| 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 | CONVEYOR BELT INCLUDING A FLEXIBLE RARE EARTH MAGNET | PCT/US2005036708 | 2005-10-12 | WO2006044478A3 | 2007-04-05 | |
| The invention is related to induction driven straight or curved conveyors. Belts of the current invention have a flexible strip of permanent rare earth magnetic composition embedded therein. In combination with the flexible strip, stators induce magnetic flux to advance the conveyor belt. | ||||||
| 122 | METHOD AND INSTALLATION FOR TRANSPORTING GOODS, AS WELL AS A COMBINATION OF A CONTAINER AND A WHEEL-SUPPORTED FRAME FOR TRANSPORTING GOODS | PCT/NL9900304 | 1999-05-18 | WO9959901A3 | 2000-02-10 | BODEWES HARMANNUS JOSEPHUS ARN; VERVOORT PETRUS THEODORUS CORN; VAN DEN GOOR JAKOBUS MARIE |
| The invention relates to a method and an installation for transporting goods, such as luggage at airports, wherein the goods are placed into containers (4), which are moved along conveyor tracks (1, 14) by driving means. Containers to be removably placed on wheel-supported frames (18) are used. The containers are either moved together with the frames over a conveyor track (14) provided with driving means for driving the wheel-supported frames, or without said frames (2) over a conveyor track (1) provided with driving means (3) which directly engage the containers so as to move them. | ||||||
| 123 | PRODUCTION ASSEMBLY FOR CARRYING OUT AN OPERATION ON AN ARTICLE | PCT/IB2014066930 | 2014-12-15 | WO2015101862A8 | 2015-11-12 | MONTANARI MICHELE |
| There is disclosed a production assembly (10, 10', 10''') for carrying out an operation on an article (5), comprising: a transfer device (1; 1'; 1a'''; 1b''') for transferring two articles (5) along a path (P, P'; P'''); transfer device (1; 1'; 1a'''; 1b''') comprises: a stationary track (2; 2'); and two transfer elements (3), which are self-movable along track (2, 2') and movable independently of each other along path (P, P'; P''')from a receiving section (I; I'; I''') to only one discharging section (O; O'; O'''); two gripping members (4) for gripping articles (5), which are operatively connected to transfer elements (3), and are movable along path (P, P'; P'''); gripping members (4) support articles (5), as they travel along path (P, P'; P'''); production assembly (10, 10', 10'', 10''') comprises a first operative station (12, 3, 14, 15) with a plurality of operative heads (40, 50) adapted to carry out operation on respective articles (5); and a second operative unit (13, 14, 15), which is arranged upstream of first operative unit (12, 13, 14, 15; transfer device (1; 1'; 1a'''; 1b''') is interposed between first operative unit (12, 13, 14, 15) and second operative unit (12, 13, 14, 15); gripping members (4) grip respective articles (5), only on one side thereof. | ||||||
| 124 | DEVICE AND METHOD FOR MOVING CONVEYING ELEMENTS IN A CONTAINER TREATMENT PLANT | PCT/EP2014067299 | 2014-08-13 | WO2015036196A3 | 2015-07-02 | WAHL MATTHIAS; HIFINGER TONI; SENN KONRAD; WALTER RALF |
| The invention relates to a method for adapting method profiles of a plurality of individually controllable conveyor elements for conveying containers along a conveying path in a container treatment plant. The plurality of conveyor elements are arranged such that they can be moved along the conveyor path. Said method comprises the following steps: a treatment state of at least one container carried along by a first conveying element is determined and/or an operational state of at least one first container treatment unit which is arranged downstream along the conveyor path with respect to a position of the first conveyor element is determined. The first conveyor element is moved by means of a control unit and/or regulating unit of the container treatment unit as part of a flow on conveyor elements, and the method profile of the first conveyor element is adapted by means of said control and/or regulating unit in accordance with the determined treatment state and/or with the determined operational state. | ||||||
| 125 | DEVICE FOR DIVIDING OFF PACKAGING UNITS | PCT/EP2014061675 | 2014-06-05 | WO2014195398A3 | 2015-01-29 | WAGNER STEFAN |
