Abstract: An attraction type magnetic levitation vehicle system includes a magnetic rail laid on the side of a track and a levitation vehicle having a supporting electromagnet and a guide electromagnet each having a plurality of magnetic poles arrayed along the track. A magnetic pole surface of each of the plurality of magnetic poles is in opposing relationship to a surface of the magnetic rail, respectively. The magnetic pole surface of at least one of the supporting and guide electromagnets and the surface of the magnetic rail opposing the magnetic pole surface is in the form of a rectangular waveform having a plurality of alternating groove-and-teeth pairs arranged at a predetermined pitch. The distances from one of the plurality of magnetic poles each having the rectangular-wave-shaped magnetic pole surface of the remaining magnetic poles are staggered by less than one pitch from an integer multiple of the predetermined pitch.

Abstract: A levitation, propulsion and guidance mechanism for an inductive repulsion-type magnetically levitated railway in which a vehicle runs along a track bed has superconducting coils fixedly arranged vertically on both sides of the truck of the vehicle at predetermined intervals therealong in a direction of travel of the vehicle. Propulsion coils are arranged on opposed walls of the track bed at predetermined intervals therealong in the direction of travel of said vehicle, and a propulsion power supply is connected to the propulsion conductor coils. Levitation-guidance conductor coils, each comprising upper and lower conductor coils positioned to have vertical symmetry, are disposed on sides of the propulsion conductor coils facing the superconducting coils and are arranged at predetermined intervals along the direction of travel of the vehicle.

Abstract: A transportation system including a solar energy collecting monorail structure formed with a photovoltaic surface layer having a solar energy converting means for converting the collected solar energy to electrical energy. A power distribution means for distributing stored energy to transit vehicles being propelled along the monorail structure or distributing excess energy to a remote power utility source. The monorail structure includes means for propelling a transit vehicle according to magnetic principals associated with transverse flux motors. The system also includes a computer controlled, elevation compensating monorail structure extrusion machine comprising a fabrication chamber which continuously fabricates the monorail structure along a monorail construction right-of-way.

Abstract: A linear motor type monorail conveying apparatus is disclosed including a pair of carriers adapted to ride on the monorail and a load bar positioned beneath the monorail connection the pair of carriers. A linear induction motor is carried by the load bar with the secondary member of the linear motor mounted on the lower surface of the monorail structure and the primary member formed as an integral part of the linear motor and spaced slightly beneath and parallel to the secondary member.

Abstract: An electromagnetically propelled space transportation system is provided for transporting passengers and/or freight between the Earth's surface and orbiting spaceports via reusable spaceplanes. Each spaceplane is equipped with a plurality of superconducting propulsion coils extending along its fuselage and is accelerated to orbital velocities inside a vacuum tube by a 1,530 km long electromagnetic linear accelerator. The vacuum tube is evacuated by utilizing the accelerator as a giant vacuum pump wherein a free-moving, magnetically propelled, air-tight piston is driven through the entire tube at low speed thereby forcing the air directly out the end. The spaceplanes are equipped with movable wings and other aerodynamic surfaces that are retracted during launching and extended during landing. The accelerator is capable of launching spaceplanes directly to geosynchronous orbits or onto interplanetary trajectories.

Abstract: Disclosed is a single, integrated linear synchronous unipolar motor having high-energy permanent magnets operable along a substantially linear demagnetization curve and a polyphase coil. Collectively, the permanent magnets and polyphase coil provide for propulsion, suspension, braking and lateral control of a vehicle along a passive reaction rail. The permanent magnets provide the primary force for suspending the vehicle from the guideway, with a DC field control coil controlling the suspension gap between the vehicle and the reaction rail. The polyphase coil propels the vehicle along the track at a speed dependent upon the voltage and frequency of the supplied signal. The motor exhibits a high power factor and efficiency factor, resulting in a motor that can be operated from a power source having a lower KVA rating than that required for previous linear motor arrangements and that can be used in concert with a low-cost, passive guideway.

Abstract: A levitation-propulsion mechanism for an inductive repulsion type magnetically levitated railway having a vehicle with a truck and a track with a U-shaped cross-section with spaced opposed walls between which the truck runs, has a plurality of vertically positioned superconducting coils on both sides of the truck at intervals therealong in the direction of travel of the vehicle. Guidance coils are mounted on the inside surfaces of the walls of the track at intervals therealong in the direction of travel of the vehicle and opposed to the corresponding superconducting coils. Upper and lower levitation coils are positioned adjacent to the guidance conductor coils and opposed to the superconducting coils, the upper and lower coils being symmetrically positioned above and below, respectively, a horizontal line through the center of the guidance coils, and the upper and lower conductor coils are null-flux connected in a closed circuit.

