RU2046284C1 - Ammunition unloader - Google Patents

Abstract

FIELD: unloading of ammunition, such as artillery shells, aerial bombs, mines loaded with explosives. SUBSTANCE: on each position ammunition 1, for instance artillery shell, is fixed in the attachment unit by injection of air into air cylinder 2, due to which rod 3 presses ammunition 1 to support 4. Then, with the aid of the control system, vacuum pump and unloader cyclone used to discharge the explosive, and drive 13 of axial feed and rotation of cutting tool 5 are switched on. In the process of explosive charge cutting tightening of cutting tool 5 to the worked surface is also adjusted due to coil spring 20 in axial direction, and flat spring 21 in radial direction. Explosive particles formed in the process of cutting are removed from receiving section 6 by air cutting are removed from receiving section 6 by air supply through air intake 7, in which an air filter may be installed, and by drawoff of dust-air mixture through line 11 into the cyclone. Unloader operation is controlled by the control system. EFFECT: facilitated procedure. 3 cl, 8 dwg

Description

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

 A known installation for the demilitarization of ammunition containing a mount of ammunition, a means of influencing the explosive charge in the chamber of the munition and the device for the removal of explosives with a receiving section, forming a closed volume with a chamber of ammunition. In this case, the device for melting the explosive in the munition chamber is a pipe with several rows of holes through which steam is fed into the chamber of the munition to melt the explosive, which then enters the exhaust device.

 The known installation is applicable for ammunition equipped only with injection explosives, while for ammunition non-fusible explosives are also used, for equipping which this installation is not applicable.

 The problem to which the invention is directed, is to create an installation for the demilitarization of ammunition equipped with both fusible and non-fusible explosives.

 This is ensured by the fact that in the installation for demilitarizing ammunition containing the attachment unit of the ammunition, a means of influencing the explosive charge in the munition chamber and an explosive removal device with a receiving section forming a closed volume with the munition chamber as a means of influencing the explosive charge in the munition chamber was taken with a cutting tool, while the cutting tool and the attachment unit of the ammunition are made with the possibility of mutual axial movement and / or rotation, to the device from explosive water, a system for separating solid and gas phases and a vacuum pump are introduced, and the receiving section of the specified device is closed around the cutting tool, at least for part of its length, is made with an air intake and is in communication with a system for separating solid and gas phases in communication with the inlet vacuum pump, and the installation is equipped with a control system. Such an installation as a whole allows you to stockpile ammunition, taking into account safety requirements.

 In addition, the installation may additionally contain means for adjustable compression of the cutting tool to the surface to be treated, which improves the quality of the charge and the safety of cutting the explosive charge.

 The safety of cutting the explosive charge is also enhanced by the fact that the installation may additionally contain means for supplying air or inert gas to the munition chamber.

 In FIG. 1 and 2 depict an installation for the demilitarization of ammunition with a rotating and axially-cutting cutting tool and stationary with ammunition with a cut A-A; in FIG. 3 installation for the demilitarization of ammunition with a rotating cutting tool and axially moving ammunition; in FIG. 4 installation for the ordnance of ammunition with a stationary cutting tool and rotating and axially moving ammunition; in FIG. 5 shows a section BB in FIG. 4; in FIG. 6 shows means for supplying air or inert gas to the munition chamber in the form of a channel with side outlet openings made in the holder of the cutting tool; in FIG. 7 means for supplying air or inert gas to the munition chamber in the form of a tube located therein; in FIG. 8 means for supplying air or inert gas to the munition chamber in the form of a nozzle.

 The installation comprises an attachment unit for ammunition 1, consisting of a pneumatic cylinder 2 with a stem 3 and a stop 4, a cutting tool 5, an explosive removal device, consisting of a receiving section 6 and with an air intake 7, which is closed around the cutting tool 5 and forms a closed volume with an ammunition chamber , systems 8 separation of solid and gas phases, for example, in the form of a cyclone, a vacuum pump 9, the inlet of which is connected by an air duct 10 with a system for separating solid and gas phases, and a line 11 communicating the receiving section 6 with the system is divided I am solid and gaseous phases, and the system controller 12.

