RU2307992C1 - Service pneumatic short-barrel weapon (modifications) - Google Patents

Abstract

FIELD: service pneumatic short-barrel weapon.

SUBSTANCE: the weapon has a frame with a holding grip, barrel, housing-bolt or a bolt with a return spring, magazine located in the grip, main reservoir with compressed gas, service chamber, service valve and a firing mechanism having a trigger. The weapon is provided with a valve system of an indirect action pneumatic cartridge located in the weapon grip. The system is combined with a service chamber having a passage hole for communication with the barrel through a passage bolt. The lever-type impact or pressure member of the firing mechanism is located at the end of the grip and made for mechanical action on the trigger member or the valve system valve. The magazine is positioned along the service chamber of the valve system. The barrel is positioned inside the main reservoir connected to the frame. The return spring is positioned inside the housing-bolt or housing of the bolt part. The pistol is provided with a safety system blocking the hammer or the pressure member of the firing mechanism at an unlocked bolt.

EFFECT: produced service pneumatic short-barrel low-noise weapon for use in the territories and in rooms with a dangerously explosive atmosphere.

27 cl, 14 dwg

Description

FIELD OF THE INVENTION

The invention relates to combat pneumatic short-barreled weapons.

State of the art

Widely known are samples of pneumatic short-barreled weapons (pistols and revolvers) for sports and hunting shooting, using liquefied carbon dioxide with a pressure of up to 60 atm to store bullets, stored in replaceable cans of weapons, or compressed air to a pressure of not more than 200-250 atm, stored in the tank of weapons and fed to throwing after reduction to a pressure of 70-150 atm. When fired, the index finger of the arrow presses the trigger of the weapon, while the muscular force of the arrow cocks the hammer spring of the striker or trigger, after which they break from the cock and strike the pistol of the military pneumatic valve of the weapon, which, briefly opening from the blow, lets it into the barrel of the weapon (or drum) with a bullet there a portion of compressed gas. In pistols, after a shot, the next bullet is fed to the breech-hole of the weapon barrel (to the place corresponding to the chamber of the firearm). The bullet is supplied automatically or forcibly, either by a sliding feeder perpendicular to the axis of the barrel with a hole for the bullet, which serves as a shutter, or directly from the store perpendicular to the axis of the barrel. After the shot, the shooter again presses the trigger of the weapon (in this case, in revolvers during the cocking of the striker, the drum rotates due to the muscular strength of the index finger of the shooter, setting the drum socket with the next bullet opposite the barrel of the weapon) and the above process is repeated. There are numerous samples of pistols, for example, according to the patent of the Russian Federation No. 2118781, in which the role of the drummer is played directly by the barrel of the weapon. In such pistols, the next bullet after firing is fed, as a rule, from the magazine perpendicular to the axis of the barrel of the magazine through the side hole in the barrel, and locking (obturation) of the barrel channel is done through the set of overlapping bullet feed holes in the barrel by shifting the barrel with the hole into the cylindrical obturating part of the gun.

These pneumatic pistols and revolvers have the following disadvantages:

1. Insignificant (not more than 3-10 J) muzzle energy, which is a consequence of the insignificant pressure of compressed gas in the weapon reservoir. In currently used samples of pneumatic short-barreled weapons, the main type of combat valve (i.e., a valve that injects compressed gas to throw a projectile into the barrel of a weapon) is a direct-acting valve, opened by an impact of a massive body (hammer or trigger), accelerated to a certain speed the force of the mainspring (i.e., the spring that serves in pneumatic weapons to give kinetic energy to the hammer or trigger), previously cocked by the index finger. To open a direct-acting valve, the force developed by the index finger of a person in almost any type of firearm with a "self-cocking" usually does not exceed 10-12 kg with a stroke of not more than 10-20 mm. When trying to increase the effort, shooting in most cases becomes simply impossible. However, direct-acting combat valves, which provide a large gas flow rate at a high pressure (more than 150-350 atm), require much greater efforts for preliminary cocking of the mainspring and a significant mass of the hammer (trigger), which simply do not fit in the dimensions of a pistol or revolver, approximate in size to standard firearms. None of the existing models of pneumatic short-barreled weapons, usually having a caliber of 4.5-5.5 mm, develop muzzle energy of more than 3-10 J. Large muzzle energies are achieved only in short-barreled models of pneumatic weapons controlled for reloading with only two hands, the second the hand serves (along with feeding the next bullet into the barrel) precisely for cocking a powerful mainspring with a massive striker for each shot. The most powerful long-barreled specimens of pneumatic weapons with a caliber of 6.35-9 mm or more, with muzzle energy of 100 J or more, both single-shot and multi-charged use cocking a powerful mainspring with a second hand or one hand with Henry's bracket. Automatic (semi-automatic), or revolving operating samples of pneumatic multiply charged short-barreled weapons with a bullet energy of at least 100 J, controlled with one hand when firing, is unknown.

