IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0312978
(2001-06-13)
|
우선권정보 |
SE-200002480 (2000-07-03) |
국제출원번호 |
PCT/SE01/01333
(2001-06-13)
|
국제공개번호 |
WO02/06761
(2002-01-24)
|
발명자
/ 주소 |
- Johnsson, Stig
- Hellman, Ulf
- Holmqvist, Ulf
|
출원인 / 주소 |
|
대리인 / 주소 |
Connolly Bove Lodge & Hutz LLP
|
인용정보 |
피인용 횟수 :
11 인용 특허 :
7 |
초록
▼
The present invention relates to a fin-stabilized missile ( 1 ) of the type which is intended to be fired at high acceleration towards a defined target along its trajectory and which can be guided in the trajectory and which, for stabilizing it in the trajectory, is provided with stabilizing fins (
The present invention relates to a fin-stabilized missile ( 1 ) of the type which is intended to be fired at high acceleration towards a defined target along its trajectory and which can be guided in the trajectory and which, for stabilizing it in the trajectory, is provided with stabilizing fins ( 3, 32 ) arranged at its rear end, and control elements ( 6, 7 ) which are arranged at its front end and are intended to guide the latter, and whose rear part, in which the fins are secured, consists of a body part ( 4, 31 ) which can rotate freely relative to the main part ( 1, 29 ) of the missile about a bearing ( 14, 36 ) arranged concentric to the longitudinal axis (L) of the missile ( 1 ). According to the invention, said bearing ( 14, 36 ) is arranged near the dividing plane between the missile ( 1 ) and the body part ( 4, 31 ) and has a short length in the longitudinal direction of the missile, this having been made possible by the fact that it has been given a large diameter compared with its length and it has been designed with special load-bearing contact surfaces ( 20, 21, 27, 28 ) which limit the stresses during ramming and firing and during the flight of the missile ( 1 ) through the air. The freely rotatable body part ( 4, 31 ) for the fins ( 32 ) can then in turn be axially displaced from a launch position located inside the missile to a flight position where the fins ( 32 ) are pushed out behind the rear plane of the missile, where they can rotate freely.
대표청구항
▼
1. Fin-stabilized missile ( 1 ) which is intended to be fired at high acceleration towards a target alone its trajectory and which can be guided in the trajectory, comprising:a main part and a rear part;stabilizing fins ( 3 , 32 ) arranged at a rear end of the missile for stabilizing the missile; an
1. Fin-stabilized missile ( 1 ) which is intended to be fired at high acceleration towards a target alone its trajectory and which can be guided in the trajectory, comprising:a main part and a rear part;stabilizing fins ( 3 , 32 ) arranged at a rear end of the missile for stabilizing the missile; andcontrol elements ( 6 , 7 ) which are arranged at a front end of the missile and are arranged to guide the missile, whereinthe rear part of the missile comprises a body part ( 4 , 31 ) which can rotate freely relative to the main part ( 1 , 29 ) of the missile about a bearing ( 14 , 36 ) arranged concentric to the longitudinal axis (L) of the missile ( 1 ),the stabilizing fins are secured to the rear part of the missile,the bearing ( 14 , 36 ) is arranged near a dividing plane between the body part ( 4 , 31 ) and a remainder of the missile ( 1 ) and has a large diameter compared with its length in the longitudinal direction of the missile,the bearing is designed with a slight axial clearance, both forwards and rearwards of the bearing,in the main part of the missile and in said body part there are peripheral annular contact surfaces ( 20 , 21 and 27 , 28 ) which in pairs are brought to bear against each other immediately before said axial clearance reaches its respective end positions in the bearing in order to transfer forces acting between the main part ( 1 , 29 ) of the missile and said body part ( 4 , 31 ) or parts thereof,contact surfaces ( 20 , 21 ) which limit the removal of the main part ( 1 ) of the missile and the body part ( 4 ) from each other are frustoconical in shape, andcontact surfaces ( 27 , 28 ) which limit the pressing-together of the two parts are flat and annular. 2. Fin-stabilized missile according to claim 1, wherein a first body section ( 35 ) is rotatably mounted via the bearing ( 36 ) in a second special front body section ( 34 ) which does not rotate relative to the rest of the missile, and after the missile has left a launch arrangement the body sections ( 35 , 36 ) can be displaced together from a first starting position, where both the body sections are situated inside a space ( 30 ) in the rear part of the missile, to a second trajectory position where the first body section ( 35 ) is situated completely behind the original rear plane of the missile, while the second front body section ( 34 ) is locked relative to the rest of the missile near the original rear plane. 3. Fin-stabilized missile ( 1 ) according to claim 1, comprising:a component ( 8 , 34 - 35 ) which can be displaced relative to the rest of the missile wherein after die missile ( 1 ) has left the barrel of a launch arrangement, the component is displaced axially from a first position to a second position, and;a chamber ( 40 , 38 ) which is arranged between said component and an inner base plane and to which there leads an inlet channel ( 13 , 39 ) with a limited cross-sectional area, through which the chamber ( 40 , 38 ) during launch inside a barrel is supplied with propellant powder gases under high pressure which, when the pressure outside the chamber drops as soon as the missile has left the barrel, will effect the desired displacement of the component. 