiform, and each of the planiform braces has a flat main surface, which extends transversely to a longitudinal direction of the crane girder. On each longitudinal side of the braces, a first cut-out and a second cut-out are provided in the main surfaces. The longitudinal sides of at least some of the planiform braces are free of edge bends at least between the first and second cutouts. | ||||||
| 114 | METHOD FOR HOISTING AND TRANSPORTING ASSEMBLIES IN UNDERGROUND NUCLEAR POWER PLANT | US15376586 | 2016-12-12 | US20180002144A1 | 2018-01-04 | Xinqiang NIU; Qigui YANG; Feng LI; Lijun SU; Xuehong YANG; Xin ZHAO; Xia HUA; Shudong WANG; Fuzhen DING; Fei YU; Yi SU; Guoqiang ZHANG; Shiyu XIE; Tao ZHANG |
| A method for hoisting and transporting assemblies in an underground nuclear power plant, the method including: 1) pouring concrete onto a reactor cavern to form a rock anchor beam; hoisting a circular bridge crane to the reactor cavern through a hoist shaft on a top of the reactor cavern; mounting the circular bridge crane on the rock anchor beam by using a truck crane; 2) installing a containment cylinder and a track beam of a polar crane in the reactor cavern using the circular bridge crane; hoisting a gantry crane on one end of a polar crane girder and sending the polar crane girder to the reactor cavern; hoisting the other end of the polar crane girder using the circular bridge crane; allowing the polar crane girder to be horizontal; and mounting the polar crane girder on the track beam. | ||||||
| 115 | COORDINATED SAFETY INTERLOCKING SYSTEMS AND METHODS | US15664069 | 2017-07-31 | US20170327352A1 | 2017-11-16 | David Stagg |
| Accordingly, exemplary embodiments are disclosed of coordinated safety interlocking systems and methods of coordinating safety interlocking. In an exemplary embodiment, a system for providing coordinated safety interlocking between a plurality of machines is disclosed. The system generally includes a plurality of machine control units each configured to control at least one of the plurality of machines. The system also includes at least one operator control unit configured to define a dynamic cluster including a subset of the plurality of machine control units. The at least one operator control unit is configured to control safety interlocking between each machine control unit in the dynamic cluster. The system may be used to provide coordinated safety interlocking between various elements and/or machines, such as crane bridges and crane hoists, etc. | ||||||
| 116 | Crane, in particular an overhead crane or gantry crane, having at least one crane girder | US14355407 | 2013-03-28 | US09796565B2 | 2017-10-24 | Christoph Paβmann; Richard Kreisner; Michael Karden; Thomas Schlierbach-Knobloch |
| A crane, in particular an overhead crane or gantry crane, comprising at least one crane girder, which extends horizontally and is designed as a trussed girder having an upper run and a lower run. A crane trolley having a lifting device can be moved on the crane girder. The invention further relates to a method for assembling a crane girder, comprising an assembly step for producing the trussed structure of the crane girder. The crane girder includes an adapter on at least one of the two opposite ends, which adapter can be fastened to the upper run and the lower run in such a way that the adapter can be oriented relative to the upper run and the lower run and then the adapter can be welded onto the upper run and the lower run in a desired position. | ||||||
| 117 | CANISTER TRANSFER SYSTEM WITH INDEPENDENT TRAVELING SHIELDED BELL | US15376173 | 2016-12-12 | US20170162284A1 | 2017-06-08 | Stephen K. Waisanen |
| A transfer system for spent fuel canisters includes a carrier, a shielded bell trolley movable along the carrier and carrying a shielded bell, and a canister trolley movable along the carrier and carrying a lifting mechanism for raising and lowering the spent fuel canister into and out of the shielded bell. The canister trolley can move along the carrier independent of the shielded bell trolley and the shielded bell trolley can move along the carrier independent of the canister trolley. The shielded bell trolley and the canister trolley can be selectively interlocked for selected transfer operations. | ||||||
| 118 | Canister transfer system with independent traveling shielded bell | US12257750 | 2008-10-24 | US09653189B2 | 2017-05-16 | Steven K. Waisanen |
| A transfer system for spent fuel canisters includes a carrier, a shielded bell trolley movable along the carrier and carrying a shielded bell, and a canister trolley movable along the carrier and carrying a lifting mechanism for raising and lowering the spent fuel canister into and out of the shielded bell. The canister trolley can move along the carrier independent of the shielded bell trolley and the shielded bell trolley can move along the carrier independent of the canister trolley. The shielded bell trolley and the canister trolley can be selectively interlocked for selected transfer operations. | ||||||
| 119 | NOTIFICATION DEVICE AND MOVEMENT SYSTEM | US14894612 | 2015-06-12 | US20160347587A1 | 2016-12-01 | Kouji Ogawa; Fujioki Yamaguchi |
| A notification device is used in a moving device and comprises a main unit that can move a moving body by a driving force of a motor and a control unit that controls the motor in response to an operation input. The notification device comprises an operation information acquisition unit that acquires operation information of the motor from the control unit and a notification unit that, when the motor is in operation, makes a notification different from a notification at the time when the motor is stopped. | ||||||
| 120 | OVERHEAD CRANE SAFETY AWARENESS LIGHTING SYSTEM AND METHOD | US15099767 | 2016-04-15 | US20160304326A1 | 2016-10-20 | Mark Shubel; Kenneth Wright |
| Provided is a safety lighting system for an overhead crane comprising a laser generator capable of generating a laser signal; and a crane control system having a programmable logic circuit; wherein the laser generator is integrated with the crane control system; and wherein the laser generator is operable to project a laser signal onto a surface corresponding to the position of the crane or crane components and a method of using the safety lighting system to determine when an object has crossed into a designated safety zone. | ||||||