Known examples of short-barreled air guns for paintball, in which the mainspring cocked part of the energy of the compressed gas from the previous shot. When fired from such a weapon when the combat valve is opened by hitting a pre-cocked mainspring, the compressed gas passes into the chamber with a piston re-cocking the mainspring and then throwing a projectile (paintball ball) with residual energy. However, due to the significant loss of compressed gas energy to the cocking of a mainspring, the muzzle energy of such short-barreled paintball weapons does not exceed 5-10 J. All numerous attempts to increase the muzzle energy of this type of short-barreled pneumatic weapon for non-fatal kinetic impact on the target for police purposes did not lead to success .

2. The impossibility of increasing the muzzle energy due to the inability to open the direct-acting valve at an increased pressure of the compressed gas by the force developed by one finger of the hand, directly or indirectly through the cocking spring of the valve striker. Muzzle energy in short-barreled weapons with a limited barrel length can only be increased by increasing the pressure of the compressed gas with its increasing consumption per shot and increasing the caliber of the weapon. However, with an increase in the pressure of the compressed gas and an increase in the area of the through section of the combat valve, the force required to cock the mainspring increases so much that it is physically impossible to cock it with the index finger of a human hand. In systems using part of the energy of compressed gas to cock a powerful mainspring, the energy of this part of the gas is very significant, which dramatically reduces the possible muzzle energy at a given pressure and gas flow. In the existing samples of short-barreled airguns, the limited drawback of the combat supply chamber, i.e. direct volume, the compressed gas of which goes to the shot. In these samples, gas from the main reservoir of the weapon passes through a small diameter hole with large hydraulic resistance to the expendable battle chamber, in which the battle valve is located. When the combat valve is opened, it is the expansion energy of the gas volume in the expendable fighting chamber that provides most of the projectile energy. The flow of compressed gas from the main reservoir of the weapon through a small hole (for example, the hole of a needle for piercing a cylinder with liquid carbon dioxide in standard carbon dioxide weapons) with high hydraulic resistance into the combat flow chamber and then through an open combat valve into the barrel of the weapon is only insignificant increases the muzzle energy of a bullet. In systems of powerful single-shot (or multiple-charge guided two-handed shooting) pistols, a common drawback is the multiple change in the direction of gas movement after exiting the combat valve through-section. Typically, the gas leaving the combat valve changes the direction of movement by 180 ° before the start of the impact on the bullet, while the muzzle energy of the bullet, compared to the direct-flow movement of compressed gas from the combat valve to the barrel, drops by up to 30%.

There are systems of single-shot or multi-shot pistols, controlled by two hands with a self-opening ("folding") valve, where the pressure of the compressed gas acts on the combat valve in such a way that it opens not due to kinetic impact, but due to the self-energy of the compressed gas. In such systems, for example, according to RF patent No. 2193150, the pressure of the compressed gas used to shoot is theoretically unlimited, however, the problem of automatically returning an open self-opening valve to its original position without the aid of a second hand has not yet been solved in any existing model of pneumatic multi-charged pistols with valve system of the specified type.

