The present invention relates to a loading arrangement for a destruction system configured for destruction of ammunition, small arms and thereto related material, and provides the advantage of improved safety surrounding loading of munitions into a chamber of the destruction system. The loading arra
The present invention relates to a loading arrangement for a destruction system configured for destruction of ammunition, small arms and thereto related material, and provides the advantage of improved safety surrounding loading of munitions into a chamber of the destruction system. The loading arrangement comprises a transportation duct at an inclined angle. A cradle configured to receive the munitions is pivotably attached to the transportation duct and can be pivoted upwards into the transportation duct through a cradle opening. A closure plate mechanically linked to the cradle and adapted to close the cradle opening is automatically moved as the cradle pivots upwards so as to open the cradle opening. The transportation duct can be releasably connected to an input duct of the chamber of the destruction system.
대표청구항▼
1. A loading arrangement for a destruction system, the destruction system comprising at least one of a kiln or a detonation chamber configured for destruction of munitions, wherein the loading arrangement comprises: an elongated transportation duct at one end comprising an open engagement portion ad
1. A loading arrangement for a destruction system, the destruction system comprising at least one of a kiln or a detonation chamber configured for destruction of munitions, wherein the loading arrangement comprises: an elongated transportation duct at one end comprising an open engagement portion adapted to provide a connection to an input duct of the at least one of the kiln or the detonation chamber,a cradle being hinged to the transportation duct at a cradle opening of the elongated transportation duct, the cradle configured to allow for a transition from a first to a second position, anda fragment valve mechanically connected to the cradle by linking elements, whereinthe elongated transportation duct is arranged at a positive angle in relation to a horizontal plane,the cradle in the first position is configured to receive the munitions, the linking elements closing the fragment valve, thereby closing the cradle opening of the elongated transportation duct, the cradle in the first position positioned outside of the elongated transportation duct, andthe cradle in the second position is configured to be at least partly inserted into the elongated transportation duct through the cradle opening, the fragment valve pushed into the elongated transportation duct by the linking elements, allowing the munition to slide into the at least one of the kiln or the detonation chamber. 2. The loading arrangement according to claim 1, wherein the hinge of the cradle is arranged in the vicinity of the open engagement portion of the elongated transportation duct, thereby allowing the cradle to be tilted into the elongated transportation duct. 3. The loading arrangement according to claim 1, wherein the cradle is essentially horizontally arranged when in the first position. 4. The loading arrangement according to claim 1, wherein the open engagement portion of the elongated transportation duct is configured to be releasably connected to the input duct of the at least one of the kiln or the detonation chamber. 5. The loading arrangement according to claim 4, further comprising locking means for securely connecting the loading arrangement to the at least one of the kiln or the detonation chamber. 6. The loading arrangement according to claim 5, wherein the locking means comprises a releasable clamp, the clamp configured to engage with a flange provided at the input duct of the at least one of the kiln or the detonation chamber. 7. The loading arrangement according to claim 1, further comprising actuators arranged to transition the cradle from the first to the second position. 8. A destruction system, comprising: at least one of a kiln or a detonation chamber configured for destruction of munitions, said at least one of a kiln or a detonation chamber comprising an input duct, anda loading arrangement according to claim 1, the loading arrangement connected to the input duct of the at least one of a kiln or a detonation chamber. 9. The destruction system according to claim 8, wherein the kiln comprises an electrical heating element. 10. The destruction system according to claim 8, wherein the kiln is configured to be rotatable about a horizontal axis between a first loading and operating position and in a second emptying position, and the kiln when arranged in the first loading and operating position is configured to releasably connect to the loading arrangement. 11. The destruction system according to claim 8, wherein the kiln is rotated about the horizontal axis from the first position to the second position in a direction such that the input duct travels past a vertical axis of the kiln, a rotating angle being at least 120°. 12. The destruction system according to claim 10, wherein the input duct is arranged at an upper portion of the kiln and the electrical heating element is arranged at a lower portion of the kiln when the kiln is arranged in the first loading and operating position. 13. The destruction system according to claim 8, wherein the at least one of a kiln or a detonation chamber is arranged in a static upright position, the at least one of a kiln or a detonation chamber having the input duct arranged at its upper portion and further comprising an output duct arranged at its lower portion. 14. The destruction system according to claim 8, further comprising at least one of: a camera for monitoring an amount of waste material in the kiln, the waste material relating to previously destructed munitions, anda control unit configured to controlling the transition of the cradle from the first to the second position.
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이 특허에 인용된 특허 (19)
Hofbauer, Edwin; Lechner, Peter; Exler, Heribert, Apparatus for charging a rotary kiln with pneumatic tires.
Quimby, Jay M.; Johnson, Richard A.; Edwards, Alan T.; Donovan, John L.; Willmert, McRea B., System and method for treatment of hazardous materials, e.g., unexploded chemical warfare ordinance.
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