 To enable mutual axial movement and / or rotation of the cutting tool 5 and the attachment unit of the munition 1, you can use, for example, the drive 13 of the axial feed and rotation kinematically connected with the cutting tool 5, or the drive 14 of the rotation of the cutting tool 5 and the hydraulic cylinder 15 of the axial munition (Fig. 3), or an axial feed and rotation drive 16 of the ammunition kinematically connected with an abutment 4 (Fig. 4) through a movable housing 18 mounted on the shaft 17 and a carriage 19 mounted in the housing 18 for rotation.

 The tool is adjustable clamping of the cutting tool 5 to the treated surface of the munition 1 is used to increase the safety of cutting and improve the quality of demarcation. This can be, for example, a coil spring 20, compressing the cutting tool 5 in the axial direction, and a flat spring 21, compressing the cutting tool 5 in the radial direction (Fig. 2), or an elastic element 22, compressing the cutting tool 5 in the radial direction, and a coil spring 23, compressing the munition in the axial direction (Fig. 3), or a coil spring 24, which provides adjustment of the axial cutting force and an elastic element 25, regulating the rotation of the carriage 19 (Fig. 5).

 The safety of cutting is also improved by introducing air or inert gas into the munition chamber, which can be made in the form of a channel 26 with lateral outlet openings 27 in the holder of the cutting tool 5 (Fig. 6), a tube 28 located in the munition chamber (Fig. . 7), or nozzles 29 (Fig. 8).

 Shown in FIG. 1 installation works as follows.

 At each position, ammunition 1, for example, an artillery shell, is fixed in the attachment site by forcing air into the pneumatic cylinder 2, due to which the rod 3 presses the ammunition to the support 4. Then, using the control system 12, the vacuum pump 9, the cyclone 8 of the explosive exhaust device are turned on substances and the drive 13 of the axial feed and rotation of the cutting tool 5. In the process of cutting the explosive charge, the compression of the cutting tool 5 to the work surface is also regulated due to the twisted spring 20 in the axial direction and flat springs 21 in the radial direction. The removal of explosive particles generated during the cutting process from the receiving section 6 is carried out by supplying air through an air intake 7, in which a filter for air purification can be installed, and by suctioning the dust-air mixture through line 11 into cyclone 8. Monitoring of the installation is carried out by control system 12 .

 The installation shown in FIG. 2, works similarly, except that in this case, the axial supply of ammunition 1 is carried out by the hydraulic cylinder 15.

 The installation shown in FIG. 3 also works similarly, but with the difference that from the drive 16 the axial movement of the housing 18 and the angular rotation of the carriage 19, in which the emphasis 4 of the munition 1 is mounted, are carried out through the axial movement and rotation of the munition relative to the stationary cutting tool 5.

Claims (3)

 1. INSTALLATION FOR DISTRIBUTION OF AMMUNITION, comprising an ammunition attachment assembly, a means for influencing an explosive charge in an ammunition chamber, and an explosive abstraction device with a receiving section forming an enclosed volume with an ammunition chamber, characterized in that as a means of influencing the explosive charge a cutting tool was taken in the munition chamber, while the cutting tool and the ammunition attachment unit are made with the possibility of mutual axial movement and / or rotation, a system is introduced into the device for removing the explosive the separation of solid and gas phases and the vacuum pump, the receiving section of the specified device is closed around the cutting tool at least in part of its length, is made with an air intake and is in communication with the separation of solid and gas phases in communication with the vacuum pump inlet, and installation equipped with a control system.  2. Installation according to claim 1, characterized in that it further comprises means for adjustable pressing of the cutting tool to the surface to be treated.  3. Installation according to claim 1 or 2, characterized in that it further comprises means for supplying air or inert gas to the munition chamber.

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