As a prototype of the claimed pistol, the most likely scheme used in weapons samples according to the gas ty-pe with blow-back system, i.e. soft pneumatics with a caliber of 6 mm on flon gas with a real “kickback” stroke of the shutter housing, shutter or bolt frame the so-called Mad-Tor blowback blowback system (CM.http: //talks.guns.ru/static/forumtopics/74. html; http://www.airsoftclub.ru/review/review.shtml; http://www.airsoftclub.ru/review/gasbback.shtml). Bloback pistols almost in detail copy automatic firearm samples and have a frame (body) with a handle, a barrel, a movable casing-shutter or a shutter moving inside the casing with a return spring, a removable magazine, a main tank with liquefied (flon or green gas, etc.) e. brands of freons (freons), located in the "store" ("clip") of the weapon, inserted into the handle, combat expendable chamber, combat valve, trigger (trigger mechanism), trigger. When you press the trigger cocked combat spring drummer and and the trigger, hammer or trigger strikes a direct-acting combat valve (located directly inside the handle "store", with a gas cushion over liquid gas, which is a kind of flow chamber), which, when opened, lets in a portion of vaporized compressed gas into the barrel of the weapon with it from a magazine with a plastic bullet.In MagTop blowback systems, a direct-acting valve is opened not by a blow, but by clicking on the valve.The shutter-casing or shutter in "air-soft" systems does not play the real role of locking the bore, since the pulse acting on the creative is insignificant, this impulse is simply not enough to act on the mass of the shutter-casing and move it to the rear position, as well as to overcome the force of even a weak return spring, the casing-shutter only serves as the drive for automatically cocking the trigger or striker and rammer from the magazine, imitating the real work of an automatic firearm. To drive the shutter-casing, the energy of a special portion of gas is used, which is specially designed for reloading and sent to a special cylinder with a piston, which moves the casing-shutter, or the energy that pre-rolls the shutter, and then transferred to the barrel with the loss of some energy. Those. The rollback of the shutter is not ballistically related to bullet throwing. After the plastic bullets have been used up, the casing-bolt, as well as simulated samples of firearms, can stand up to stop the shutter (bolt delay). Air-soft pistols do not use special devices that protect the weapon from the possible (and often occurring) double (bullet release due to negligible effective pressure and the inability to destroy the weapon when fired with twice (or more) increased effort to move the bullet during multiple retaking Due to the low pressure of the liquid flon or green gas (8-12 atm), the muzzle energy of plastic bullets of such weapons does not exceed 0.5-1 J. With an increase in the pressure of compressed gas already up to 60 atm, the energy of the impact of the mainspring or the pressure on the valve is not enough to open the direct-acting valve.All attempts to increase muzzle energy in gas ty-pe systems with blow-back systems by using liquefied carbon dioxide with a pressure of about 60 atm, and changes in the design of the direct-acting combat valve were unsuccessful.

Disclosure of the invention.

The aim of the invention is the creation of combat pneumatic short-barreled, multi-shot, low-noise weapons for use in territories and in rooms with explosive atmospheres (for example, during anti-terrorist operations) with increased efficiency of kinetic effects on the target of equal in effectiveness of the damaging effect to some samples of short-range firearms, guided by firing with one hand , in dimensions not exceeding significantly the dimensions of short-barreled firearms, n For example, short-barreled weapons with silent and flameless fire devices. The striking ability is understood not as inflicting simply penetrating damage as in many sports samples of short-barreled pneumatic weapons with a muzzle energy of a bullet of 5-10 J, but unconditional incapacitation of a person by operating with the minimum kinetic energy of a bullet of a firearm adopted in military affairs with a caliber of at least 7 , 62 mm, and a kinetic energy value of not less than 80 J, which provides an unconditional conclusion of a person out of order, or the level accepted in forensic science that certainly affects the specific kinetic tion of energy in the 135-145 J / cm ^2.

Internal ballistic calculations show that a muzzle energy of 100 J at a mass close to short-barreled firearms with a mass of about 5-6 g, a barrel length of about 200 mm and a caliber of about 9-10 mm and an effective air pressure of 250 atm can be obtained only when the volume of the supply tank is about 7-10 cm ³ . With increasing air pressure up to 350 atm, the muzzle energy of a bullet increases to 130-140 J, and when replacing compressed air with compressed helium at 350 atm, it has a muzzle energy of about 180 J, approaching the muzzle energies of pistol cartridges of the 9x17 AKP type. Similar calculations with a bullet caliber of 15 mm and its mass of 15 g show that at 250 atm the energy of the bullet will be 188 J, and at 350 atm it will be 250 J when replacing air with helium, the muzzle energy at 350 atm will be 310 J, that is, the energy of the pistol bullets cartridge 9x18 PM combat pistol Makarov. Pressure 350 atm is accepted as achieved in modern general industrial compression technology.

