RU97505U1 - MATERIAL DESTRUCTION DEVICE - Google Patents

Abstract

 1. A device for the destruction of material containing a receiver, trigger mechanism, gas mechanism, a barrel consisting of a chamber and a threaded part, and a bolt frame installed with the possibility of contacting in the forward position with the beveled supporting surface of the receiver, characterized in that to the muzzle of the barrel coaxially with it and hermetically docked pipe, to the rear of which is attached a feeder with abrasive powder in the form of a container, the cavity of which communicates with the cavity of the pipe by holes in the pipe wall, and a nozzle insert with a gas channel in the form of a Laval nozzle with a critical section area smaller than the pipe cross-sectional area is mounted inside the front of the pipe, while idle cartridges are placed in the chamber when firing. ! 2. The device for the destruction of material according to claim 1, characterized in that the hermetically docked to the muzzle part of the pipe is made with an area of the passage section equal to the area of the passage section of the barrel. ! 3. The device for the destruction of material according to claim 1, characterized in that the hermetically docked to the muzzle of the barrel the nozzle is made with an area of the passage section smaller than the area of the passage section of the barrel. ! 4. The device for the destruction of material according to claim 1, characterized in that the hermetically docked to the muzzle of the barrel, the pipe is made with an area of the passage section greater than the area of the passage section of the barrel. ! 5. The device for the destruction of the material according to claim 1, characterized in that the message of the cavity of the container of the feeder with the cavity of the pipe is carried out by means of a tube inserted through

Description

The utility model relates to devices for the destruction of materials.

As a prototype, the description for Eurasian patent No. 0020 for the invention of "Automatic weapons" Kalashnikov assault rifle, IPC F41A 21/00, published on 12.30.1997, was adopted.

The aforementioned automatic weapon, “Kalashnikov assault rifle,” contains a receiver, trigger mechanism, including a trigger and self-timer whisper with automatic cocking, a locking mechanism, including a rotary shutter with a hammer, located in the bolt frame mounted on the guides of the receiver and equipped with a rear protrusion, interacting with the trigger, a gas vent mechanism with a gas pipe and a piston, the rod of which is installed in the opening of the slide frame, a folding stock with latches of a combat and marching polo zheniya and barrel with a block of sight, consisting of a chamber and a rifled part. In this case, the bolt frame is installed with the possibility of contacting in the forward position with the beveled supporting surface of the receiver, the rear protrusion of the bolt frame is made with a length excluding contact of the trigger with the hammer when the bolt frame rolls back, and the rod is installed in the bolt frame with the possibility of limited angular displacement, and the gas tube is provided with a protrusion in contact with the groove of the sight pad.

Signs of a known technical solution that coincides with the features of the claimed utility model are the presence of a receiver, a trigger mechanism, a gas vent mechanism, a barrel consisting of a chamber and a threaded part, as well as a bolt frame installed with the possibility of contacting in the front position with beveled supporting surface of the receiver.

The reason that prevents obtaining a technical result in a known technical solution, which is provided by the claimed utility model, is the lack of structural elements that ensure the destruction of high-strength materials such as concrete with deep and through penetration into their thickness.

The task to which the claimed utility model is directed is to provide new operational capabilities of the device and to expand the scope of its application.

The technical result that provides the solution of this problem consists in the possibility of making deep blind and through holes of various shapes in thick-walled structures of high-strength materials, for example, concrete, granite, brick, ceramic and other materials.