| The invention relates to a device (1) for dividing off packaging units (2) in a packaging machine for producing product groups (3) or packages (3), wherein containers from a broad container stream are converted by means of street division into a plurality of single-track container streams and, by using at least one dividing and/or compacting unit (4) for dividing off and compacting a predetermined numbers of containers, compacted or shaped container groups or partial packages are formed and then respectively combined to form a subsequent package (3), wherein dividing segments (5) from underneath a transport plane (6) engage temporarily in the latter and are then guided back under the transport plane (6). According to the invention the dividing segments (5) are each held on a movement element (7), which movement elements (7) circulate on a linear transporter (8), wherein the dividing segment (5) comprises an engaging element (15) and a guide element (9), which guide element (9) is connected to the latter and is guided along on a control curve (10). | ||||||
| 126 | TRANSPORT DEVICE | PCT/EP2012050618 | 2012-01-17 | WO2012101004A3 | 2014-05-30 | VAN DE LOECHT HEINRICH |
| The invention relates to a transport device for conveying a product, comprising: a movable conveying element (2) for conveying a product, a locally fixed, circulatory rail (3) for guiding the conveying element (2) and a linear motor drive device (5) for driving the conveying element (2). The linear motor drive device (5) has an arrangement (50) for reducing eddy current losses, said arrangement comprising a plurality of individual iron elements (51, 52) which are electrically insulated in relation to one another by means of an insulation material (53). | ||||||
| 127 | CONVEYOR SYSTEM FOR TRAYS OR SIMILAR | PCT/IB2010000285 | 2010-02-15 | WO2010092473A8 | 2011-11-03 | GUIDI GIACOMO; MAZZOTTI GABRIELE; FERRI TONINO |
| A conveyor system (1) for conveying objects has at least one rail (2) having a top wall (9) and extending along a path; a number of electromagnets (19) housed inside the rail (2); control means for sequentially operating the electromagnets (19); and at least one support (4) for supporting the objects, and which is movable on the rail (2) to transport the objects, has a bottom wall (7), and has at least one permanent magnet (13) inside; the permanent magnet (13), in use, is designed to interact with the electromagnets (19) in the rail (2) to move the support (4) on said rail (2); and the support (4) is connected to the rail (2) so that the bottom wall (7) of the support (4) rests on and, in use, slides on the top wall (9) of the rail (2). | ||||||
| 128 | METHOD AND SYSTEM FOR TRANSPORTATION USING A MAGNETIC BEARING STRUCTURE | PCT/US2010028746 | 2010-03-25 | WO2010111549A3 | 2010-12-09 | STUDER PHILIP ALBERT; SHAPERY SANDOR WAYNE |
| A method and system for transportation using a magnetic bearing structure (100) is disclosed. In one aspect, an apparatus for carrying a load comprises a source of magnetic flux (104) and a controller (225) configured to control the position of the source of magnetic flux (104) relative to a magnetizable structure (220). The source of magnetic flux (104) comprises a first upper portion and a first lower portion of opposite polarities. The first portions are spaced apart horizontally from a first side of the magnetizable structure (220). The source of magnetic flux further comprises a second upper portion and a second lower portion of opposite polarities. The second portions are spaced apart horizontally from a second side of the magnetizable structure. The second side is opposite the first side. The first and second upper portions are magnetically attracted to an upper portion of the magnetizable structure and the first and second lower portions are magnetically attracted to a lower portion of the magnetizable structure. | ||||||
| 129 | STATOR DEVICE FOR A LINEAR MOTOR, AND LINEAR TRANSPORT SYSTEM | PCT/EP2013055851 | 2013-03-20 | WO2013143950A3 | 2014-09-12 | PRÜSSMEIER UWE |
| The invention relates to a stator device (101, 301, 701, 803) for a linear motor, comprising a magnetic field producer (103, 707; 709), to which electric current can be applied, for forming a magnetic field, a first retaining device (105, 303, 703, 805) for retaining the magnetic field producer (103, 707; 709), wherein the magnetic field producer (103, 707; 709) is fastened to the first retaining device (105, 303, 703, 805) and wherein the first retaining device (105, 303, 703, 805) is made at least partially of an electrically and/or magnetically nonconductive material, wherein the magnetic field producer (103, 707; 709) comprises a coil (307, 709) and a stator tooth (401, 501, 707) as a core around which the coil (307, 709) is wound, and wherein the first retaining device (105, 303, 703, 805) is formed as a circuit board (303, 601, 703, 705, 805, 807) for electrical contacting of the magnetic field producer (103, 707; 709). The invention further relates to a linear transport system (801). | ||||||