The achievement of the specified level of effectiveness of the kinetic effect on the target and the range of destruction is achieved by the fact that in the proposed weapon the effective pressure of the compressed gas used for shots can significantly exceed the highest compressed gas pressures used for pneumatic weapons at present, the bore sections of the combat valves exceed known samples , the volume of the combat expendable chamber reaches 10 cm ³ , and the caliber of the weapon can reach 12-15 mm. To open the high pressure of compressed gas while ensuring its high flow rate per shot, valve systems are used that are used in pneumatic chucks, in which part of the energy of compressed gas is used to open the combat valve, balanced or rebalanced valve systems.

Weapons reloading is carried out automatically using the automation schemes close to the automatic weapons schemes.

The pneumatic weapon contains a frame with a retention handle, a barrel, a casing-bolt or a bolt with a return spring, a magazine located in the handle, a main reservoir with compressed gas, a combat flow chamber, a combat valve and a trigger mechanism (trigger) containing a trigger. The weapon is equipped with a combat valve system of an indirect-action pneumatic cartridge located in the handle of the weapon and made combined with a combat expendable chamber, having a passage hole for communicating with the barrel through the gate valve and connected with a passage through the main reservoir, an impact or pressure trigger element of the trigger type, located at the end of the handle it is made with the possibility of mechanical action on the trigger or valve system valve, the store is located along the combat flow chamber to the valve system, the barrel is located inside the main reservoir connected to the frame, the return spring is located inside the shutter-casing or the shutter-housing, the gun is equipped with a safety system that blocks the hammer or pressure trigger element when the bolt is not locked.

The trigger-type trigger element of the trigger type can be disconnected with the trigger pusher, rod, or sear, due to the energy of the compressed gas portion of the pneumatic cartridge valve system used to open the combat valve and released into the atmosphere after separation of the trigger trigger element with the push rod, rod, or sear descent.

The trigger-type trigger element of the trigger type can be made capable of being disconnected from the pusher, traction, or the trigger of the trigger due to the energy of the shutter recoil.

The barrel can be made floating, rigidly hermetically fixed in one end of the main reservoir and movably hermetically in the other end of the reservoir.

The barrel can be provided on the outer generatrix with reinforcing stiffeners in the form of concentric thickenings or longitudinal protrusions, or screw protrusions or combinations of hardenings.

The main reservoir may be provided on the inner generatrix with reinforcing stiffening ribs in the form of concentric thickenings or with longitudinal ribs or screw protrusions or combinations of hardening.

The barrel and the tank can be equipped with a floating mechanical lock or locks connecting them in the center of the lengths or segments so that their mutual elastic deformation from the action of gas pressure in the tank is mutually compensated.

At the end of the barrel or at the barrel end of the tank, a threaded or cracked seat can be made for attaching the barrel extension or silencer for the shot sound, and on the frame or frame handle there is a place for hydraulic with a non-return valve and mechanical connection of an additional butt tank.

The weapon may be equipped with a fuse-regulator of the energy of the shot, made in the form of a cylinder with a gas perpendicular to the cylinder forming a gas bore, rotating in the frame using a spoke on the side surface of the frame or moving perpendicular to the plane of the frame using a button with partial or complete overlapping of the bore when rotating or moving perpendicular to the plane of the frame.

The weapon can be equipped with a safety system when the trigger is not fully depressed.

The main tank can be made removable.

The weapon can be equipped with a free movable casing-shutter moving along the guides of the frame, with a return spring placed inside the casing-shutter on a guide rod fixed at one end in the frame or the end of the tank, in a frame coaxially with the barrel fixed rotated around its axis by an angle from 90 ° to 270 ° tube valve with a hole in the wall for the passage of gas from the combat flow chamber and a window for supplying bullets from the magazine into the shutter, a movable-tight leading piston is located inside the shutter tube, rigidly connected to the shutter housing, the driving piston or shutter housing is provided with a carrier that interacts with a longitudinal copy screw slot or groove on the outer or inner surface of the shutter tube.

