Class / Patent application number | Description | Number of patent applications / Date published |
104281000 | MAGNETICALLY SUSPENDED CAR | 53 |
20090020033 | Guideway Carrier and Magnetic Levitation Railway Manufactured Therewith - A guideway carrier ( | 01-22-2009 |
20090165667 | Apparatus and method for electromagnetic levitation on an uncharged and non-magnetized arbitrary surface - Methods and systems for levitation on uncharged and non-magnetized arbitrary surface are disclosed. The system comprises a stack of conducting power plates, a high frequency high voltage (HFHV) source, a force feedback step-up transformer (FFST) and an uncharged and non-magnetized arbitrary surface. The secondary coils of the FFST charge a stack of conducting power plates. The charged conducting power plates switch its polarity in a controlled manner. Due to kinetic inertia of the effective dipole moment of the uncharged and non-magnetized arbitrary surface, the dipole moment cannot maintain the changes in response to the changes in polarity of the stack of conducting power plates and thus, a repulsive force is generated between the stack of conductive power plates and the non-magnetized arbitrary surface. The controlled repulsive force initiates and maintains the desired level of levitation with respect to the uncharged and non-magnetized arbitrary surface. | 07-02-2009 |
20090205531 | Magnetic levitation train provided with a contactless inductive transmission device for a magnetic levitation vehicle railway - A magnetic levitation railway is described which comprises a guideway, at least one magnetic levitation vehicle and a device for contactless, inductive transmission of electrical energy from said guideway to said vehicle. According to the invention the device comprises at least two receiver coils ( | 08-20-2009 |
20090283007 | Nuclear locomotive - This device is a magnetically levitated (maglev) locomotive powered by an onboard nuclear reactor. The locomotive carries a small portable nuclear reactor that heats a fluid to boiling, and passes it through electric turbine engines to produce electric power. The fluid/steam then recirculates through cooling radiators condensing it back to liquid before it passes back into the reactors again. The electric power is used to power and cool the onboard electromagnets, which oppose passive permanent magnets or magnetic coils in the roadbed. The onboard reactor is capable of providing greater electrical power than previously described maglev systems. This, in turn, provides greater power to the superconducting electromagnets, which translates into greater lift capacity and greater speed. | 11-19-2009 |
20090320713 | People & Cargo Transit Systems & Vehicles - The Application discloses People & Cargo Transit Systems & Vehicles (PCTSV), using Narrow Vehicles (NV), which can have the form of a Bus, Train, Tram, Maglev, Mono-Rail or even Car or Truck. A preferred version of which is Single Seat Wide or below 70 cm wide, preferably a Bus type to need no Rail, using Dedicated Narrow Lanes adjacent to Curbside of existing intra-city streets or limits of inter-city roads. Said NV and Lane have Anti-Roll Over Means to stabilize such a narrow vehicle, which also eliminate NV Swaying even when NV is a Bus or Car with has no inherent Sway Limiting. Being Ultra Narrow with No Sway and Running at Curbside results in Negligible or No Blocking of other vehicles by NV.Said Lane/Tack, Anti-Sway & Anti-Roll Structures all Allow being Run Over by other Traffic and have structures not to be damaged, thus can be crossed over at Crossroads and other entrances and exits along said Lane. NV has enough Doors and is Narrow, hence each Passenger can reach a seat or exit, with No Isle inside it to walk along. So it can have Low Profile, like a Sports Car, some 120 cm tall. Hence it is easy to have Covered Trenches at cross roads for non-stop crossing. Trenches can run along most or all the Track, in which case adherence to streets and roads is relieved. Such Narrow and Shallow Trenches take a tiny fraction of time and costs of Skyways or Subways. Each Passenger thus can have her own door, own seat, in a small Cabin, which can be opened and closed to next Cabin, have reclining seats to join to that of next Cabin to sleep on, have laptop tray, etc. All those make PCTSV much more appealing to user's, even better than private transport. There are many Variations other than above. There is an NV Car for the last mile and or long distance use, which can integrate with NV Public Transit. Also modifications to NVs for use in Cargo and Parcel Transit. | 12-31-2009 |
20090320714 | MAGNETIC LEVITATION PROPULSION SYSTEM - A system for propelling a vehicle in a desired direction using a linear induction motor situated proximate to, but off-board the vehicle. The linear induction motor has a suspension system adapted to suspend the motor a desired distance from a reaction rail, separate from any suspension system for the vehicle. The linear induction motor moves the vehicle using a generally rigid member extending between the linear induction motor and the vehicle. Application of a current to the stator of the motor communicates a desired force to the linear induction motor, the general rigid member, and the vehicle. | 12-31-2009 |
