RU2072099C1 - Installation for unloading of ammunition - Google Patents

Abstract

FIELD: unloading of ammunition fitted with explosives - artillery shells, mines, aerial bombs, etc. SUBSTANCE: the installation uses a rotor in the form of a lattice structure with radial sections for accommodation of clusters with ammunition and explosive traps, placed in a housing with a cover. Partitions are secured inside the trap that separate it into compartments according to the number of ammunition in a cluster. The housing accommodates an appliance in the form of a steam line for heating the ammunition in a cluster. The housing accommodates an appliance in the form of a steam line for heating the ammunition. The heating appliance may be made in the form of a housing separated into three radial sections communicating with one another. Two sections are of the same design and have external reservoirs, communicating with one another, and internal reservoirs filled with water that do not communicate with one another. The external reservoir accommodates the heating elements. The internal reservoir is intended for installation of the cluster with ammunition in it. EFFECT: improved design. 6 cl, 10 dwg

Description

 The invention relates to the field of stockpiling of ammunition equipped with explosives artillery shells, mines, air bombs, etc.

 A known installation for the demilitarization of ammunition containing devices for fixing ammunition, a water supply device for eroding explosive charge and a device for receiving explosive with water (see UK patent N 139207, 1920). The disadvantage of this device is that after washing out the explosive from the chamber, it is necessary to separate it from the liquid and clean the used equipment, which requires the creation of additional equipment, increases the complexity of the process and is not environmentally friendly.

 Closest to the claimed invention is a device for discharging ammunition, including a device for fixing each ammunition, a heating device and a device for receiving explosives (see French patent N 514052, 1921, gr. XI, Cl. 4). This installation allows you to unload ammunition equipped only with injection explosives due to their melting and is unsuitable for equipping ammunition equipped with explosives that cannot be melted due to decomposition of ingredients at melting temperatures.

 Therefore, the problem to which the invention is directed, is to create an installation for the demilitarization of ammunition equipped with explosives that cannot be melted. This is ensured by the fact that in the installation for the demilitarization of ammunition, which includes a device for fixing each ammunition, a device for heating ammunition and a device for receiving explosives, a rotor with radial sections is inserted to accommodate a device for fixing ammunition in each of them, and a device for receiving explosives is made in the form of traps installed in the radial sections of the rotor behind the ammunition fixation devices in the direction from its axis of rotation, while the rotor is placed in a casing with a cover; the ammunition fixation device is made in the form of a cartridge containing the front and rear support plates with coaxial holes for one or more ammunition fastened to the upper and lower plates, a removable back cover with elastic elements for preloading the ammunition; the trap contains fixed bases, side walls and a top plate, and partitions are placed in the trap cavity to form compartments according to the number of ammunition and a front retractable wall; the ammunition heating device is made in the form of a steam line with perforated concentric pipes located on the sides of the inner lower surface of the casing or in the form of a housing divided into three radial sections communicating with each other, while the two sections are identical and contain external and non-communicating with each other internal reservoirs filled with water, with heating elements located in the outer reservoir; the inner reservoir is designed to be placed in it sset ammunition, and the third section is intended for loading and unloading cassettes with ammunition cartridges and a mechanism for moving ammunition in sections.

 The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section of an installation for ordnance demolition with a heating device in the form of a steam pipe with two perforated concentric pipes; in FIG. 2 shows a top view of an installation for stockpiling ammunition; in FIG. 3 shows a longitudinal section of an ammunition cartridge; in FIG. 4 shows a view of an ammunition cartridge in arrow A; in FIG. 5 shows a cross-section of an ammunition cartridge; in FIG. 6 shows a longitudinal section through an explosive trap; in FIG. 7 shows a catcher in the direction of arrow B; in FIG. 8 is a longitudinal sectional view of an ammunition heating device; in FIG. 9 is a plan view of the munition heating device of FIG. eight; in FIG. 10 shows a section BB of a section of a heater device.

 Installation for demarcation of ammunition contains a casing 1, closed by a cover 2. In the casing 1 is placed a rotor 3, which is a lattice structure with radial sections 4, welded from beams of the angular profile. The rotor 3 is mounted on the shaft 5, driven in rotation through a single-stage cylindrical gear 6 from the electric motor 7. Braking is carried out by an electromechanical brake 8 through a brake drum fixed to the shaft of the electric motor 7. The radial sections 4 of the rotor 3 are intended for installation in them cartridges 9 with ammunition and traps 10 for explosives. The cartridge 9 for fixing ammunition includes a front 11 and rear 12 support plates. In each plate 11 or 12, coaxial holes 13 and 14 are made, respectively, for the emphasis of ammunition. The number of coaxial holes is determined by the desired amount of ammunition placed in the cartridge 9. Support plates 11 and 12 are fastened to the upper 15 and lower 16 plates. The side surfaces in the cartridge 9 are open, which provides access to hot water or steam for thermal effects on the ammunition. The cartridge 9 is closed by a removable back cover 17 with latches 18 and elastic elements 19 for preloading ammunition. On the upper plate 15 of the cassette 9 there is a thermally insulated handle 20 for carrying. The explosive trap 10 comprises a base 21, side walls 22 and an upper plate 23 bonded to each other. The chamfered surface 24 of the side walls 22 serves to abut against the counter surface of the rotor 3, preventing the trap 10 from shifting during rotation. In the cavity of the trap 10, partitions 25 are fixed, dividing it into compartments according to the number of ammunition in the cartridge 9. In addition, the trap 10 is equipped with a front retractable wall 26 located at a distance from the partitions 25 and designed to remove sticking remnants of explosive. On the upper plate 23 of the trap 10 there is a thermally insulated handle 27 for carrying it. The ammunition heating device can be made in the form of a steam line containing two perforated concentric pipes 28, which serve to supply steam to the inner volume of the casing 1, when ammunition cartridges are installed in the radial sections 4 of the rotor 3. Through the walls of the munition, the explosive is thermally exposed to the charge of the munition until it is softened or the adhesive adhesion of the explosive charge adheres to the walls of the munition chamber. Condensed moisture in this case through the hole 29 in the lower part of the casing 1 enters the tank 30.