The weapon may be equipped with a forcefully locking barrel with a feed-through passage nozzle located coaxially with the barrel, with an opening in the wall for gas passage from the combat supply chamber and a blind end with a movable pusher-disconnector of the combat support located in it, the shutter is made to move in the shutter case of the frame, is locked by a movable spring-loaded combat stop placed in the frame, and is unlocked by a pusher-disconnector interacting with the gas piston and with the return spring of the gas engine ivoda shutter disposed in a frame and receiving the pressurized gas energy selection of the weapon barrel, gazovod connecting the gas sampling point of the weapon barrel and the gas engine, located in the casing bolt portion extends outside or inside the main tank.

The weapon can be equipped with a tubular crane shutter, coaxially mounted with the barrel, rotated around its axis by an angle from 90 ° to 270 ° with an opening for the passage of gas from the combat supply chamber, a window for supplying bullets from the magazine inside the bolt, an unloading rod is located inside the bolt cylinder rigidly connected to the frame, a gas piston with a return spring of the gas engine of the shutter drive, located in the frame, is equipped with a carrier, interacting with a longitudinal copy screw slot or groove on the surface shutter tubes, a gas duct connecting the gas sampling point from the weapon barrel and a gas engine located in the bolt shield housing extends outside or inside the main reservoir.

The weapon may be equipped with a longitudinally moving and rotating in the frame, a forcefully locking bolt with a feed-through nozzle located coaxially with the barrel, with an opening in the wall for gas passage from the combat supply chamber, the bolt is equipped with a combat locking protrusion or protrusions interacting with the reciprocal grooves of the frame or the barrel, and is made with the possibility of locking and unlocking when interacting with a gas piston, with a return spring of the gas engine of the gate actuator receiving the energy of selection of compressed gas of the barrel weapon gazovod connecting the gas sampling point of the weapon barrel and the gas engine, located in the casing bolt portion extends outside or inside the main tank.

The weapon can be equipped with a free movable casing-shutter moving along the guides of the frame, with a return spring located inside the casing-shutter on a guide rod fixed at one end in the frame or end of the tank, the casing-shutter is equipped with a feed-through pipe located coaxially with the barrel , with a hole in the wall for the passage of gas from the combat supply chamber and a device that prevents double bullet penetration into the barrel by blocking the supply of the next bullet into the barrel after the first bullet is retracted and the hearth is unlocked and the next bullet into the barrel during firing or blocking shutter stroke after the first bullet in the barrel and unlocking the gate during firing.

A device that prevents double bullets from being blocked by locking the shutter stroke after the first bullet is fed into the barrel and unlocking the shutter during the shot can be made in the form of a two-shouldered lever that can be rotated on an axis fixed in the shutter casing, interacting with the front shoulder and the tooth with a groove in frame, and having the ability to interact with located with the possibility of longitudinal movement in the casing, the slide, having a protrusion passing in the feed-through pipe, and a spring-push element, interacting with the lever when opening the shutter, loading its front shoulder and unloading the front shoulder when fired.

A device that prevents double bullet movement by blocking the shutter travel after the first bullet is fed into the barrel and unlocking the shutter during the shot can be made in the form of a spring-loaded or free two-shouldered lever that can be rotated on an axis fixed in the frame or end of the main tank, with one the lever arm interacts with a bullet located in the pool entrance, and the other arm having a tooth with a straight or sloping working surface interacts with a cutout or undercut in the shutter housing or odayusche-pass pipe.

The mating surfaces of the frame and the shutter housing that are movable relative to each other can be provided with gas outlets or grooves (risks) for bleeding gas forming a gas cushion between them.

Combat pneumatic weapons contain a frame with a handle, a barrel, a drum, a drum fixing system for firing, a main tank with compressed gas, a combat supply chamber, a combat valve, and a trigger mechanism (trigger) containing a trigger. In the handle there is a combat valve system of an indirect pneumatic cartridge, which is made combined with a combat flow chamber, having a through hole for its communication with the drum chamber and connected by a gas through hole to the main reservoir located along the barrel and connected to the frame, an impact or pressure element the trigger mechanism of the lever type located at the end of the handle is made with the possibility of mechanical impact on the trigger organ or valve of the valve system.

The main tank can be made removable.

The trigger-type trigger element of the trigger type can be disconnected with the ram or the pull rod due to the energy of a portion of the compressed gas of the pneumatic cartridge valve system used to open the combat valve and released into the atmosphere after the trigger valve is opened and the trigger lever is disconnected with the pusher or rod descent.