20100031846 | MAGNETIC LEVITATION VEHICLE WITH AT LEAST ONE MAGNETIC SYSTEM - A magnetic levitation vehicle has at least one magnetic arrangement ( | 02-11-2010 |
20100132584 | Vehicle having an eddy current brake for a rail-borne transportation system , and a transportation system which is operated therewith, in particular a magnetic levitation train - Disclosed is a vehicle comprising an eddy current brake ( | 06-03-2010 |
20100186618 | TRANSPORT SYSTEM POWERED BY SHORT BLOCK LINEAR SYNCHRONOUS MOTORS - Aspects of the invention provide a transport system powered by short block Linear Synchronous Motors (LSMs). The use of short blocks allows vehicles to move under precise control even when they are in close proximity to each other. The design allows the vehicles to be propelled and guided while negotiating sharp turns and negotiating merge and diverge switches. A coreless LSM can be used to create propulsive force without attractive force so as to allow a relatively high drag vehicle suspension, such as a vehicle sliding on a smooth surface. | 07-29-2010 |
20100242786 | Guideway - A guideway for track-bound vehicle such as a magnetic suspension railway vehicle includes a plurality of serially arranged carriers. Each carrier further includes a guideway slab having vehicle guidance elements arranged thereon, the guideway slab supported on a web oriented in a longitudinal direction of carrier and extending downwardly from the guideway slab. A foundation member bears the weight of the carriers relative to an underlying surface upon which the guideway is constructed. The webs extend from the guideway slab towards the foundation member. Resilient members are disposed between the foundation member and the underlying surface that resiliently support the foundation member in a vertical direction relative to the underlying surface. | 09-30-2010 |
20100307369 | TRAVELWAY STRUCTURE FOR MAGLEV TRANSPORTATION AND A METHOD FOR MANUFACTURING SAME - The present invention provides a travelway structure for maglev transportation comprises: a travelway girder having a concrete girder plate extending from two sides of the travelway girder; a pre-embedded member pre-embedded in the concrete girder plate; and a detachable member installed on the pre-embedded member via a fastener, wherein the pre-embedded member is machinable, and a position for installing the detachable member on the pre-embedded member is formed by a machining process after the travelway girder experiences deformations which lead to errors. A method for manufacturing a travelway structure for maglev transportation is also provided according to the present invention. Specifically, after a period of time, during which the travelway girder experiences most of the deformations caused by pre-stressed tension and gradual contraction and the like, the travelway girder along with the pre-embedded pieces are moved to the machine tools for machining the functional pre-embedded member. Consequently, the installing position of the detachable members can be precisely formed on the pre-embedded members. According to the present invention, the precision of the functional section of the travelway girder in each construction stage can be distributed reasonably so that the difficulty in controlling the precision of the functional section of the integral travelway girder can be overcome. Further, the defects of high cost, heavy weight, and inconvenience in transportation of the conventional travelway girder can be overcome. | 12-09-2010 |
20110061560 | Apparatus and method for using electric fields to cause levitation on an uncharged and non-magnetized arbitrary surface - Methods and systems for levitation on uncharged and non-magnetized arbitrary surface are disclosed. The levitation system generates electric fields in order to cause dielectric polarization on the surface on which levitation is to be caused. Methods and systems are disclosed in which the polarity of the electric field that is produced by the system is switched in a controlled manner. Due to kinetic inertia of the effective dipole moment of the uncharged and non-magnetized arbitrary surface, the dipole moment cannot maintain the changes in response to the changes in polarity of the electric field that is produced by the levitation system and thus, a repulsive force is generated between the levitation system and the non-magnetized arbitrary surface. The controlled repulsive force initiates and maintains the desired level of levitation with respect to the uncharged and non-magnetized arbitrary surface. Additionally the source of electric fields is made to have a large area in order to increase the repulsive force on the levitation system. | 03-17-2011 |
