RU2187067C2 - Plant for extraction of grain charges from ammunition - Google Patents

Abstract

FIELD: unloading of ammunition loaded with explosives, in particular, ammunition with grain charges. SUBSTANCE: plant has a load-carrying structure, heating device in the form of a steam line having perforated concentric tubes, holder for fixing of the ammunition consisting of a cover with a member for fixing and compression of the ammunition, walls and a bearing plate, and a catcher. The walls are made in the form of a cylinder hermetically connected to the cover and the bearing plate, the concentric tubes are interconnected forming a "squirrel cage" provided with nozzles directed towards the ammunition body, the catcher is made in the form of a hollow sleeve with a spring-loaded rod with a disk at the end passing through a hole in its bottom. The holder and the catcher are coupled to the load-carrying structure for turning relative to the horizontal. EFFECT: enhanced safety. 2 cl, 3 dwg

Description

 The invention relates to the field of stockpiling of ammunition equipped with explosives, in particular to munitions with draft charges.

 A known installation for the demilitarization of ammunition, including a device for fixing ammunition, a heating device and a device for receiving explosives [1].

 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.

 The closest analogue of the claimed invention is a unit for discharging ammunition [2], including a supporting structure, a heating chamber, a heating device in the form of a steam pipe having perforated tubes, an input channel connected to the cavity of the perforated tubes, and an output channel connected to the cavity of the heating chamber, cartridge for fixing ammunition, consisting of a cover with an element for fixing and preloading the ammunition, placed along its axis, walls and a support plate with a central hole for the exit of the explosive eschestva of munition being placed thereto open end, and on the other side of the plate it is placed coaxially catcher.

 The installation uses several cartridges, each of which contains several ammunition. The installation contains a rotor with radial sections for placement in each of them cassettes for fixing ammunition. The rotor is mounted on a shaft driven into rotation through a single-stage cylindrical gearbox from an electric motor. Braking is carried out by an electromechanical brake.

 Each ammunition is installed in the cartridge and heated until the explosive softens or the adhesion of the explosive charge adheres to the walls of the ammunition chamber. When the rotor rotates 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, and in the cartridge remain the shells of ammunition with traces of varnish and mastic.

 This installation allows you to unload munitions equipped with explosives that are not subject to melting. However, the extraction of a checker charge from the munition shell under the action of centrifugal forces requires the use of a powerful engine and a braking device to "softly" catch (braking) the explosive charge in the trap in order to prevent its collisions, in which unauthorized chips and partial destruction of explosive charges are possible.

 The installation uses an electric motor and an electromechanical brake, and the presence of electricity in the technological process of munition ordnance increases the danger of work.

 The problem solved by this invention is to increase the safety of the installation of munitions ordnance.

 The essence of the invention lies in the fact that in the installation for extracting checkered charges from ammunition, including the supporting structure, a heating chamber, a heating device in the form of a steam pipe having perforated tubes, an inlet channel connected to the cavity of the perforated tubes, and an output channel connected to the chamber cavity heating cartridge for fixing ammunition, consisting of a cover with an element for fixing and preloading ammunition, placed along its axis, walls and a support plate with a central hole for the exit of the explosive additional ammunition placed to it with an open end, and on the other side of the plate a trap is arranged coaxially with it, according to the invention, the walls are made in the form of a cylinder sealed to the cover and the support plate, perforated tubes are interconnected to form a “squirrel wheel” equipped with nozzles directed towards the ammunition body and installed in the cavity of the cartridge on the support plate at the location of the charge, the input and output channels of the heating device are made in the support plate, the cavity of the heating chamber Eva is formed by the inner surface of the cartridge and the ammunition body, the catcher is made in the form of a hollow glass with a spring-loaded rod passing through the hole in its bottom with a disk at the end facing the placed ammunition, while the cartridge and catcher are connected to the supporting structure with the possibility of rotation relative to the horizontal.

 For better heating of the ammunition shell in the area of the location of the checker charge, more economical use of the coolant and to accelerate the process of melting the binder between the charge and the wall of the ammunition chamber, the height of the "squirrel wheel" is greater than the height of the checker charge, but less than the height of the munition shell.