4. Fin-stabilized missile according to claim 1, wherein the pairs of mutually interacting contact surfaces which limit the movements of the parts ( 1 , 4 and 34 , 35 ) relative to each other are arranged at different axial distances from the bearing and also partially overlap each other in the radial direction. 5. Fin-stabilized missile according to claim 1, wherein the bearing ( 14 , 36 ) comprises a ball bearing ( 14 , 36 ) with an outer ring ( 15 ) clamped securely in the main part ( 1 , 29 ) of the missile and an inner ring ( 16 ) connected to the body part via an attachment, which gives a limited mobility in the axial direction forwards and rearwards in the flight direction of the missile ( 1 ), and movement of the main part ( 1 , 29 ) of the missile and the body part away fro m each other is counteracted by a spring arrangement ( 22 ) clamped between the body part ( 4 ) and the inner ring ( 16 ) of the ball bearing ( 14 ). 6. Fin-stabilized missile according to claim 1, wherein the axial clearance in the pressing direction between the peripheral annular contact surfaces ( 27 , 28 ) does not exceed the axial play of the ball bearing. 7. Fin-stabilized missile ( 1 ) which is intended to be fired at high acceleration towards a target alone its trajectory and which can be guided in the trajectory, comprising:a main part and a rear part;stabilizing fins ( 3 , 32 ) arranged at a rear end of the missile for stabilizing the missile; andcontrol elements ( 6 , 7 ) which are arranged at a front end of the missile and are arranged to guide the missile, whereinthe rear part of the missile comprises a body part ( 4 , 31 ) which can rotate freely relative to the main part ( 1 , 29 ) of the missile about a bearing ( 14 , 36 ) arranged concentric to the longitudinal axis (L) of the missile ( 1 ),the stabilizing fins are secured to the rear part of the missile,the bearing ( 14 , 36 ) is arranged near a dividing plane between the body part ( 4 , 31 ) and a remainder of the missile ( 1 ) and has a large diameter compared with its length in the longitudinal direction of the missile,the bearing is designed with a slight axial clearance, both forwards and rearwards of the bearing,in the main part of the missile and in said body part there are peripheral annular contact surfaces ( 20 , 21 and 27 , 28 ) which in pairs are brought to bear against each other immediately before said axial clearance reaches its respective end positions in the bearing in order to transfer forces acting between the main part ( 1 , 29 ) of the missile and said body part ( 4 , 31 ) or parts thereof, andthe pairs of mutually interacting contact surfaces which limit the movements of the parts ( 1 , 4 and 34 , 35 ) relative to each other are arranged at different axial distances from the bearing and else partially overlap each other in the radial direction. 8. Fin-stabilized missile according to claim 7, wherein the bearing ( 14 , 36 ) comprises a ball bearing ( 14 , 36 ) with an outer ring ( 15 ) is clamped securely in the main part ( 1 , 29 ) of the missile and an inner ring ( 16 ) connected to the body part via an attachment, which gives a limited mobility in the axial direction forwards and rearwards in the flight direction of the missile ( 1 ), and movement of the main part ( 1 , 29 ) of the missile and the body part away from each other is counteracted by a spring arrangement ( 22 ) clamped between the body part ( 4 ) and the inner ring ( 16 ) of the ball bearing ( 14 ). 9. Fin-stabilized missile according to claim 7, wherein the axial clearance in the pressing direction between the peripheral annular contact surfaces ( 27 , 28 ) does not exceed the axial play of the ball bearing. 10. Fin-stabilized missile according to claim 7, wherein a first body section ( 35 ) is rotatably mounted via the bearing ( 36 ) in a second special front body section ( 34 ) which does not rotate relative to the rest of the missile, and slier the missile has left a launch arrangement the body sections ( 35 , 36 ) can be displaced together from a first starting position, where both the body sections are situated inside a space ( 30 ) in the rear part of the missile, to a second trajectory position where the first body section ( 35 ) is situated completely behind the original rear plane of the missile, while the second front body section ( 34 ) is locked relative to the rest of the missile near the original rear plane. 11. Fin-stabilized missile ( 1 ) according to claim 7, comprising:a component ( 8 , 34 - 35 ) which can be displaced relative to the rest of the missile, wherein after the missile ( 1 ) has left the barrel of a launch arrangement, the component is displaced axially from a first position to a second position and;a chamber ( 40 , 38 ) which is arranged b etween said component and an inner base plane and to which there leads an inlet channel ( 13 , 39 ) with a limited cross-sectional area, through which the chamber ( 40 , 38 ) during launch inside a barrel is supplied with propellant powder gases under high pressure which, when the pressure outside the chamber drops as soon as the missile has left the barrel, will effect the desired displacement of the component. 