20110277659 | Dynamic magnetic suspension propeller - A dynamic magnetic suspension propeller includes an separate body electromotor and an external force to reversely rotate the separate body electromotor. The separate body electromotor includes a stator and a rotor mounted separately, wherein the stator includes a single layer plane magnetic path having magnetism, the rotor includes a cantilever electromagnet having a first pole provided at an end portion of the cantilever and a second pole provided at a rotating shaft close to the cantilever, wherein the electromagnet is reversely rotated by the external force around the rotating shaft with respect to the stator, so as to produce a countertorque with respect to an magnetic force of the stator, wherein the countertorque includes a magnetic suspension force and a magnetic propelling force. | 11-17-2011 |
20130327244 | AUTONOMOUS MOVING HIGHWAY - An autonomous moving highway system including an elevated guideway having a support pier with a pier cap having a first end, a second end, an upper portion and a lower portion, where the lower portion of the pier cap is attached to the top end of the support pier, a first girder located at the first end of the pier cap and a second girder located at the second end of the pier cap, a first magnetically levitated (maglev) transportation track mounted to a bottom of the first girder and a second maglev transportation track mounted to a bottom of the second girder, a plurality of individual transportation pods, each transportation pod is configured to enclose a vehicle and at least one passenger of the vehicle, a computer control system configured to control power, propulsion, direction and motion of the plurality of transportation pods. | 12-12-2013 |
20140130703 | DRIVE SYSTEM FOR A TRANSPORTATION SYSTEM - A transport system including at least one guideway, at least one levitation generator, at least one lifting member, at least one drive generator, and at least one drive member is presented. The at least one guideway, at least one levitation generator, at least one lifting member, at least one drive generator, and at least one drive member can each be implemented with other systems. The at least one drive generator is configured to: generate a driving magnetic flux; move with a corresponding at least one drive member; and be driven relative to the at least one drive member by the driving magnetic flux. The at least one levitation generator can be configured to: generate a levitating magnetic flux; move within a corresponding at least one lifting member; and elevate above a rest position relative to the at least one lifting member in response to the levitating magnetic flux. | 05-15-2014 |
20140352570 | Magnetically Suspended Vehicle - Generally discussed herein are magnetically suspended vehicle apparatuses, vehicles, and techniques related thereto. In one or more embodiments a vehicle configured to be magnetically suspended may include a steering mechanism, a propulsion mechanism coupled to the steering mechanism, a first end of a stem coupled to the propulsion mechanism, at least one wheel coupled to the propulsion mechanism, and at least one magnet coupled to the stem, wherein the magnet is configured to suspend the vehicle from a ferrous surface when the magnet is situated at or near the ferrous surface. | 12-04-2014 |
20160152245 | MAGNETIC LEVITATION SYSTEM FOR TRANSPORT | 06-02-2016 |
20190143840 | MAGNETIC SUSPENSION FOR A VEHICLE | 05-16-2019 |
104282000 | Propulsion means employed to suspend car | 11 |
20080257197 | Guiding Magnet System and Magnetic Levitation Vehicle Equipped Therewith - The invention relates to a guiding magnet system for a magnetic levitation vehicle. The guiding magnet system contains a number of magnet arrangements ( | 10-23-2008 |
20090249973 | GUIDEWAY TRANSPORTATION SYSTEM WITH INTEGRATED MAGNETIC LEVITATION SUSPENSION, STABILIZATION AND PROPULSION FUNCTIONS - A networked guideway transit system uses permanent magnet repulsion with induction-based repulsion within the networked guideway transport system, which can levitate passively with motion. Magnetic levitation technology is used to replace wheels as the primary means of vehicle suspension. The networked guideway transit system uses the permanent magnets to provide primary lift and uses electrodynamic repulsion to create centering forces at most operational speeds while integrating linear motor functions with the electrodynamic centering function. Further, the networked guideway transit system uses no moving parts in the guideways, which enhances reliability in the guideways. | 10-08-2009 |
