A rail gun launcher consists of an armature where a magnetic core with a multiple turn conductive coil, two parallel conductive rails on which terminals of the coil contact and slide, and a non-magnetic conductive barrel enclosing the rails and the armature. The coil partially encloses the magnetic
A rail gun launcher consists of an armature where a magnetic core with a multiple turn conductive coil, two parallel conductive rails on which terminals of the coil contact and slide, and a non-magnetic conductive barrel enclosing the rails and the armature. The coil partially encloses the magnetic core to shift magnetic equilibrium. When an AC power source is connected to the rails, the coil generates a source magnetism around the coil as well as an induced magnetism on the conductive barrel in an opposite direction through the magnetic core. The source magnetism and the induced magnetism are shifted in magnetic equilibrium and in opposite direction thereby repelling the armature forward. This repulsive force travels with the armature and is continuous from breech to muzzle and propels the armature forward to a high velocity without control circuitry or commutation.
대표청구항▼
1. A rail gun comprising: an electric power source;a conductive rail device including a plurality of conductive rails disposed in spaced, substantially parallel relation to each other and operatively connected to the power source;a movable armature operatively connected to the rail device and formin
1. A rail gun comprising: an electric power source;a conductive rail device including a plurality of conductive rails disposed in spaced, substantially parallel relation to each other and operatively connected to the power source;a movable armature operatively connected to the rail device and forming a flowpath for current from the power source; anda fixed, non-magnetic, conductive barrel disposed coaxially with the movable armature and extending along substantially a full length of the rail device;wherein the armature comprises an elongate ferromagnetic core, and a multi-turn coil disposed about a portion of the ferromagnetic core; andwherein the barrel is spaced away from the rail device. 2. The rail gun according to claim 1, wherein the multi-turn coil is disposed about one end portion of the ferromagnetic core. 3. The rail gun according to claim 1, wherein each of conductive members of the conductive rail device has a groove which extends along a longitudinal length of the rail gun, a first terminal of the multi-turn coil contacts the groove of one of the conductive members, and a second terminal of the multi-turn coil contacts the groove of another of the conductive members so that the armature is guided by said grooves as the armature is accelerated along the rail device. 4. The rail gun according to claim 1, wherein the barrel is disposed coaxially outwardly of the armature and the barrel is provided with a plurality of openings formed there through along the length of the barrel. 5. The rail gun according to claim 1, wherein the elongate ferromagnetic core of the armature is formed in an elongate tubular shape and the barrel is disposed coaxially within the elongate ferromagnetic core. 6. The rail gun according to claim 5, further comprising a magnetic rod inside the barrel wherein the magnetic rod is made of a ferromagnetic material having a minimum eddy current. 7. The rail gun according to claim 1, further comprising a projectile to be launched by the rail gun which is secured to the armature. 8. The rail gun according to claim 1, wherein the electric power source is an AC power source. 9. The rail gun according to claim 1, wherein each of the conductive members of the rail device is connected to the power source at multiple connection points along the length of the conductive member. 10. The rail gun according to claim 1, wherein the ferromagnetic core of the armature is made of a ferromagnetic material having a minimum eddy current. 11. The rail gun according to claim 1, wherein the barrel comprises a plurality of annular segments extending sequentially along the length of the rail device. 12. A method of continuously accelerating a projectile to hyper velocity using a rail gun launcher, comprising the steps of: operatively connecting a conductive rail device which includes two rails disposed in spaced, substantially parallel relation to each other to an electric power source;operatively connecting a movable armature to the rail device such that the armature and rail device form a flowpath for current from the power source, and such that the armature can be accelerated along the rail device by the power source; andfixedly disposing a non-magnetic, conductive barrel coaxially with the movable armature and so that the barrel extends along substantially a full length of the rail device; securing a projectile to be launched to the movable armature; activating the electric power source to accelerate the movable armature and projectile,wherein the armature comprises an elongate ferromagnetic core, and a multi-turn coil disposed about a portion of the ferromagnetic core; andwherein the barrel is spaced away from the rail device. 13. The method of continuously accelerating a projectile to hyper velocity using a rail gun launcher according to claim 12, wherein the multi-turn coil is disposed about one end portion of the ferromagnetic core. 14. The method of continuously accelerating a projectile to hyper velocity using a rail gun launcher according to claim 12, wherein each of conductive members of the conductive rail device has a groove which extends along a longitudinal length of the rail gun, a first terminal of the multi-turn coil operatively contacts the groove of one of the conductive members, and a second terminal of the multi-turn coil operatively contacts the groove of another of the conductive members so that the armature is guided by said grooves as the armature is accelerated along the rail device. 15. The method of continuously accelerating a projectile to hyper velocity using a rail gun launcher according to claim 12, wherein the barrel is disposed coaxially outwardly of the armature and the barrel is provided with a plurality of openings formed there through along the length of the barrel. 16. The method of continuously accelerating a projectile to hyper velocity using a rail gun launcher according to claim 12, wherein the elongate ferromagnetic core of the armature is formed in an elongate tubular shape and the barrel is disposed coaxially within the elongate ferromagnetic core. 17. The method of continuously accelerating a projectile to hyper velocity using a rail gun launcher according to claim 12, wherein each of the conductive members of the rail device is connected to the power source at multiple connection points along the length of the conductive member. 18. The method of continuously accelerating a projectile to hyper velocity using a rail gun launcher according to claim 12, wherein the ferromagnetic core of the armature is made of a ferromagnetic material having a minimum eddy current. 19. A method of continuously accelerating a projectile to hyper velocity using a rail gun launcher according to claim 12, wherein the barrel comprises a plurality of annular segments extending sequentially along the length of the rail device.
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