IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0995334
(2009-05-26)
|
등록번호 |
US-8359964
(2013-01-29)
|
우선권정보 |
DE-10 2008 026 205 (2008-05-30); DE-10 2009 021 191 (2009-05-13) |
국제출원번호 |
PCT/EP2009/003697
(2009-05-26)
|
§371/§102 date |
20101130
(20101130)
|
국제공개번호 |
WO2009/146809
(2009-12-10)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Diehl BGT Defence GmbH & Co. KG
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
3 |
초록
▼
A weapon system uses caseless munitions. In order to permit a further use of the weapon system essentially without delay on jamming, a configuration of the weapon system is disclosed that has a weapon barrel, a projectile magazine with individual chambers and a propellant charge magazine with indivi
A weapon system uses caseless munitions. In order to permit a further use of the weapon system essentially without delay on jamming, a configuration of the weapon system is disclosed that has a weapon barrel, a projectile magazine with individual chambers and a propellant charge magazine with individual chambers. In order to guarantee a firing position, the projectile magazine and the propellant charge magazine, may be moved relative to the weapon barrel. The projectile magazine has a chamber located in a discharge position in which an ejector device for the projectile in the chamber may be activated. A further chamber of the projectile magazine may be loaded in the movement position for the projectile magazine and the propellant charge magazine has a chamber, located in a discharge position in which an ejector device for the propellant charge in the chamber may be activated. The further chamber of the propellant charge magazine may be loaded in the movement position of the propellant charge magazine.
대표청구항
▼
1. A weapon system for caseless ammunition, the weapon system comprising: a weapon barrel having a bore axis;a projectile holder having individual chambers;a propellant charge holder having individual chambers, said projectile holder and said propellant charge holder can be moved relative to said we
1. A weapon system for caseless ammunition, the weapon system comprising: a weapon barrel having a bore axis;a projectile holder having individual chambers;a propellant charge holder having individual chambers, said projectile holder and said propellant charge holder can be moved relative to said weapon barrel to ensure a firing position in which a respective one of said chambers in said projectile holder and a respective one of said chambers in said propellant charge holder are located coaxially with respect to said bore axis of said weapon barrel;a first ejection device for said projectile holder;said projectile holder can be moved such that one of said chambers of said projectile holder is disposed in an unloading position in which said first ejection device can be activated for a projectile in said one chamber while, in contrast, another of said chambers of said projectile holder can be reloaded in a movement position of said projectile holder;a second ejection device for said propellant charge holder; andsaid propellant charge holder can be moved such that one of said chambers of said propellant charge holder is disposed in an unloading position in which said second ejection device can be activated for a propellant charge in said one chamber of said propellant charge holder while, in contrast, another of said chambers of said propellant charge holder can be reloaded in a movement position of said propellant charge holder. 2. The weapon system according to claim 1, wherein at least one of said first ejection device for said projectile holder or said second ejection device for said propellant charge holder can be activated in any unloading position of said projectile holder or of said propellant charge holder. 3. The weapon system according to claim 1, wherein: said projectile holder is mounted such that said projectile holder can rotate about an associated projectile holder axis; andsaid propellant charge holder is mounted such that said propellant charge holder can rotate about an associated propellant charge holder axis, said associated projectile holder axis and said associated propellant charge holder axis are each disposed offset parallel to said bore axis of said weapon barrel. 4. The weapon system according to claim 3, wherein said associated projectile holder axis and said associated propellant charge holder axis are in each case positioned with respect to said bore axis and lie on a common plane together with said bore axis, the common plane runs in a longitudinal direction of said bore axis. 5. The weapon system according to claim 3, wherein said projectile holder and said propellant charge holder rotate in opposite senses. 6. The weapon system according to claim 3, further comprising synchronization means for operating said first and second ejection devices in dependence on at least one of a rotational movement of said projective holder, a rotational movement of said propellant charge holder, an angular position of said projectile holder or an angular position of said propellant charge holder. 7. The weapon system according to claim 1, wherein said projectile holder has at least two of said chambers, and said propellant charge holder has at least two of said chambers. 8. The weapon system according to claim 1, wherein the projectile is ejected from said projectile holder in an opposite direction to a firing direction. 9. The weapon system according to claim 1, wherein the propellant charge is ejected from said propellant charge holder in a firing direction. 