20100126373 | METHOD AND DEVICE FOR CONTROLLING THE DRIVE OF A MAGNETIC LEVITATION VEHICLE ON A MAGNETIC LEVITATION TRACK - A method provides for the traction control of a maglev car on a maglev track. A levitation magnetic field is produced by supplying a levitation magnetic flux on the car side to at least two levitation magnets to produce a defined air gap between the maglev car and a reaction rail on the track side. A stator current is supplied to the stator to produce a propulsion force on the maglev track, the propulsion force acts upon the maglev car being determined by the magnetic coupling between the magnetic stator field and the magnetic levitation field. An oscillating movement of the maglev car in relation to the magnetic stator field is dampened by changing the magnetic coupling between the magnetic stator field and the magnetic levitation field on the car side. The levitation magnets are operated on the car side with at least two different individual levitation magnetic fluxes. | 05-27-2010 |
20100126374 | MAGNETOSTATIC LEVITATION AND PROPULSION SYSTEMS FOR MOVING OBJECTS - The present invention relates to a novel magnetic suspension and propulsion technologies, which are named as Magnetostatic Suspension (MSS) and Magnetostatic Propulsion (MSP) respectively because of their magnetostatic nature of forces generated. A spring-like magnetic force is produced through interactions between magnets and ferrous materials such as steel. To apply the technologies, four key embodiments of the invention have been invented and described: a MSS and MSP maglev vehicle system in which a vehicle body is lifted up and stabilized by magnetostatic forces above a steel rail both horizontally and vertically; a MSP long-stator linear motor system in which a rotor can be driven up along a magnet-free steel rail or long steel stator; a MSS Permanent Magnet Magnetic Bearing System (PMMB) system in which a steel shaft is levitated standstill by a fully permanent magnets assembly for frictionless rotating; a MSS maglev wind turbine system in which a magnet-free turbine body can hover standstill over a permanent magnet base assembly spinning frictionlessly with low inertia and low cut-in wind speed threshold. | 05-27-2010 |
20100269729 | MAGNETICALLY LEVITATED RAILWAY - The invention relates to a maglev railway comprising a support and drive system of the long stator-linear motor type, magnetic support poles that are situated in the vehicle being additionally provided with linear generator windings ( | 10-28-2010 |
20110061561 | MAGNETIC LEVITATION VEHICLE WITH A PLURALITY OF DRIVING-AND BRAKING MAGNETS - The invention relates to a magnetic levitation vehicle ( | 03-17-2011 |
20130139717 | Global rapid transit infrastructure using linear induction drive - Transportation infrastructure comprises linear induction drives wherein a roadway surface is induced to simultaneously exert forward, lateral, levitation and three axis angular alignment forces on a vehicle and wherein a vehicle is capable of inducing roadway surface currents that produce said forces in said roadway surface. Comprehensive system sustains continuous traffic flow from the point of entering the infrastructure to the moment of disembarking in a parking facility. Transportation infrastructure comprises integration of air and space travel with substantially reduced cost and transit time. | 06-06-2013 |
20140331888 | CONTROLLED MOTION SYSTEM HAVING AN IMPROVED TRACK CONFIGURATION - A transport system comprising linear motor modules utilized both straight and curved track modules, with movers displaced on the track modules by control of power applied to coils of the modules. Curved track modules have modified spline geometries to provide desired acceleration and jerk characteristics. The modified spline geometries may be defined by more than one generators, such as an equation generator and a spline fit between the equation-generated segment and one or more constrained points or locations. The curved track modules may be divided into 180 degree modules, or may be reduced to 90 degree, 45 degree or other fractional arcs to provide for modular assembly, mirror-image geometries and motion profiles, and the like. The system may be adapted to provide improved motion characteristics based on modification of a conventional spline geometry. | 11-13-2014 |
20150083018 | LINEAR MOTOR TRANSPORT FOR PACKAGING AND OTHER USES - The invention provides in some aspects a transport system comprising a guideway having a plurality of regions in which one or more vehicles are propelled, where each such vehicle includes a magnet. Disposed along each region are a plurality of propulsion coils, each comprising one or more turns that are disposed about a common axis, such that the respective common axes of the plurality of coils in that region are (i) substantially aligned with one another, and (ii) orthogonal to a direction in which the vehicles are to be propelled in that region. The plurality of coils of at least one such region are disposed on opposing sides of the magnets of vehicles being propelled along that region so as to exert a propulsive force of substance on those magnets. In at least one other region, the plurality of coils disposed on only a single side of the magnets of vehicles being propelled in that region exert a propulsive force of substance thereon—regardless of whether the plurality of coils in that region are disposed on a single or multiple (e.g., opposing sides) of those magnets. | 03-26-2015 |