12. Fin-stabilized missile ( 1 ) which is intended to be fired at high acceleration towards a target alone its trajectory and which can be guided in the trajectory, comprising:a main part and a rear part;stabilizing fins ( 3 , 32 ) arranged at a rear end of the missile for stabilizing the missile;control elements ( 6 , 7 ) which are arranged at a front end of the missile and are arranged to guide the missile; whereinthe rear part of the missile comprises a body part ( 4 , 31 ) which can rotate freely relative to the main part ( 1 , 29 ) of the missile about a bearing ( 14 , 36 ) arranged concentric to the longitudinal axis (L) of the missile ( 1 ),the stabilizing fins are secured to the rear part of the missile,the bearing ( 14 , 36 ) is arranged near a dividing plane between the body part ( 4 , 31 ) and a remainder of the missile ( 1 ) and has a large diameter compared with its length in the longitudinal direction of the missile,the bearing is designed with a slight axial clearance, both forwards and rearwards of the bearing,in the main part of the missile and in said body part there are peripheral annular contact surfaces ( 20 , 21 and 27 , 28 ) which in pairs are brought to bear against each other immediately before said axial clearance reaches its respective end positions in the bearing in order to transfer forces acting between the main part ( 1 , 29 ) of the missile and said body part ( 4 , 31 ) or parts thereof,the bearing ( 14 , 36 ) comprises a ball hearing ( 14 , 36 ) with an outer ring ( 15 ) clamped securely in the main part ( 1 , 29 ) of the missile and whose in inner ring ( 16 ) connected to the body part via an attachment, which gives a limited mobility in the axial direction forwards and rearwards in the flight direction of the missile ( 1 ), andmovement of the main part ( 1 , 29 ) of the missile and die body part away from each other is counteracted by a spring arrangement ( 22 ) clamped between the body part ( 4 ) and the inner ring ( 16 ) of the ball bearing ( 14 ). 13. Fin-stabilized missile ( 1 ) according to claim 12, wherein said spring arrangement ( 22 ) is designed to accept a certain loading of missile and body part away from each other and associated displacement between them before the contact surfaces ( 20 , 21 ) acting in this direction bear against each other, where said ball bearing ( 14 ) is at the same time adapted to take up forces acting between the outer ring ( 15 ) and inner sing ( 16 ). 14. Fin-stabilized missile according to claim 13, wherein the inner ring ( 16 ) of the same ball bearing is arranged on a bearing support ( 17 ) securely connected to said body part and, when the main part of the missile ( 1 ) and the body part ( 4 ) are loaded in the direction away from each other, it displaces counter to said spring arrangement ( 22 ) within certain predetermined limits within which the ball bearing ( 14 ) gives the desired free rotation for the body part ( 4 ) relative to the main part of the missile ( 1 ). 15. Fin-stabilized missile according to claim 13, wherein said spring arrangement ( 22 ) consists of an annular spring of L-shaped cross section with a first lamb ( 23 ) which extends rearwards in the direction of flight of the missile and which is secured to the body part ( 4 ), and a second resilient limb ( 26 ) which extends radially in towards the center of the bearing and lies against the edge of the inner ring ( 16 ) of the ball bearing which is directed forwards in the direction of flight of the missile. 16. Fin-stabilized missile according to claim 12, wherein the in ner ring ( 16 ) of the ball bearing is arranged on a bearing support ( 17 ) securely connected to said body part and, when the main part of the missile ( 1 ) and the body part ( 4 ) are loaded in the direction away from each other, it displaces counter to said spring arrangement ( 22 ) within certain predetermined limits within which the ball bearing ( 14 ) gives the desired free rotation for the body part ( 4 ) relative to the main part of the missile ( 1 ). 17. Fin-stabilized missile according to claim 16, wherein said spring arrangement ( 22 ) comprises an annular spring of L-shaped cross section with a first limb ( 23 ) which extends rearwards in the direction of flight of the missile and which is secured to the body part ( 4 ), and a second resilient limb ( 26 ) which extends radially in towards the center of the bearing and lies against the edge of the inner ring ( 16 ) of the ball bearing which is directed forwards in the direction of flight of the missile. 18. Fin-stabilized missile according to claim 12, wherein the axial clearance in the pressing direction between the peripheral annular contact surfaces ( 27 , 28 ) does not exceed the axial play of the ball bearing. 19. Fin-stabilized missile according to claim 12, wherein said spring arrangement ( 22 ) comprises an annular spring of L-shaped cross section with a first limb ( 23 ) which extends rearwards in the direction of flight of the missile and which is secured to the body part ( 4 ), and a second resilient limb ( 26 ) which extends radially in towards the center of the bearing and lies against the edge of the inner ring ( 16 ) of the ball bearing which is directed forward in the direction of flight of the missile. 20. Fin-stabilized missile according to claim 12, wherein a first body section ( 35 ) is rotatably mounted via the bearing ( 36 ) in a second special front body section ( 34 ) which does not rotate relative to the rest of the missile, and after the missile has left a launch arrangement the body sections ( 35 , 36 ) can be displaced together from a first starting position, where both the body sections are situated inside a space ( 30 ) in the rear part of the missile, to a second trajectory position where the first body section ( 35 ) is situated completely behind the original rear plane of the missile, while the second front body section ( 34 ) is locked relative to the rest of the missile near the original rear plane.
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