| 130 | TRANSPORT DEVICE | PCT/EP2012057126 | 2012-04-19 | WO2012152556A3 | 2013-11-14 | REINISCH MARTIN |
| The invention relates to a transport device, in particular for feeding packaging machines, comprising a preferably circulating transport route, a linear motor (20) having a plurality of stationary coils (31) through (35), at least one shuttle (12), which is movably arranged on the transport route and can be moved by means of electromagnetic forces, wherein at least one permanent magnet (14) is arranged on the shuttle (12), wherein at least one permanent magnet plate (16) is arranged on the shuttle (12), on which at least one permanent magnet (14) is arranged. | ||||||
| 131 | SORTING SYSTEM | PCT/EP2012000173 | 2012-01-17 | WO2012107159A3 | 2013-05-10 | BERGER LOTHAR |
| Disclosed is a sorting system having carts (2) that are arranged in a row, are coupled to each other, and can move along a track. Each cart (2) has a permanent magnet arrangement (20) consisting of regularly spaced-apart permanent magnets (20) which are arranged in a row in the direction of travel, each closest permanent magnet (20) having an opposite direction of magnetization. An integer number n of permanent magnets (20) is missing in the coupling zone, n being at least 2, such that the distance between the leading edge of the last permanent magnet (20) on a first cart and the leading edge of the first permanent magnet (20) on the next cart is (n+1) times the distance a corresponding to the pole pitch, i.e. the distance a between the leading edges, centers of gravity, or centers of the other directly successive permanent magnets on a cart. | ||||||
| 132 | LINEAR TRANSPORT SYSTEM BY MEANS OF PERMANENT MAGNETIC FIELDS | PCT/ES2010000361 | 2010-07-27 | WO2011015693A3 | 2011-05-05 | GUERRERO PEREZ JORGE; IRIBARNE MARTINEZ LUIS F |
| The invention relates to a linear transport system by means of permanent magnetic fields, in which a vehicle (1) formed by a magnet flanked by steel spheres on each end (2), is transported due to the force generated by the two lines formed by permanent magnets (3) located on both sides of the track (6) which steer the vehicle. The system is a way of mass transportation through a prefixed path and can be used in work areas without electricity. | ||||||
| 133 | ELECTROMAGNETIC MOVING SYSTEM | PCT/US2007002917 | 2007-02-06 | WO2007097899A3 | 2008-04-17 | LOPATINSKY EDWARD; FEDOSEYEV LEV; SCHAEFER DANIEL |
| An electromagnetic moving system comprises at least one track with a contact surface, at least one moving body located on the contact surface, and at least one controller. The track comprises electrically connected coil windings spaced apart in a series way along the track and forms a multi-phase linear stator. Each of the coil windings has a magnetic axis substantially perpendicular to the contact surface. The body comprises at least one magnetized object having magnetic axes substantially perpendicular to the contact surface such as to cause interaction with the stator when it is powered, thus providing a force leading to movement of the body along the track. | ||||||
| 134 | FOOD PREPARATION SYSTEM | PCT/US2005033586 | 2005-09-16 | WO2006036645A3 | 2007-10-04 | CLOTHIER BRIAN L |
| A food preparation system and method that partiallyautomates the ordering, preparation, and delivery of food items such as pizza. The food preparation system broadly comprising an ordering or point-of-sale station, a computing device, a conveyor system, at least one food preparation station, at least one heating station, a transfer station, a delivery station including at least one delivery device, and an entry/exit station. | ||||||
| 135 | CARTONING APPARATUS AND METHOD | PCT/US0238857 | 2002-12-05 | WO03047977A9 | 2004-11-04 | KALANY ROBERT M; JACOBS KEITH G |
| 136 | A TRANSPORT SYSTEM | US16329476 | 2017-09-05 | US20190218038A1 | 2019-07-18 | GIUSEPPE MONTI |