20150329010 | DRIVE SYSTEM FOR A TRANSPORTATION SYSTEM - A transport system including at least one guideway, at least one levitation generator, at least one lifting member, at least one drive generator, and at least one drive member is presented. The at least one guideway, at least one levitation generator, at least one lifting member, at least one drive generator, and at least one drive member can each be implemented with other systems. The at least one drive generator is configured to: generate a driving magnetic flux; move with a corresponding at least one drive member; and be driven relative to the at least one drive member by the driving magnetic flux. The at least one levitation generator can be configured to: generate a levitating magnetic flux; move within a corresponding at least one lifting member; and elevate above a rest position relative to the at least one lifting member in response to the levitating magnetic flux. | 11-19-2015 |
20160107538 | LIFT ASSIST SYSTEMS AND METHODS - Provides are lift assist systems and methods that employ the angular momentum generated by drive bodies travelling along curvilinear guide tracks to provide a lifting force. The tracks and bodies can be positioned on heavy objects to provide lift reducing an energy requirement associated with moving such heavy objects. The system can use a plurality of connected curved guide portions positioned to maximize lift generated by the track. In various embodiments, one or more drive bodies are moveably connected to the guide track. The drive bodies are configured to accelerate along the guide track increasing the lift generated as the drive bodies traverse the guide track. In some embodiments, the guide track includes a plurality of magnetic sections that operate on magnetic sections of the drive bodies. In one embodiment, the polarity of the track sections can manipulated between positive, negative, and none to manage movement of the drive bodies. | 04-21-2016 |
104283000 | By permanent magnets only | 3 |
20100005997 | Amlev: Self-regulating type of Maglev high speed ground transportation based on permanent magnets and steel cores - The proposed Amlev Self-Regulating System of High Speed Ground Transportation Based on Permanent Magnets and Steel Cores is designated for magnetic levitation, stabilization, and propulsion of vehicles moving without friction. The proposed system comprises subsystems: a Magneto-Dynamic Levitation and Stabilizing Self-Regulating System (MDLSS), and a Permanent Magnet Linear Synchronous Motor (PMLSM). Both systems comprise permanent magnets and steel cores. MDLSS provides levitation and stabilization of vehicle while PMLSM produces propulsion force providing the assigned alternative velocity of the vehicle along the stator winding powered by the current of constant frequency 50 Hz. Each of the subsystems comprises two main parts: a fixed part—guideway/stator including extended steel cores for MDLSS and windings for PMLSM, and moving part—permanent magnets of the levitator for MDLSS and the rotor for PMLSM—both affixed to the moving vehicle. Each of the subsystems is self-regulating and operates without fast response control system. A new model is proposed for measuring destabilizing forces impacting a flying vehicle at its shifts from an assigned trajectory that allows to eliminate the stage of full-scale modeling when designing Amlev system. | 01-14-2010 |
20100064929 | INDUCTRACK III CONFIGURATION - A MAGLEV SYSTEM FOR HIGH LOADS - Inductrack III configurations are suited for use in transporting heavy freight loads. Inductrack III addresses a problem associated with the cantilevered track of the Inductrack II configuration. The use of a cantilevered track could present mechanical design problems in attempting to achieve a strong enough track system such that it would be capable of supporting very heavy loads. In Inductrack III, the levitating portion of the track can be supported uniformly from below, as the levitating Halbach array used on the moving vehicle is a single-sided one, thus does not require the cantilevered track as employed in Inductrack II. | 03-18-2010 |
20130174757 | INDUCTRACK III CONFIGURATION - A MAGLEV SYSTEM FOR HIGH LOADS - Inductrack III configurations are suited for use in transporting heavy freight loads. Inductrack III addresses a problem associated with the cantilevered track of the Inductrack II configuration. The use of a cantilevered track could present mechanical design problems in attempting to achieve a strong enough track system such that it would be capable of supporting very heavy loads. In Inductrack III, the levitating portion of the track can be supported uniformly from below, as the levitating Halbach array used on the moving vehicle is a single-sided one, thus does not require the cantilevered track as employed in Inductrack II. | 07-11-2013 |
104284000 | Including means to sense or control car position or attitude with respect to guideway | 12 |