 In another embodiment, the heating device comprises a housing 31, divided into three radial sections 32, 33, 34, communicating with each other. Two sections 32 and 33 are made identical and contain outer 35 interconnected and non-interconnected inner 36 reservoirs filled with water. In the outer tank 35, heating elements 37 are located. The inner tank 36 is designed to install cartridges 9 with ammunition. Each tank 35 and 36 is equipped with its own drain pipe 38. The third section 34 of the housing 31 is designed to load and unload cartridges 9 with ammunition. Cartridges 9 with ammunition are loaded into section 34 and, using the movement mechanism, are sequentially carried out in sections 32 and 33, returning to unloading in section 34. The mechanism for moving cartridges 9 is a suspension 39 for suspending cartridges 9 and a moving unit. The suspension movement unit 39 is a vertical support 40, on which spring-loaded levers 41 are mounted independently rotatable from each other. The mechanism for moving the cartridges 9 immerses the cartridges 9 with ammunition in the internal tank 36 filled with hot water, for example, the section 32 for heat exposure explosive of charges of ammunition until it is softened or until the adhesion of the charge to the walls of the chamber is weakened. Then the cartridges 9 with ammunition are lifted from the inner tank 36 and moved to the next section 33 for soaking above the water to drain it, after which the cartridges 9 with ammunition are discharged to section 34. At the same time, two sets of cartridges 9 can be in this heating device and the number of cassettes 9 in the set is determined by the number of positions 4 in the rotor 3.

 Before installing the ammunition in the cartridge 9, the chamber of each ammunition is opened, for example, by removing the fuse (head or bottom), or by cutting off part of the ammunition body, or by unscrewing the screw bottom. The ammunition is installed in the cartridge 9 with the emphasis of the exposed part in the front support plate 11. After that, the ammunition in the cartridge 9 is heated. Since the thermal effect on the substance of the charge of the ammunition is carried out in the heating device only until the explosive is softened or until the adhesion of the charge of the explosive to the walls of the chamber of the ammunition decreases, there are no undesirable changes in the charge. If heating is supposed to be carried out with steam directly in the casing, then before the catcher 10 is heated, they are installed in the radial sections 4 with beveled surfaces 24 of the side walls 22 in the counter surfaces of the rotor 3 and then cartridges 9 with ammunition are installed with the rear hinged cover 17 towards the shaft 5, combining the open rear ends compartments formed by partitions 25 of catchers 10 with open chambers of ammunition. In the event that the cartridge 9 enters the rotor 3 with heated ammunition, the installation of traps 10 is also carried out as described above. When the rotor 3 is rotated under the action of centrifugal forces, an explosive charge is extracted from the ammunition body. In this case, the destroyed explosive is collected in the trap 10, and in the cartridge 9 remain the shells of ammunition with traces of varnish and mastic.

Claims (6)

 1. Installation for demilitarization of ammunition, including devices for fixing each ammunition, a device for heating ammunition and a device for receiving explosives, characterized in that a rotor with radial sections is inserted into it to accommodate a device for fixing ammunition in each of them, and a device for receiving explosive made in the form of catchers installed in the radial sections of the rotor behind the ammunition fixation devices in the direction from its axis of rotation, while the rotor is placed in a casing with a cover.  2. Installation according to claim 1, characterized in that the device for fixing ammunition is made in the form of a cartridge containing the front and rear support plates with coaxial holes for one or more ammunition fastened to the upper and lower plates, the back removable cover.  3. Installation according to claim 2, characterized in that the rear removable lid of the cartridge is made with elastic elements for preloading ammunition.  4. Installation according to any one of paragraphs.1 to 3, characterized in that the trap contains a base, side walls and an upper plate fastened together, and baffles are placed in the trap cavity to form compartments according to the number of ammunition and a front retractable wall.  5. Installation according to any one of paragraphs.1 to 4, characterized in that the ammunition heating device is made in the form of a steam pipe with perforated concentric pipes located on the side of the inner lower surface of the casing.  6. Installation according to any one of paragraphs.2 to 4, characterized in that the ammunition heating device comprises a housing divided into three radial sections communicating with each other, the two sections being the same and containing interconnected external and non-communicating internal tanks, filled with water, and in the outer tank there are heating elements, the inner tank is designed to accommodate cartridges with ammunition, and the third section is designed to load and unload cartridges from ammunition ami and the mechanism for moving cartridges with ammunition in sections.

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