| Transport system comprises a guide rail having straight and curved portions, a carriage movable along the rail, first and second roller groups on the carriage, and an auxiliary guide at each curved rail portion, corresponding to the curved portion and having an external wall. The first roller group includes an internal roller on the carriage in permanent contact with an internal guide-rail wall along both straight and curved portions and two external rollers contacting the external guide-rail wall only along the straight portions. The second roller group includes two rollers on the carriage, spaced from the guide rail, and in contact with the external wall of the auxiliary guide when the carriage moves along the curved portions. The internal guide-rail wall has, at each curve, an arched surface facing towards the internal roller of the first roller group. | ||||||
| 137 | TRANSFER APPARATUS | US16085115 | 2016-03-25 | US20190077613A1 | 2019-03-14 | Hisashi BEPPU; Yoichi OKAWA |
| A transfer apparatus comprises a first rod-shaped member comprising a magnetic material; a first terminal member configured to allow insertion of a first end portion of the first rod-shaped member; a second terminal member configured to allow insertion of a second end portion of the first rod-shaped member; a second rod-shaped member comprising a magnetic material; a third terminal member configured to allow insertion of a first end portion of the second rod-shaped member; a fourth terminal member configured to allow insertion of a second end portion of the second rod-shaped member; a coupling member coupling the second terminal member and the third terminal member; and an opposite member facing a part of side surfaces of the first and second rod-shaped members, wherein the first rod-shaped member and the first terminal member are not fixed, the first rod-shaped member and the second terminal member are fixed to each other. | ||||||
| 138 | Method and Apparatus for Wireless Power Transfer to an Independent Moving Cart | US15686752 | 2017-08-25 | US20190068101A1 | 2019-02-28 | Xikai Sun; Peter M. Smit; Oliver C. Haya; Mark R. Cooper; Nanwei Yao |
| A system and method for wirelessly providing power to independent movers traveling along a track includes a sliding transformer to transfer power between the track and each mover. The sliding transformer includes a primary winding extending along the track and a secondary winding mounted to each mover. Each of the primary and secondary windings may be formed of a single coil or multiple coils. The primary and secondary windings are generally aligned with each other and extend along the track and along the mover in the direction of travel with an air gap present between the windings. A power converter on the mover may regulate the power supplied to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover. | ||||||
| 139 | TABLE CIRCULATION GUIDE DEVICE | US16019744 | 2018-06-27 | US20190009990A1 | 2019-01-10 | Tsuguyoshi NARA; Masashi MATSUI; Daisuke SATO |
| This table circulation guide device includes sliders and carriage attached to a table. In a working area, the table is guided by the sliders straddling straight track rails. In a non-working area, the table is guided by the carriages traveling on a curved track rail. An endless circulation circuit is formed by the straight track rails and the curved track rail. In the working area of the circuit, the table travels via the sliders straddling the straight track rails. In the non-working area of the circuit, the table travels via the carriages located between the sliders. | ||||||
| 140 | METHOD OF OPERATING A LABORATORY SAMPLE DISTRIBUTION SYSTEM, LABORATORY SAMPLE DISTRIBUTION SYSTEM, AND LABORATORY AUTOMATION SYSTEM | US15988637 | 2018-05-24 | US20180348244A1 | 2018-12-06 | Shubin Ren |
| A method of operating a laboratory sample distribution system is presented. The system comprises sample container carriers comprising a magnetically active device and configured to carry a sample container, interconnected transport plane modules configured to support carriers, and electro-magnetic actuators arranged in rows and columns below each transport plane module and configured to move a carrier on top of the transport plane modules by applying a magnetic force to the carrier. The method comprises assigning transport plane modules to a route category. At least two traffic lanes are formed on the route categorized transport plane module. The carriers are moved within each traffic lane in a transport direction. The transport directions are opposite to each other. The method also comprises assigning another transport plane module to a waypoint category. A change from one transport direction to the opposite transport direction is possible on the waypoint categorized transport plane module. | ||||||
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