10. The weapon system according to claim 1, further comprising insertion devices including a first insertion device and a second insertion device;wherein said projectile holder can be moved in at least one successive cycle, wherein the cycle contains the following successive positions: a first position, in which one of said chambers of said projectile holder is disposed in a loading position, in which said first insertion device can be activated in order to insert the projectile into said chamber of said projectile holder;a second position, in which said chamber of said projectile holder is disposed in the firing position; anda third position, in which said chamber of said projectile holder is disposed in the unloading position, in which said first ejection device can be activated in order to eject the projectile, which may still be located in said chamber of said projectile holder, from said chamber of said projectile holder;wherein said propellant charge holder can be moved in at least one successive cycle, wherein the cycle contains the following successive positions: a first position, in which one of said chambers of said propellant charge holder is disposed in a loading position, in which said second insertion device can be activated in order to insert the propellant charge into said chamber of said propellant charge holder;a second position, in which said chamber of said propellant charge holder is disposed in the firing position; anda third position, in which said chamber of said propellant charge holder is disposed in the unloading position, in which said second ejection device can be activated in order to eject the propellant charge, which may still be located in said chamber of said propellant charge holder, out of said chamber of said propellant charge holder. 11. A weapon system for caseless ammunition, the weapon system, comprising: a weapon barrel having a bore axis;a projectile holder having individual chambers;a propellant charge holder having individual chambers, said projectile holder and said propellant charge holder can be moved relative to said weapon barrel for ensuring a firing position in which one of said chambers of said projectile holder and one of said chambers of said propellant charge holder are disposed coaxially with respect to said bore axis of said weapon barrel;a first ejection device for said projection holder;a second ejection device for said propellant charge holder;insertion devices including a first insertion device and a second insertion device;said projectile holder can be moved in at least one successive cycle, wherein said cycle contains the following successive positions: a first position, in which one of said chambers of said projectile holder is disposed in a loading position, in which said first insertion device can be activated in order to insert a projectile into said chamber of said projectile holder;a second position, in which said chamber of said projectile holder is disposed in the firing position; anda third position, in which said chamber of said projectile holder is disposed in an unloading position, in which said first ejection device can be activated in order to eject the projectile, which may still be located in said chamber of said projectile holder, out of said chamber said projectile holder;wherein said propellant charge holder can be moved in at least one successive cycle, wherein said cycle contains the following successive positions: a first position, in which one of said chambers of said propellant charge holder is disposed in a loading position, in which said second insertion device can be activated in order to insert a propellant charge into said chamber of said propellant charge holder;a second position, in which said chamber of said propellant charge holder is disposed in the firing position; anda third position, in which said chamber of said propellant charge holder is disposed in an unloading position, in which said second ejection device can be activated in order to eject the propellant charge, which may still be located in said chamber of said propellant charge holder, out of said chamber of said propellant charge holder. 12. The weapon system according to claim 11, wherein: said projectile holder is mounted such that said projectile holder can rotate about an associated projectile holder axis; andsaid propellant charge holder is mounted such that said propellant charge holder can rotate about an associated propellant charge holder axis, said associated projectile holder axis and said associated propellant charge holder axis are each disposed offset parallel to said bore axis of said weapon barrel. 13. The weapon system according to claim 12, wherein said first and second ejection devices can be operated with a time offset with respect to said insertion devices, such that said first and second ejection devices always enter said chambers only with a time offset with respect to an insertion of said insertion devices after rotation of at least one of said projectile holder or said propellant charge holder through 360°/n from the loading position, that is to say an n-th part of 360°, into the unloading position, where n is a number of said chambers in said projectile holder and a number of said chambers in said propellant charge holder. 14. The weapon system according to claim 12, wherein said first and second ejection devices and said insertion devices are coupled to one another such that a movement of said insertion devices toward said projectile holder and said propellant charge holder is linked to a movement, of a same magnitude, of said first and second ejection devices away from said projectile holder and said propellant charge holder, and in that a movement of said insertion devices away from said projectile holder and said propellant charge holder is linked to a movement, of a same magnitude, of said first and second ejection devices toward said projectile holder and said propellant charge holder. 15. The weapon system according to claim 11, further comprising externally driven synchronization means for operating said first and second ejection devices in dependence on at least one of a rotational movement of said projectile holder, a rotational movement of said propellant charge holder, an angular position of said projectile holder, or an angular position of said propellant charge holder.
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