20080223249 | MAGNETIC SUSPENSION SYSTEM WITH INTEGRABLE PROPULSION - A method and system for magnetically levitating a load is disclosed. One embodiment of the invention is a system for magnetically levitating a load, the system comprising at least two lift generators, each comprising a source of magnetic flux configured to induce a magnetic flux in a rail via a leg on either side of the rail, at least one magnetically permeable beam connecting the lift generators, and control circuitry configured to generate and modulate a magnetic current flux through the crossbeam so as to maintain gaps between the legs and rail, wherein the gaps defined by the legs on either side of the rail are of unequal size. | 09-18-2008 |
20080257198 | Method for Control of Support Gaps for a Magnetic Levitation Vehicle and Magnetic Levitation Vehicle with a Control Circuit Operating with Said Method - A method and a magnetic levitation vehicle operating with this method are described. For the control of support gaps ( | 10-23-2008 |
20090283008 | METHOD AND ARRANGEMENT FOR MEASURING A GAP - A method for measuring the gap between a levitation magnet of a vehicle of a magnetic levitation railway and a fixed reaction rail of the magnetic levitation railway and for generating a gap measured value which specifies the size of the gap. In order to form the gap measured value, the magnetic field, which is generated by the levitation magnet, or at least a measured variable associated with the field is evaluated. | 11-19-2009 |
20100031847 | MAGLEV VEHICLE HAVING GUIDANCE MAGNETS - A maglev vehicle is provided including a nose and/or tail section ( | 02-11-2010 |
20100037796 | MAGNET ARRANGEMENT FOR MAGNETIC LEVITATION VEHICLES - A magnetic polar arrangement which is intended for magnetic levitation vehicles is described, the magnetic polar arrangement having at least one magnetic pole ( | 02-18-2010 |
20100043667 | MAGNETIC LEVITATION RAILWAY AND METHOD FOR ITS OPERATION - A method is described for operation of a magnetic levitation railway which contains vehicles with a plurality of supporting magnets ( | 02-25-2010 |
20100071583 | STATIC BEARING CONVEYING APPARATUS HAVING MAGNETICALLY PRELOADING AND MOTIONAL ERROR CORRECTING FUNCTIONS - Disclosed is a static bearing conveying apparatus having magnetically preloading and motional error correcting functions. The apparatus comprises a guide having a guide surface formed on one side of the guide facing a table, magnetic preload units provided between the guide and the table to generate preload, and a motional error correcting control unit comprising a controller to control the magnetic preload units and a power amplifier to apply electric current according to a control signal from the controller. Each of the magnetic preload units comprises a permanent magnet, a core collinear with magnetic fluxes from the permanent magnet, an electromagnetic coil wound around the core, and a fixing bracket having the permanent magnet supported by the table. The apparatus is simplified in structure of the table and the overall guide, and reduces motional errors of the guide by correcting errors of a floating gap of the static bearings. | 03-25-2010 |
20100212537 | System and Method for Vehicle Position Sensing with Use of Propulsion Windings - A system and method are provided for determining the position of a vehicle on a guideway. For operation, the vehicle includes a magnet system having a wavelength “λ”. Further, the guideway includes a propulsion winding for carrying a propulsion current. Structurally, the propulsion winding includes a series of sections, with each section having a wavelength “λ”. Further, the propulsion winding includes “N” coils linearly aligned along the guideway, with a phase difference of “λ/N” between adjacent coils. Importantly, a transmitter is located on the vehicle for emitting a position current that interacts with the propulsion winding to produce a signal in each coil. Also, the system includes a trap connected to each coil for receiving each respective signal, and a processor for resolving the respective signals to determine the position of the vehicle on the guideway. | 08-26-2010 |
20110041722 | Magnetic levitation vehicle comprising a pneumatic spring control system - The invention relates to a magnetic levitation vehicle comprising a body ( | 02-24-2011 |
20110100251 | MAGNETIC LEVITATION VEHICLE AND METHOD FOR LIFTING AND/OR LOWERING THE VEHICLE - The invention relates to a magnetic levitation vehicle ( | 05-05-2011 |
20110247519 | MAGNETIC SUSPENSION SYSTEM WITH INTEGRABLE PROPULSION - A method and system for magnetically levitating a load is disclosed. One embodiment of the invention is a system for magnetically levitating a load, the system comprising at least two lift generators, each comprising a source of magnetic flux configured to induce a magnetic flux in a rail via a leg on either side of the rail, at least one magnetically permeable beam connecting the lift generators, and control circuitry configured to generate and modulate a magnetic current flux through the crossbeam so as to maintain gaps between the legs and rail, wherein the gaps defined by the legs on either side of the rail are of unequal size. | 10-13-2011 |