A technical result is achieved in that in a device for destroying a material containing a receiver, a trigger mechanism, a gas vent mechanism, a barrel consisting of a chamber and a threaded part, a bolt frame installed with the possibility of contacting it in the forward position with the beveled supporting surface of the receiver , according to the claimed utility model, to the muzzle of the barrel coaxially with it and hermetically docked pipe, to the rear of which is attached a feeder with abrasive powder in the form of a container, the cavity of which communicates with the cavity of the nozzle by means of an opening in the wall of the nozzle, and a nozzle insert with a gas channel in the form of a Laval nozzle with a critical section area smaller than the nozzle passage area is mounted inside the front of the nozzle, while idle cartridges are placed in the chamber when firing. The technical result is also achieved by the fact that, firstly, the pipe sealed to the muzzle is made, as an option, with a bore area equal to the bore of the barrel, and secondly, the pipe sealed to the muzzle of the barrel is made as an option , with an area of the passage section smaller than the area of the passage section of the barrel, thirdly, a pipe that is hermetically connected to the muzzle of the barrel is made, as an option, with an area of the passage section greater than the area of the passage section fourthly, the communication between the cavity of the container and the cavity of the nozzle is carried out, as an option, by means of a tube inserted through an opening in the wall of the nozzle, while a part of the named tube located in the cavity of the nozzle is curved towards the nozzle insert and is aligned with it, -fifth, the feeder is filled with abrasive powder, as an option, in the form of corundum (aluminum oxide - Al ₂ O ₃ ), sixth, the feeder is filled with abrasive powder, as an option, in the form of quartz sand (silicon dioxide - SiO ₂ ), seventh, the feeder is filled with abrasive Roshko, optionally in the form of construction sand (mainly silica - SiO _2).

Docking to the muzzle of the barrel is coaxial with it and hermetically fitting a nozzle, to the back of which a feeder with abrasive powder is attached in the form of a container, the cavity of which communicates with the nozzle cavity through an opening in the nozzle wall, and mounting a nozzle insert with a gas duct in the front of the nozzle Laval nozzles with a critical cross-sectional area smaller than the passage area of the nozzle, as well as the placement of blank cartridges in the chamber when firing, allows you to get a high-speed flow of solid x abrasive particles coming from the feeder to the nozzle cavity and scatters high temperature high pressure gas from the combusted powder charge blank cartridges, which (gas) moves with itself is accelerated to supersonic speed in nozzle cavity by passing through a Laval nozzle. In this case, firstly, the implementation of the nozzle with an orifice area equal to the area of the orifice of the barrel, ensures minimum hydraulic (and energy) gas losses during its movement along the entire path of the "barrel-branch pipe", which in turn preserves the operational characteristics of the claimed device at a nominal level; secondly, the implementation of the pipe with an orifice area smaller than the area of the orifice of the barrel, allows the gas to receive preliminary acceleration in front of the Laval nozzle, which enhances the ejective effect of the gas on the flow of solid abrasive particles from the feeder into the cavity of the nozzle and increases the particle flux density, which , in turn, improves the operational characteristics of the claimed device; thirdly, the implementation of the pipe with an orifice greater than the area of the orifice of the barrel, gives the nozzle the property of a receiver (gas storage) with a higher pressure, which provides greater uniformity (smoothness in time) of the movement of gas and solid abrasive particles through the Laval nozzle , which, in turn, improves the operational characteristics of the claimed device; fourthly, the introduction of the tube from the cavity of the feeder through the hole in the wall of the pipe into the cavity of the pipe and bending the pipe towards the nozzle insert and coaxially with it, enhances the ejective effect of the gas on the flow of solid abrasive particles from the feeder, which ultimately increases the operational characteristics of the claimed device ; fifthly, filling the feeder with abrasive powder in the form of corundum (aluminum oxide - Al ₂ O ₃ ) gives the high-speed flow of solid particles the ability to cut high-strength material (concrete, etc.) with high speed, which increases the operational characteristics of the claimed device; sixth, filling the feeder with abrasive powder in the form of quartz sand (silicon dioxide - SiO ₂ ) provides a cutting mode for the material corresponding to its strength, for example, when cutting granite; seventh, filling the feeder with abrasive powder in the form of building sand (mainly silicon dioxide - SiO ₂ ) allows cutting material, for example, brick, most economically, which generally increases the efficiency of the claimed device.