 In our available sources of information, no technical solutions have been found that together contain features similar to the distinguishing features of the claimed invention. Therefore, the invention meets the criterion of "inventive step".

The problem is solved due to the fact that:
- the heating device comprises a tubular "squirrel wheel", equipped with nozzles directed to the shell of the munition, and installed in the cavity of the cartridge on the support plate at the location of the charge, and contains input and output channels made in the support plate;
- the walls of the cartridge are made in the form of a cylinder, tightly connected to the lid and the base plate;
- the input channel is connected to the cavity of the tubes of the "squirrel wheel", and the output channel to the cavity of the heating chamber formed by the inner surface of the cartridge and the shell of the ammunition;
- the catcher is made in the form of an open end facing the hole of the support plate of the hollow glass with a spring-loaded rod passing through the hole in its bottom with the disk at the end facing the munition;
- the base plate of the cartridge and the catcher are mounted on a supporting structure with the possibility of rotation relative to the horizontal.

 The presence of these new significant features, together with the known and common with the prototype, allowed us to create a new technical solution - an installation for extracting checkered charges from ammunition of a purely mechanical type without the presence of units powered by electricity and without destroying explosive charges during discharging, which led to an increase in the safety of work on this setting.

 Figure 1 shows the node extract the checker charge from the ammunition and the trap.

 Figure 2 shows the "squirrel wheel" with nozzles.

 In FIG. 3 shows a device for extracting drafts charges from ammunition.

 The device for extracting drafts charges from ammunition contains a unit for extracting drafts charges from ammunition, which is a cartridge 1 for fixing ammunition 2 with a drafts charge 3, consisting of a cover 4 with an element for fixing and preloading 5, a cylinder 6 and a supporting plate 7. The fixing element and preload 5 is placed along the axis of the munition, providing a tight preload of ammunition to the base plate through the gasket 8, and is made in the form of a clamping screw device.

The support plate 7 has a central hole 9, the diameter d _{1 of} which is larger than the diameter d _{2 of the} checker charge 3. On one side of the support plate, ammunition 2 is located with an open end, and on the other side of the support plate 7, a checker trap is coaxial with the ammunition. The catcher is made in the form of a hollow glass 10, facing the open end to the plate 7. In the bottom 11 of the glass 10, a hole 12 is made in which the rod 13 with the disk 14 at the end facing the ammunition is placed. Between the disk 14 and the bottom 11 of the glass 10 is a spring 15, covering the rod 13.

 The cylinder 6 is connected to the cover 4 by means of a threaded connection 16, and with the support plate 7 - by means of bolts 17 through the gasket 18.

 The cylinder 6 is equipped with two parallel guides 19, mounted on its inner surface and located along the shell of the munition.

 On the support plate 7 in the cavity of the cartridge 1 at the location of the checker charge, a tubular "squirrel wheel" 20 is installed (Fig. 1).

 "Squirrel wheel" is formed by two perforated tubes interconnected by four perforated tubes, and is a steam line (Fig. 2). Nozzle 21 "squirrel wheel" is directed to the housing 22 of the ammunition 2.

 In the support plate 7, input 23 and output 24 channels for the coolant are made. The input channel 23 is connected to the cavity 25 of the tubes of the "squirrel wheel" 20, and the output channel 24 is connected to the cavity 26 of the heating chamber formed by the inner surface of the cartridge and the casing 22 of the ammunition 2. The height of the "squirrel wheel" 20 is greater than the height of the checker charge 3, but less than the height shell 22 ammunition 2.

 The cassette is located in a detachable double-walled heat-shielding cap 27 mounted on a support plate through a gasket 28 using bolts 29. The heat-shielding cap 27 repeats the shape of the cassette 1 and consists of a base 30 and a cover 31 interconnected by folding screw clamps 32, which ensure their tight connection (figure 1).

 The heat-shielding cap 27 of the extraction unit with the cartridge is attached to the supporting structure 33 using brackets 34 and pivots 35. The extraction unit is rotated by a lever-screw mechanism 36 located on the supporting structure 33 (Fig. 3).