Abstract: A linear stepping motor comprises a stationary member, a movable member, an attraction magnetic pole and a guiding magnetic pole. The movable member has four pole pieces each having a plurality of teeth facing those of the stationary member. The attraction magnetic pole maintains the movable member floated by a magnetic coil providing an attractive force. The guiding magnetic pole has four coils on the four pole pieces, and causes the movable member to move by consecutive and selective energization of the four coils.

Abstract: The roadway support of a steel roadway for magnetic tracks includes a cover plate (3) as an upper securing member which at the lower side of its two extending longitudinal edges is welded a side guiderail (4). Parallel to the guiderail and at a spacing thereto is a web-shaped longitudinal support (5) welded thereto, which carries the axial stator components (6). Extending at right angles to the longitudinal support (5) are spaced cross-support (8) which respectively pass as a unitary web connector between the two side guiderails (4). In their crossing region, the longitudinal supports (5) and the cross-supports (8) incorporate oppositely directed cutouts (9) and (10). The longitudinal support is fastened to only one of the two perpendicular side edges of the cutout (10) in the cross-support (8) through a welding seam (17) (FIG. 3).

Abstract: A carrier which transports semiconductor chips or the like can run along two rails made of a ferromagnetic material and extending along a running path. The carrier has four supports projecting from its bottom. Four magnets units are supported by the supports, respectively, and each magnet unit includes a permanent magnet and a pair of electromagnets such that the magnet units face the rails. The carrier is held floated with respect to the rails by electromagnetic forces acting between the magnet units and rails. The supports support four gap sensors which detect the gap between the magnet units and rails and produce an output signal corresponding to the gap. Magnetic flux control unit is provided on the underside of the carrier to control the current supplied to the electromagnets in accordance with the outputs of the gap sensors to maintain the gap constant within a predetermined range.

Abstract: There is disclosed a linear stepping motor provided with a stationary member; a movable member having a face opposed to the stationary member; a first magnetic device for suspending the movable member in a floating state by magnetic attractive force with respect to the stationary member; a second magnetic device for magnetically displacing the movable member with respect to the stationary member; and a control device for controlling the first and second magnetic devices to determine the position of the movable member with respect to the stationary member.

Abstract: A semiconductor wafer transportation apparatus includes a car for supporting a semiconductor wafer, a track for guiding the car, and a linear induction motor for levitating and linearly propelling the car along the track. The motor includes a plurality of permanent magnets disposed on the car, a plurality of linearly disposed and selectively energizable electromagnets disposed along the track and circuitry to sequentially energize the electromagnets. Positioning magnets are used to eliminate friction between the car and the track, to control the degree of levitation and to insure precise lateral positioning of the car on the track, and light emitting diodes are used to detect the position of the car on the track.

Abstract: The incremental detection of the vehicle position of a magnetic levitation vehicle, particularly having an elongate stator motor, can occur with at least one coded measuring strip which extends in the direction of travel with a fixed positional assignment to the stator winding and can occur with a sensor system disposed on the vehicle. The sensor system comprises a plurality of sensors disposed at a distance in the direction of travel for detecting the coding. For reliably identifying the relative and the absolute vehicle position given high resolution of the measured signals, the measuring strip, in addition to a pole position coding, also exhibits a slot coding for determining the vehicle location and the sensors arranged independently of the drive system comprise measuring windings for the pole position decoding and measuring windings for the slot decoding.

Abstract: A linear magnetic bearing includes a stator member (16) stationary relative to x, y and z axes and having a longitudinal axis on the z axis as well as a member (15) longitudinally translatable relative to said axes. The translatable member (15) is controlled to have a longitudinal axis coincident with the z axis. Permanent magnets (36 and 37) on one of the members positions the translatable member (15) in a plane defined by the x-y axes relative to the stationary member (16). The position of the translatable member (15) is sensed by sensors (41 and 42) relative to the stationary member (16) in the plane defined by the x-y axes. Electro-magnets (38 and 39) on one member (23) responds to the sensor (41 and 42) to center the longitudinal axis of the translatable member (15) on the z axis. First low reluctance magnetic flux paths for the permanent magnets (36 and 37) exist through both of the members and a radial air gap (32, 33, 34 and 35) between the members.

Abstract: A magnetically levitated carriage provided with a magnetic system suspension consisting of support magnets which magnetically cooperate via an air gap. The levitated carriage is maintained in a stable condition by means of a stabilizing device which substantially comprises a row of first stabilizing magnets connected to the levitated carriage and a row of parallel arranged second stabilizing magnets. The dynamic stiffness due to the stabilizing device is greater than the static stiffness due to the support magnets.

Abstract: A multistage electromagnetic accelerator in which energy is serially induced in stages of parallel rail having serially segmented segments or stages utilizing a high DC current source, circuit breakers, and induction coils with both primary and secondary windings to produce ultra high exit velocity in an armature and projectile which are slidably disposed between the parallel rails.