The features of the claimed utility model, distinguishing from the known technical solution, consist in docking to the muzzle of the barrel coaxially with the pipe and hermetically sealed pipe, to the back of which is connected a feeder with abrasive powder in the form of a container, the cavity of which communicates with the cavity of the pipe through an opening in the pipe wall, as well as mounting inside the front of the nozzle nozzle with a gas duct in the form of a Laval nozzle with a critical section area smaller than the nozzle passage area, and placed in the chamber when firing blank cartridges (with the device). Distinctive features also consist in the fact that, firstly, the pipe that is tightly attached to the muzzle is made with an area of the bore equal to the area of the bore; secondly, the pipe that is hermetically docked to the muzzle of the barrel is made with an area of the passage section smaller than the area of the passage section of the barrel; thirdly, the nozzle hermetically connected to the muzzle of the barrel is made with an area of the passage section greater than the area of the passage section of the barrel; fourthly, the communication of the cavity of the container with the cavity of the nozzle is carried out by means of a tube inserted through an opening in the wall of the nozzle, while a part of the named tube located in the cavity of the nozzle is curved towards the nozzle insert and is aligned with it; fifthly, the feeder is filled with abrasive powder in the form of corundum (aluminum oxide - Al ₂ O ₃ ); At sixth; the feeder is filled with abrasive powder in the form of silica sand (silicon dioxide - SiO ₂ ); seventh, the feeder is filled with abrasive powder in the form of building sand (mainly silicon dioxide - SiO ₂ ).

The claimed utility model is illustrated by drawings, where:

figure 1 - schematically shows a device for the destruction of the material;

figure 2 - schematically shows a variant of the device for the destruction of the material with an area of the bore of the pipe less than the area of the bore of the barrel.

figure 3 - schematically shows a variant of the device for the destruction of the material with the area of the bore of the pipe, larger than the area of the bore of the barrel.

figure 4 - schematically shows a variant of the device for the destruction of the material, in which the cavity of the feeder communicates with the cavity of the pipe using a tube.

The device for destroying the material comprises a receiver, a trigger mechanism, a gas escape mechanism, a barrel consisting of a chamber and a threaded part, and a bolt frame installed with the possibility of contacting in the forward position with the beveled supporting surface of the receiver located in the rear (in FIG. 1 - in the right, shaded) part 1 of the device, which is not shown here, in Fig. 1, to simplify the graphic part of this description, since they are made according to the standard scheme and perform exactly the same functions both in the well-known device "Automatic weapons" Kalashnikov assault rifle ", and in the claimed device" Device for destruction of material ", namely, ensuring the combustion of gunpowder in the cartridge, that is, gas formation, ensuring the movement of gas to the barrel and the barrel, exhausting the spent sleeves from the chamber in automatic and manual modes, feeding and dispensing (placement) of a new cartridge into the chamber in automatic and manual modes. Along with this, the device contains docked to the muzzle part 2 of the barrel 3 coaxially with it and g a pipe 4 is tightly connected, to the rear part 5 of which a feeder 6 is attached with abrasive powder 7 in the form of a container, the cavity of which communicates with the cavity 8 of the pipe 4 through an opening 9 in the wall of the pipe 4, and a nozzle insert 11 with a gas duct is mounted inside the front of the pipe 10 4 in the form of a Laval nozzle with a critical cross-sectional area of 12, smaller than the flow area of the nozzle 4, while idle cartridges are placed in the chamber when firing (when the device is operating). Additional device options are shown in other figures, namely, firstly, in Fig. 1, a pipe 4 which is hermetically connected to the muzzle 2 of the barrel 3 is made with a passage sectional area equal to the sectional area of the barrel 3; secondly, in Fig. 2, a pipe 4 which is hermetically connected to the muzzle part 2 of the barrel 3 is made with an area of the passage section smaller than the area of the passage section of the barrel 3; thirdly, in figure 3 hermetically connected to the muzzle 2 of the barrel 3, the pipe 4 is made with an area of the passage section greater than the area of the passage section of the barrel 3; fourthly, in FIG. 4, the communication of the cavity of the container 6 with the cavity 8 of the pipe 4 is carried out by means of a tube 13 inserted through an opening 14 in the wall of the pipe 4, while part 15 of the pipe 13 located in the cavity of the pipe 4 is bent towards nozzle insert 11 and is aligned with it; fifthly, shown in all the figures (Fig. 1 ... Fig. 4) the abrasive powder 7 in the feeder 6 can be either in the form of corundum (aluminum oxide - Al ₂ O ₃ ), or in the form of quartz sand (silicon dioxide - SiO ₂ ) , or in the form of building sand (mainly silicon dioxide - SiO ₂ ).