The weapon can be equipped with a fuse-regulator of the energy of the shot, made in the form of a cylinder with a gas perpendicular to the cylinder forming a gas orifice rotating in the frame with a trigger in the form of a trigger or moving perpendicularly to the plane of the frame using a button with partial or complete overlapping of the passage through the hole when rotating or moving perpendicular to the plane of the frame.

The barrel can be located inside the main tank parallel to its axis and is equipped with reinforcing stiffening ribs in the form of concentric thickenings or longitudinal protrusions or screw protrusions or combinations of hardening.

The weapon can be equipped with a safety system when the drum chamber is not combined with the barrel.

The weapon can be equipped with a system for protecting against accidental shots when the trigger is not fully depressed.

The weapon at the end of the barrel can be equipped with a threaded or cracker connection for attaching a barrel extension or silencer for the shot sound, and a place for hydraulic with a non-return valve and mechanical attachment of an additional butt tank is made on the frame or handle of the frame.

Brief Description of the Drawings:

Figure 1. Sectional view of the combat supply chamber of the pistol and revolver with valve system.

Figure 2 and 3. The section of the gun according to clause 15, clause 16 with a free casing-shutter and a lever in the casing-shutter, which prevents double chambering of bullets.

4 and 5. The section of the gun according to claim 11 with a free tubular crane shutter.

Fig.6 and 7. The cut of the gun according to item 12 with a forcefully locking the barrel shutter and exhaust gases from the barrel.

Fig and 9. The section of the gun according to item 13 with a tubular valve and the removal of gases from the barrel.

10 and 11. The cut of the gun according to clause 15, clause 17 with a free casing-shutter and a lever in a frame that prevents double bullet blasting.

12 and 13. The section of the revolver according to item 21, item 23, item 24 with a fuse-regulator moving perpendicular to the plane of the frame.

Fig.14. Section revolver according to item 21, item 23, item 24 with a fuse-regulator rotating in the frame using a spoke.

The implementation of the invention.

Figure 1 shows a section of the combat expendable chamber of the pistol and revolver with a valve system. All of the following options for pistols and revolvers use the general modified valve system of the pneumatic cartridge according to the patent of the Russian Federation No. 2185592 and are a pneumatic cartridge used as an expendable chamber with the valve system placed in it. The principle of action of a combat expendable chamber does not differ from the principle of action of a pneumatic cartridge according to the specified patent. In the rectangular case of the flow chamber 1 with the inner cylindrical cavity 2, which is the actual flow capacity, there is a movable valve system consisting of a large exhaust valve (combat valve) 3 and a small release trigger valve (trigger valve) 4 with a stem 5 and elastic ring sealing elements 6. An elastic shock absorber 7 is located on the stem 5. The stem 5 is loaded by the force of the spring 8, and the centralizer 9 of the valve 3 having through holes is loaded by the force of the spring 10. The valve 3 has a channel of 11 ma diameter (nozzle) extending to the surface of the end face of the valve 3 through the gasket 12 of the valve 3. The piston 13 of the body of the valve 3 and the plug 14 of the cavity 2 have elastic ring sealing elements 15. In the piston 13 a through hole of a small diameter (nozzle) 16. In a plug 14 has an outlet passage 17. In the chamber 1, depending on the particular embodiment of the gun or revolver, holes 18 are made for filling the cavity 2 with compressed gas from the main reservoir, or from a filling device (for example, a compressor) in the event that the supply chamber is a passage and the main tank is charged with compressed gas through it, or simultaneously from the main tank and the additional stock tank (see description of FIGS. 2 and 3).

