Systems and methods for launching space vehicles into orbit involve placing a space vehicle into a protective container. The protective container is placed on a sled in a maglev tunnel and then launched into the atmosphere. Once the protective container reaches a certain height the space vehicle is
Systems and methods for launching space vehicles into orbit involve placing a space vehicle into a protective container. The protective container is placed on a sled in a maglev tunnel and then launched into the atmosphere. Once the protective container reaches a certain height the space vehicle is released from the protective container and the space vehicle then proceeds to the desired orbital position.
대표청구항▼
1. A container, comprising: an outer shell comprising a material configured to withstand atmospheric stresses as the container passes through an atmosphere;an inner compartment configured to accommodate a space vehicle or a combination of a space vehicle and a rocket; anda deployable wing or parachu
1. A container, comprising: an outer shell comprising a material configured to withstand atmospheric stresses as the container passes through an atmosphere;an inner compartment configured to accommodate a space vehicle or a combination of a space vehicle and a rocket; anda deployable wing or parachute configured for deployment to guide the container back to a surface of the earth,wherein the outer shell is configured to open across a horizontal or vertical extent of the container so that the space vehicle or the combination of the space vehicle and the rocket are released from the inner compartment,wherein the container is configured to be launched from a surface of the earth,wherein the container is configured to release the space vehicle or the combination of the space vehicle and the rocket from the protective container once the protective container reaches a predetermined altitude above earth's surface, wherein the predetermined altitude is equal to or below 300,000 feet above the earth's surface. 2. The container of claim 1, wherein the material is steel. 3. The container of claim 1, further comprising: a nose cone containing a liquid or frozen liquid, wherein the nose cone is configured to release the liquid or frozen liquid. 4. A method, comprising: arranging a space vehicle or a combination of a space vehicle and a rocket in a protective container;arranging the protective container containing the space vehicle or the combination of the space vehicle and the rocket on a sled, wherein the sled is arranged above a magnetic levitation rail in a tunnel on a surface of the earth;accelerating the sled to a predetermined velocity;releasing the protective container containing the space vehicle or the combination of the space vehicle and the rocket in the protective container from the sled and the tunnel into the atmosphere;releasing the space vehicle or the combination of the space vehicle and the rocket from the protective container once the protective container reaches a predetermined altitude above earth's surface, wherein the predetermined altitude is equal to or below 300,000 feet above the earth's surface; anddeploying a wing or parachute of the protective container to guide the protective container as it descends towards the earth's surface. 5. The method of claim 4, wherein the protective container includes a nose cone and the method further comprising: releasing a liquid or frozen liquid from the nose cone. 6. The method of claim 4, wherein the tunnel is maintained at a predetermined pressure. 7. The method of claim 6, wherein the predetermined pressure is maintained by arranging a protective film at a terminal end of the tunnel. 8. The method of claim 7, wherein the protective film comprises a plurality of protective films. 9. The method of claim 4, wherein the predetermined velocity is 10% of an orbital velocity of the space vehicle. 10. A system, comprising: a container that includes an outer shell comprising a material configured to withstand atmospheric stresses as the container passes through an atmosphere, andan inner compartment configured to accommodate a space vehicle or a combination of a space vehicle and a rocket;a magnetic levitation system configured to launch the container from a surface of the earth, wherein the magnetic levitation system includes a tunnel;a magnetic levitation rail; anda sled configured to levitate above the magnetic levitation rail,wherein the container is arranged on the sled, and the sled includes an acceleration mechanism configured to accelerate the container to a predetermined velocity,wherein the container includes a deployable wing or parachute configured for deployment to guide the container back to a surface of the earth,wherein the container is configured to release the space vehicle or the combination of the space vehicle and the rocket from the protective container once the protective container reaches a predetermined altitude above earth's surface, wherein the predetermined altitude is equal to or below 300,000 feet above the earth's surface. 11. The system of claim 10, wherein container is configured to open across a horizontal or vertical extent of the container so that the space vehicle or the combination of the space vehicle and the rocket are released from the inner compartment. 12. The system of claim 10, wherein the material of the container is steel. 13. The system of claim 10, wherein the container further comprises a nose cone containing a liquid or frozen liquid, wherein the nose cone is configured to release the liquid or frozen liquid. 14. The system of claim 10, further comprising: a protective film arranged at a terminal end of the tunnel in such a manner to maintain the tunnel at a predetermined pressure. 15. The system of claim 14, wherein the protective film comprises a plurality of protective films.
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