An offshore rocket transport and launch method includes S1: assembling a rocket horizontally; S2: loading the assembled rocket as a whole into a transport cage; S3: transporting, by a transport vehicle, the transport cage loaded with the rocket to a wharf by land horizontal transport; S4: transferring the transport cage loaded with the rocket to a transport ship, and transporting the transport cage loaded with the rocket to an offshore rocket launch pad by sea transport; S5: hoisting, by a hoisting device, the transport cage loaded with the rocket to the rocket launch pad; S6: opening the transport cage, transferring the rocket to a launching position, and hoisting the transport cage away from the rocket launch pad; and S7: launching the rocket. The method effectively facilitates the offshore rocket transport and launch process, and prevents the rocket from being affected by the external environment during the launch process.

An offshore rocket transport and launch method includes S1: assembling a rocket horizontally; S2: loading the assembled rocket as a whole into a transport cage; S3: transporting, by a transport vehicle, the transport cage loaded with the rocket to a wharf by land horizontal transport; S4: transferring the transport cage loaded with the rocket to a transport ship, and transporting the transport cage loaded with the rocket to an offshore rocket launch pad by sea transport; S5: hoisting, by a hoisting device, the transport cage loaded with the rocket to the rocket launch pad; S6: opening the transport cage, transferring the rocket to a launching position, and hoisting the transport cage away from the rocket launch pad; and S7: launching the rocket. The method effectively facilitates the offshore rocket transport and launch process, and prevents the rocket from being affected by the external environment during the launch process.

Holders usable to retain a clip, magazine, or other container for ammunition include one or more sidewalls extending from a base surface. The base and sidewalls define a side opening and a top opening that permit passage of a magazine or other container for ammunition. An insertable member extending from the base surface may be configured for insertion into the interior of the container for ammunition to limit movement of the container relative to the holder. The insertable member may be compressible under application of force to enable passage of the insertable member through an opening in the exterior of the container for ammunition, and expandable to a width that contacts the interior of the container for ammunition to limit movement thereof.

Holders usable to retain a clip, magazine, or other container for ammunition include one or more sidewalls extending from a base surface. The base and sidewalls define a side opening and a top opening that permit passage of a magazine or other container for ammunition. An insertable member extending from the base surface may be configured for insertion into the interior of the container for ammunition to limit movement of the container relative to the holder. The insertable member may be compressible under application of force to enable passage of the insertable member through an opening in the exterior of the container for ammunition, and expandable to a width that contacts the interior of the container for ammunition to limit movement thereof.

Locking systems for ammunition cans, including locking systems configured to removably attach to the ammunition can front side. In some examples, the locking system includes a latch frame, a front plate, and a cover panel. In some further examples, the front plate is parallelly affixed to the latch frame. In other examples, the latch frame is removably fitted over a plate. Finally, in even further examples, the locking system may be secured with a device such as a padlock or a combination lock.

Locking systems for ammunition cans, including locking systems configured to removably attach to the ammunition can front side. In some examples, the locking system includes a latch frame, a front plate, and a cover panel. In some further examples, the front plate is parallelly affixed to the latch frame. In other examples, the latch frame is removably fitted over a plate. Finally, in even further examples, the locking system may be secured with a device such as a padlock or a combination lock.

An ammunition tray is provided for containing a plurality of bullet cartridges within an ammunition box container having a stowage volume. The tray includes a substantially rectangular template having a horizontal surface bounded by first and second opposing longitudinal edges and opposing lateral edges joined at four corners. Each longitudinal edge includes a first tab bent substantially perpendicular to the surface in a vertical direction to form a rib. Each lateral edge includes a second tab bent substantially perpendicular to the surface to form a wall. The surface includes a first row of interior pockets that point towards the first longitudinal edge as a proximal orientation. The surface further includes a second row of interior pockets that point towards the second longitudinal edge as a distal orientation. The template has longitudinal and lateral edges bent to form the respective ribs and walls fits within the stowage volume as a vertical stack of plural templates. Each first interior pocket in the first row can cradle a cartridge on the surface along the proximal orientation, can fit the cartridge from an adjacent second row, and has lateral edges bent to curl in said vertical direction. Each second interior pocket in the second row can cradle the cartridge on the surface along the distal orientation, can fit the cartridge from an adjacent first row, and has lateral edges bent to curl opposite said vertical direction.

It is an object of the present invention a portable equipment for transporting at least one countermeasure device adapted to act on unmanned system. It provides a portable base station that allows the storage and transport of countermeasure devices to remote locations, ensuring their operability for long periods of time. The equipment (1) is comprised by an envelope (2), defining a loading volume containing at least a docking platform comprising a battery charging station, geolocation module and a communication module. The equipment may also comprise a handle (3) enabling it to be carried.

A packaging for hollow charges for use in blasting applications in boreholes retains fragments in the event of unintentional ignition of the hollow charges. The packaging withstands and dissipates the pressure generated. It is proposed that the hollow charges are embedded in a solid material which captures the fragments, the solid material has pressure relief openings through which the pressure generated during a detonation of the hollow charges can escape, the solid material is covered with shock-absorbing material on the top side and on the base side of the packaging, the hollow charges are packed in pairs such that there are always two hollow charges situated with their openings facing each other, the axes of symmetry of the hollow charges are arranged in a plane perpendicular to the top side and base side, and the solid material is inserted with the hollow charges and the shock-absorbing material into a cage.

A packaging for hollow charges for use in blasting applications in boreholes retains fragments in the event of unintentional ignition of the hollow charges. The packaging withstands and dissipates the pressure generated. It is proposed that the hollow charges are embedded in a solid material which captures the fragments, the solid material has pressure relief openings through which the pressure generated during a detonation of the hollow charges can escape, the solid material is covered with shock-absorbing material on the top side and on the base side of the packaging, the hollow charges are packed in pairs such that there are always two hollow charges situated with their openings facing each other, the axes of symmetry of the hollow charges are arranged in a plane perpendicular to the top side and base side, and the solid material is inserted with the hollow charges and the shock-absorbing material into a cage.