A continuous serpentine concrete beamway forming system and method for creating a hollow continuous serpentine concrete beamway are disclosed. The continuous serpentine concrete beamway forming system and method utilizes a flexible form material that has the ability to conform to curves, angles, and slopes of a target beamway system as intended. The flexible form material is used to form an armature that embodies a precise pathway of the target beamway system. The armature is contiguous throughout a plurality of connected beamway segments that collectively make up the target beamway system and that are precisely aligned to conform to the curves, angles, and slopes of the target beamway system. A part of the armature creates grooves on the surfaces of the connected beamway segments. The grooves are subsequently used to guide machinery that grinds the running surfaces to precise tolerances. Precise alignment is achieved as a result of the grooves being formed in a continuous fashion, thereby allowing the grinding machines to cross from one beamway segment to the next.

A continuous serpentine concrete beamway forming system and method for creating a hollow continuous serpentine concrete beamway are disclosed. The continuous serpentine concrete beamway forming system and method utilizes a flexible form material that has the ability to conform to curves, angles, and slopes of a target beamway system as intended. The flexible form material is used to form an armature that embodies a precise pathway of the target beamway system. The armature is contiguous throughout a plurality of connected beamway segments that collectively make up the target beamway system and that are precisely aligned to conform to the curves, angles, and slopes of the target beamway system. A part of the armature creates grooves on the surfaces of the connected beamway segments. The grooves are subsequently used to guide machinery that grinds the running surfaces to precise tolerances. Precise alignment is achieved as a result of the grooves being formed in a continuous fashion, thereby allowing the grinding machines to cross from one beamway segment to the next.

Therefore, a first aspect provides a brake module for a magnetically suspended vehicle. The brake module comprising a first magnetically active brake element coupled to a first brake magnet actuator comprised by the brake module. The first brake magnet actuator is arranged to control the first magnetically active element to provide a first magnetic brake field of a pre-determined magnitude at a first pre-determined location relative to the brake module, of which first magnetic brake field the first field lines are, in use, substantially horizontal and substantially perpendicular to a direction of travel of the vehicle. By providing an Eddy current brake having magnetic field components that are substantially horizontally oriented, influence of magnetic forces excited by the Eddy currents generated on the (vertical) suspension are reduced and preferably minimised.

Therefore, a first aspect provides a brake module for a magnetically suspended vehicle. The brake module comprising a first magnetically active brake element coupled to a first brake magnet actuator comprised by the brake module. The first brake magnet actuator is arranged to control the first magnetically active element to provide a first magnetic brake field of a pre-determined magnitude at a first pre-determined location relative to the brake module, of which first magnetic brake field the first field lines are, in use, substantially horizontal and substantially perpendicular to a direction of travel of the vehicle. By providing an Eddy current brake having magnetic field components that are substantially horizontally oriented, influence of magnetic forces excited by the Eddy currents generated on the (vertical) suspension are reduced and preferably minimised.

A transport system includes: a transport path housing; a first magnetic force unit provided in the transport path housing; a transport vehicle that includes a second magnetic force unit provided so as to be able to face the first magnetic force unit and is able to travel along the transport path housing while being levitated by magnetic force acting between the first magnetic force unit and the second magnetic unit; a rail on which the transport vehicle lands to be able to travel, the rail being provided in the transport path housing; and at least one moving means for moving the transport vehicle in a landing state where the transport vehicle lands on the rail, to a position where the transport vehicle is be able to be levitated by the magnetic force.

Long-stator linear motor with vehicle arranged for movement along transport path. Motor includes holding structure(s) having drive coils, on which passive part of vehicle is arranged; and guide surface and guide track running along path. Passive part has first drive magnet(s) arranged parallel to guide surface with air gap. Vehicle has first profile member(s) arranged on guide track and positioned by pressing force acting in transverse direction onto guide track with respect to an ascending direction running normally to movement direction and transverse direction. First running member(s) support passive part on holding structure against attractive force acting between drive magnets and drive coils to ensure the air gap. Vehicle has first auxiliary guide member(s) which, interacting with an auxiliary guide on holding structure at least in divergence and/or convergence areas of path, delimits movement of vehicle in a positive and/or negative ascending direction at least on one side.

A rail-bound maglev train comprising a guide rail which predefines a travel path, having at least one supra-conductive element (2) and a levitating vehicle which is arranged on the guide rail and has magnetic means (6), wherein the magnetic means interact magnetically in a contactless fashion with the travel path, and at least one supra-conductive element (2) comprises at least one supra-conductive conductor parallel to the travel path (4), and the at least one supra-conductive conductor has at least two electrical connections, wherein the respective at least two connections bound, on a strip, a strip section, arranged between said connections, as a continuous supra-conductive electrical line.

A rail-bound maglev train comprising a guide rail which predefines a travel path, having at least one supra-conductive element (2) and a levitating vehicle which is arranged on the guide rail and has magnetic means (6), wherein the magnetic means interact magnetically in a contactless fashion with the travel path, and at least one supra-conductive element (2) comprises at least one supra-conductive conductor parallel to the travel path (4), and the at least one supra-conductive conductor has at least two electrical connections, wherein the respective at least two connections bound, on a strip, a strip section, arranged between said connections, as a continuous supra-conductive electrical line.

A continuous serpentine concrete beamway forming system and method for creating a hollow continuous serpentine concrete beamway are disclosed. The continuous serpentine concrete beamway forming system and method utilizes a flexible form material that has the ability to conform to curves, angles, and slopes of a target beamway system as intended. The flexible form material is used to form an armature that embodies a precise pathway of the target beamway system. The armature is contiguous throughout a plurality of connected beamway segments that collectively make up the target beamway system and that are precisely aligned to conform to the curves, angles, and slopes of the target beamway system. A part of the armature creates grooves on the surfaces of the connected beamway segments. The grooves are subsequently used to guide machinery that grinds the running surfaces to precise tolerances. Precise alignment is achieved as a result of the grooves being formed in a continuous fashion, thereby allowing the grinding machines to cross from one beamway segment to the next.

Long-stator linear motor with vehicle arranged for movement along transport path. Motor includes holding structure(s) having drive coils, on which passive part of vehicle is arranged; and guide surface and guide track running along path. Passive part has first drive magnet(s) arranged parallel to guide surface with air gap. Vehicle has first profile member(s) arranged on guide track and positioned by pressing force acting in transverse direction onto guide track with respect to an ascending direction running normally to movement direction and transverse direction. First running member(s) support passive part on holding structure against attractive force acting between drive magnets and drive coils to ensure the air gap. Vehicle has first auxiliary guide member(s) which, interacting with an auxiliary guide on holding structure at least in divergence and/or convergence areas of path, delimits movement of vehicle in a positive and/or negative ascending direction at least on one side.