Preparation for work and operation of the claimed device is as follows. The back (in Fig. 1, right, hatched) part 1 of the device is equipped with blank cartridges, abrasive powder 7 is poured into the feeder 6. Then, in the normal mode of operation of the "Automatic weapons" Kalashnikov’s automatic device, the powder is ignited and burned in a blank cartridge, the resulting gas of high temperature (~ 3000 K) and high pressure (~ 100 MPa, i.e. ~ 1000 atm.) moves in the barrel 3 and in the pipe 4 through the Laval nozzle of the nozzle insert 11, while accelerating to supersonic speed ( ~ 2500 ... 3000 m / s). pipe 4 gas by ejection ensures the flow of abrasive powder 7 from the feeder 6 into the cavity 8 of the pipe 4 and its further movement in the pipe with increasing speed, reaching the outlet (at the exit) from the pipe high values (~ 300 ... 500 m / s). from the pipe with the named speed, the abrasive powder destroys the material (concrete, brick, etc.) located on the path of its movement due to the abrasive (erosive) effect.

Claims (8)

1. A device for the destruction of material containing a receiver, trigger mechanism, gas mechanism, a barrel consisting of a chamber and a threaded part, and a bolt frame installed with the possibility of contacting in the forward position with the beveled supporting surface of the receiver, characterized in that to the muzzle of the barrel coaxially with it and hermetically docked pipe, to the rear of which is attached a feeder with abrasive powder in the form of a container, the cavity of which communicates with the cavity of the pipe by holes in the pipe wall, and a nozzle insert with a gas channel in the form of a Laval nozzle with a critical section area smaller than the pipe cross-sectional area is mounted inside the front of the pipe, while idle cartridges are placed in the chamber when firing. 2. The device for the destruction of material according to claim 1, characterized in that the hermetically docked to the muzzle part of the pipe is made with an area of the passage section equal to the area of the passage section of the barrel. 3. The device for the destruction of material according to claim 1, characterized in that the hermetically docked to the muzzle of the barrel the nozzle is made with an area of the passage section smaller than the area of the passage section of the barrel. 4. The device for the destruction of material according to claim 1, characterized in that the hermetically docked to the muzzle of the barrel, the pipe is made with an area of the passage section greater than the area of the passage section of the barrel. 5. The device for destroying the material according to claim 1, characterized in that the communication of the cavity of the container with the cavity of the nozzle is carried out by means of a tube inserted through an opening in the wall of the nozzle, while a part of the named tube located in the cavity of the nozzle is curved towards the nozzle insert and coaxial with it. 6. The device for the destruction of material according to claim 1, characterized in that the feeder is filled with abrasive powder in the form of corundum (aluminum oxide - Al ₂ O ₃ ). 7. The device for the destruction of material according to claim 1, characterized in that the feeder is filled with abrasive powder in the form of quartz sand (silicon dioxide - SiO ₂ ). 8. The device for the destruction of material according to claim 1, characterized in that the feeder is filled with abrasive powder in the form of building sand (mainly silicon dioxide - SiO ₂ ).