20150360581 | SHORT BLOCK LINEAR SYNCHRONOUS MOTORS AND SWITCHING MECHANISMS - The invention provides in some aspects a transport system comprising a guideway with a plurality of propulsion coils disposed along a region in which one or more vehicles are to be propelled. One or more vehicles are disposed on the guideway, each including a magnetic flux source. The guideway has one or more running surfaces that support the vehicles and along which they roll or slide. Each vehicle can have a septum portion of narrowed cross-section that is coupled to one or more body portions of the vehicle. The guideway includes a diverge region that has a flipper and an extension of the running surface at a vertex of the diverge. The flipper initiates switching of vehicle direction at a diverge by exerting a laterally directed force thereon. The extension continues switching of vehicle direction at the diverge by contacting the septum. Still other aspects of the invention provide a transport system, e.g., as described above, that includes a merge region with a flipper and a broadened region of the running surface. The flipper applies a lateral force to the vehicle to alter an angle thereof as the vehicle enters the merge region, and the broadened region continues the merge by contacting the septum of the vehicle, thereby, providing further guidance or channeling for the merge. The flipper, which can be equipped for full or partial deployment, is partially deployed in order to effect alteration of the vehicle angle as the vehicle enters the merge. | 12-17-2015 |
104286000 | Construction or composition of suspension elements | 9 |
20090078150 | GROUND COIL DEVICE FOR MAGNETIC LEVITATION RAILWAY AND METHOD FOR MANUFACTURE THEREOF - A ground coil device for a magnetic levitation railway that can be manufactured with a high productivity and exhibit less fluctuation in strength, reduced weight, and good recyclability, and a process for manufacturing the device. The ground coil device includes a coil conductor covered with a thermoplastic resin molding material containing 100 parts by mass of a thermoplastic resin, from 20 to 200 parts by mass of an inorganic filler, and from 0 to 25 parts by mass of an elastomer. A process for producing the ground coil device for magnetic levitation railway includes filling the thermoplastic resin molding material into a cavity of a metal mold into which the coil conductor is previously inserted, by an injection molding method, to obtain an integrally molded product. | 03-26-2009 |
20090120322 | MAGNETIC LEVITATION TRANSPORTATION SYSTEM GROUND COIL UNIT AND MANUFACTURING METHOD THEREOF - In a magnetic levitation transportation system ground coil unit in which inside an annular coil conductor that is annularly wound, a mounting bush | 05-14-2009 |
20100024678 | MAGNET POLE FOR MAGNETIC LEVITATION VEHICLES - A magnet pole, for magnetically levitated vehicles, includes a core ( | 02-04-2010 |
20100258027 | MAGNETIC LEVITATION TRAIN - The invention relates to a magnetic levitation train, comprising a track system formed of track system carriers ( | 10-14-2010 |
20110239897 | TRACK SUPPORT FOR MAGNETIC LEVITATION VEHICLES AND STATOR PACKET FOR THE SAME - The invention relates to track supports for magnetic levitation vehicles, having at least one stator support ( | 10-06-2011 |
20120017798 | TRACK SYSTEM FOR A MAGNETIC LEVITATION VEHICLE - The invention relates to a track system for a magnetic levitation vehicle, comprising stator carriers ( | 01-26-2012 |
20130036935 | TRACK SUPPORT FOR MAGNETIC LEVITATION VEHICLES - The guideway support comprises at least one gliding surface ( | 02-14-2013 |
20150040791 | Vehicle for a Magnetic Levitation Track - The present invention relates to a vehicle for a magnetic levitation track having a coach body ( | 02-12-2015 |
20150360580 | EVACUATED TUBE AND CAPSULE HAVING INTERCHANGE CAPABILITY - A method of interchange for an evacuated tube transport system includes tubes for enabling capsules movement within the tubes. The tubes are evacuated and the capsules magnetically levitated within the tubes. The tubes have an interchanges having diverging and converging tubes, respectively. A control system includes divergence force elements having permanent magnets that are selectively orientable polarity to enable capsule control, or electro magnets with polarity selectively switchable to enable capsule path control. The method selectively energizes the force elements to enable the capsule to diverge or converge in an interchange. An interrupter also regulates the force elements. The method activates the force elements and disables deactivation of the force elements before the capsule diverges in the interchange. The method balances divergence forces through center of gravity and through center of lift on receiving a request for divergence. The control system regulates capsule speed, spacing between capsules, and divergence timing. | 12-17-2015 |