 The trap of the checker charge using the rotary pins 37 and the latch 38 is mounted on the eye 39, mounted on a movable rotary rack 40, located on the movable guide 41 connected to the supporting structure 33. The extraction unit with a cartridge and the catcher are connected with the supporting structure for rotation relative to the horizontal . The supporting structure is mounted on swivel wheels 42. The position of the catcher relative to the axis 43 of the munition body is fixed using clamps 44 and 45.

 The possibility of coaxial installation of the cartridge 1 of the extraction unit and the catcher is provided by combining the disk 14 with the central hole 9 and combining the marks 46, 47, applied on the heat-shielding cap 27 and the catcher.

 Channels 23 and 24 are connected to a steam supply system (not shown in FIG.).

 Installation works as follows.

The base plate 7 with the cassette 1 fixed to it is deployed using the mechanism 36 to a horizontal position, the covers 4 and 31 are disconnected, the cartridge 22 of the munition 2 with a check charge 3 is installed in the cassette 1 on the guides 19 with an open end to the base plate 7. Then, the cover 4 is screwed and the ammunition case 2 with the help of the locking and preloading element 5 is tightly pressed with its end face through the gasket 8 to the supporting plate 7. After that, the cover 31 is put on and secured with folding screw clamps 32. Then, the extraction unit expands I was about 70 ^o to the horizontal trap is set coaxially to it. Alignment is ensured by combining figures 46, 47.

Through channel 23, steam is supplied into the tubes of the “squirrel wheel” 20, which through nozzles 21 enters the heating chamber 26 and heats the casing 22 of the munition 2 and is discharged through the channel 24 to the steam supply system (not shown in FIG.). In this case, the glue is melted connecting the checker charge 3 with the case 22 of the munition 2. The checker charge 3 is pressed by one side against the wall of the munition chamber, since the munition is inclined approximately 70 ^° to the horizontal, and a gap is formed on the other hand, into which air, pushing the checker charge 3 out of the ammunition chamber 2, aspirates. The checker charge 3, sinking onto the disk 14 of the rod 13, compresses the spring 15 and enters the cup 10. After the checker charge is completely inside the trap, the Givana retainer 38, catcher rotates open end of cup 10 and down drafts charge is extracted from the nozzle 10.

 After that, the steam supply is turned off and the process is repeated.

 Thus, using the non-contact method of melting the glue connecting the checker charge with the chamber of the munition housing, eliminating electricity from the technological process of extracting the checker charge from the ammunition, they achieved high safety of the installation, as well as the simplicity of the design, setup and operation of the installation.

 The device for extracting drafts charges from ammunition is environmentally friendly to operate, since there are no coolants contaminated with explosives, the possibility of decomposition of explosives during melting of adhesive glue is excluded, and the drafts charge is removed in an undamaged state.

 The simplicity of the design, setup and operation of the installation, as well as the lack of energy-intensive electromechanical equipment makes the installation cheap and economical.

Sources of information
1. French patent 514052, gr. XI, Cl. 4, 1921

 2. RF patent 2072099, cl. F 42 V 33/06, C 06 V 21/00, 1993

Claims (2)

 1. Installation for removing checkers charges from ammunition, comprising a supporting structure, a heating chamber, a heating device in the form of a steam line having perforated tubes, an input channel connected to the cavity of the perforated tubes, and an output channel connected to the cavity of the heating chamber, a cartridge for fixing ammunition , consisting of a cover with an element for fixing and preloading the ammunition placed along its axis, walls and a support plate with a central hole for the exit of the explosive from the ammunition placed on it about a trap end, and on the other side of the plate a trap is placed coaxially with it, characterized in that the walls are made in the form of a cylinder sealed to the lid and the support plate, the perforated tubes are interconnected, forming a "squirrel wheel", equipped with nozzles directed to the body ammunition, and installed in the cavity of the cartridge on the support plate at the location of the charge, the input and output channels of the heating device are made in the support plate, the cavity of the heating chamber is formed by the inner surface of the sets and the housing of the placed ammunition, the catcher is made in the form of a hollow glass with a spring-loaded rod passing through the hole in its bottom with a disk at the end facing the placed ammunition, while the cartridge and catcher are connected to the supporting structure with the possibility of rotation relative to the horizontal.  2. Installation according to claim 1, characterized in that the height of the "squirrel wheel" is greater than the height of the checker charge, but less than the height of the shell of the ammunition.

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