Rocket launcher system and method for controlling a rocket launcher system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F41F-005/04
F41F-005/00
F41F-007/00
출원번호
US-0432633
(2001-12-07)
우선권정보
SE-0004531(2000-12-08)
국제출원번호
PCT/SE01/002709
(2001-12-07)
§371/§102 date
20031202
(20031202)
국제공개번호
WO02/046682
(2002-06-13)
발명자
/ 주소
Fowler,Dean
출원인 / 주소
Forsvarets Materielverk
대리인 / 주소
Jacobson Holman PLLC
인용정보
피인용 횟수 :
3인용 특허 :
6
초록▼
A rocket launcher system and a method for controlling a rocket launcher system. The rocket launcher system is placed below deck on a ship to improve the ship's stealth capability and includes a launcher, a charger and a magazine containing one or more different types of rocket missiles. According to
A rocket launcher system and a method for controlling a rocket launcher system. The rocket launcher system is placed below deck on a ship to improve the ship's stealth capability and includes a launcher, a charger and a magazine containing one or more different types of rocket missiles. According to the method for controlling the rocket launcher system, an operating signal including preparation data is transferred to the rocket launcher system from one or more operators. The preparation data is transferred to a rocket missile and a charger takes the rocket missile from a magazine and charges a launcher. A hatch in the ship's deck is opened, and the launcher sights the rocket missile at a target area.
대표청구항▼
The invention claimed is: 1. A rocket launcher system for a ship comprising a parallel kinematic robot configured to operate as a charger and as a launcher, said parallel kinematic robot being rotatable about a vertical axis thereof and having a gripping device to take a rocket missile from a magaz
The invention claimed is: 1. A rocket launcher system for a ship comprising a parallel kinematic robot configured to operate as a charger and as a launcher, said parallel kinematic robot being rotatable about a vertical axis thereof and having a gripping device to take a rocket missile from a magazine preparatory to launch, and a sighting component to sight said rocket missile at a target area. 2. The rocket launcher system according to claim 1, wherein the rocket missile is charged with preparation data. 3. The rocket launcher system according to claim 2 wherein the rocket missile is charged with the preparation data in the magazine before said missile is taken by the parallel kinematic robot. 4. The rocket launcher system according to claim 1, wherein the magazine contains different types of rocket missiles including anti-submarine weapons, countermeasures, surface target weapons and sensors. 5. The rocket launcher system according to claim 4, wherein two or more operators can prepare different rocket missiles simultaneously. 6. The rocket launcher system according to claim 1, wherein the rocket launcher system is arranged below deck of said ship to improve a stealth capability of said ship. 7. The rocket launcher system according to claim 1, wherein the parallel kinematic robot is gyrostabilised. 8. The rocket launcher system according to claim 1, wherein said gripping device is configured to handle rocket missiles placed in a rocket tube, said parallel kinematic robot further including a connection for transferring information, ignition impulse and preparation data, to the rocket missile. 9. The rocket launcher system according to claim 1, wherein said parallel kinematic robot has an integrated gripping/rocket tube device for handling rocket missiles without rocket tubes and a connection for transferring information, ignition impulse and preparation data, to the rocket missile. 10. The rocket launcher system according to claim 1, wherein structural components of the parallel kinematic robot are made of a non-magnetic, light weight heat-and corrosion-resistant material. 11. The rocket launcher system according to claim 1, wherein the rocket missile includes a system common rocket engine, a divided adjusting unit and a payload. 12. The rocket launcher system according to claim 11, wherein the divided adjusting unit includes two adjusting parts, a system common first adjusting part with ignition impulse and preparation data transfer interface to the magazine and/or the parallel kinematic robot, and a second adjusting part which is unique to each payload and receives preparation data for the payload from the first adjusting part and passes said preparation data on to the payload. 13. The rocket launcher system according to claim 12, wherein data transfer from the magazine and/or the parallel kinematic robot to the first adjusting part occurs in a wireless manner. 14. The rocket launcher system according to claim 1, wherein data transfer from the rocket launcher system to the rocket missile after missile launch takes place by radio or wire. 15. The rocket launcher system according to claim 1, wherein each rocket missile has a recognition code embodied as a bar code. 16. The rocket launcher system according to claim 1, wherein the rocket launcher system includes a plurality of parallel kinematic robots and magazines. 17. A method for controlling a rocket launcher system for ships, comprising the steps of: transferring an operating signal containing preparation data to the rocket launcher system, said rocket launcher system including at least one parallel kinematic robot configured to operate as a charger and as a launcher; transferring preparation data to a rocket missile; taking, by said parallel kinematic robot controlled by the operating signal, the rocket missile from a magazine; and sighting, by the parallel kinematic robot as controlled by the operating signal, the rocket missile at a target area. 18. The method according to claim 17, wherein preparation data is transferred to the rocket missile while said rocket missile is in the magazine. 19. The method according to claim 18, wherein the parallel kinematic robot, controlled by the operating signal which includes data about type of rocket missile requested to be charged, is caused to take the requested rocket missile type from a magazine containing more than one type of rocket missile. 20. The method according to claim 17, wherein the operating signal is transferred by one or more operators, and several operating signals can be transferred to the system simultaneously. 21. The method according to claim 20, wherein the operating signals are stored when the parallel kinematic robot is occupied. 22. The method according to claim 21, wherein the preparation data of the operating signals is stored in the rocket missiles involved, when said missiles are in the magazine. 23. The method according to claim 21, further comprising the steps of: listing the stored operating signals in order of priority and making a dynamic list; and redistributing and listing, by one of the operators, the stored operating signals in order of priority. 24. The method according to claim 17, further comprising the steps of: firing the rocket missile from the parallel kinematic robot; and updating the preparation data of the rocket missile after firing. 25. The method according to claim 17, wherein the parallel kinematic robot operates according to a spatial coordinate system when taking said missile from said magazine and, when sighting and firing, operates according to a global coordinate system.
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