Combat expendable camera operates as follows. Compressed gas fills the cavity 2 of the chamber 1 through the hole (s) 18. When you press or hit the trigger valve 4, it opens. In this case, due to hydraulic imbalance of the valve system, valve 3 abruptly opens and the entire volume of compressed gas from the cavity 2 leaves through the through hole 17. Moreover, a small part of the compressed gas from the cavity 19 is discharged through the hole formed when the valve 4 is opened. After the cavity 2 is emptied, the valve 3 and valve 4 sharply close (see the description of the work according to the patent of the Russian Federation No. 2185592), and there is a new filling of the cavity 2 with compressed gas through the hole (s) 18. The spring 8 serves for the initial filling of the cavity of the consumable chamber at the initial filling of the gun or revolver, since when the main tank is completely empty, valve 4 may remain unclosed. The pressure (shock) force required to open the trigger valve 4 theoretically and practically does not depend on the magnitude of the working pressure due to the possibility of its balancing towards the opening (see paragraph 1 of the claims of RF patent No. 2185592) and is determined only by the necessary level of safety , not allowing self-opening (and subsequent firing) under the action of inertial forces when a weapon falls from a certain height. Thus, the combat flow chamber can use any pressure levels reached by modern gas compression technology with a small force to open the trigger valve. The operating pressure levels in the pistol and revolver versions below are limited only by the strength of modern structural and sealing materials.

Figure 2 and 3 (the continuation of the tank and the muzzle of the barrel) shows the gun according to clause 15, clause 16 of the claims. The main tank 2 is fixed on the frame 1, the end of which is closed by plugs 3 with elastic ring seals 4. A barrel 5 passes through the plugs 3, sealed in the plugs by elastic ring seals 6 and fixed to the thread on the back cap. The shutter-casing 7 has the ability to move on the frame 1 along the guides similar to firearms and the rod 8 with a return spring 9 and a thrust nut 10 screwed into the plug 3 and a tightening reservoir 2 with a frame 1. The shutter-casing 7 has a feed-through pipe 11 with an orifice 12 connecting the nozzle 11 to the outlet orifice of the flow chamber 13 (see FIG. 1) with a valve system located in the handle of the frame 1. In the casing-shutter 7 is a slider 14 with a protrusion 15 passing into the nozzle 11, spring pressure element 16 (e.g. measures, a spring-loaded ball) and the two-armed lever 17 is mounted on the axle. The slider 14 is held in the shutter housing 7 by the plug 18. The trigger 19 interacts with a spring-loaded pusher 20 having a spring-loaded sear 2.1, interacting with a spring-loaded lever 22 having a pressure protrusion 23, the stroke of which can be blocked by a fuse 24 connected by a spring rod 25 fixed to axis spring-loaded lever 26 fuse. The consumable chamber 13 fixes a screw 27 with a filling check valve in the handle of the frame 1. When the screw 27 is loosened, the consumable chamber 13 can be removed from the handle if it is necessary to repair and clean it. Another screw 27 is also used to attach an additional stock tank. In the handle of the frame 1, with the help of a magazine lock 28, a magazine 29 is held with a feeder and a magazine spring. The magazine has a straight bullet exit from the magazine shaft without moving the bullet along the axis of the barrel. The sponges of the magazine holding the bullet are moved apart when the magazine is inserted into the magazine shaft of the handle due to the elastic interaction of the slots of the front and rear surfaces of the magazine with pins or protrusions in the magazine shaft of the handle. The barrel 5 has stiffeners 30 and is movably connected to the tank 2 using a mechanical floating lock 31.

The gun works as follows. Through the filling check valve in the screw 27, the flow passage chamber 13, the channel 32, the tank 2 is charged with compressed gas. The magazine 29, equipped with bullets, is inserted into the shaft of the handle (in this case, the pins or protrusions of the magazine shaft of the handle open the jaws of the magazine, making it possible for bullets to exit freely) and is secured by a latch 28. The cover-shutter 7 is pulled back to the disassembly stop 33, compressing the return spring 9. In this case, the lateral protrusion (not shown by the number of the position in Fig.) Of the slider 14 interacts with the emphasis of the frame and the slider 14 moves forward in its cavity of the shutter-casing 7 so that its pressing element 16 begins to interact with the front shoulder of the lever 17, and in 15 stupas slider 14 comes into the tube 11 through the hole for protrusion 15. The branch pipe 11 for the store and runs across the bullet from the magazine by the spring feeder store goes upward and abuts against the protrusion of the barrel. The casing-shutter 7 is released and, under the action of the compressed spring 9, goes forward, the bullet is sent to the bullet box, and the casing-shutter stops in the forward position, locking the barrel with the nozzle 11 included into it. At the same time, the lower protrusion (tooth) of the front shoulder loaded by the spring force of element 16 lever 17 pops into the groove of the frame. The spring force of the element 16 and the bevel angle of the lower protrusion of the lever 17 are selected so that the re-opening (pulling) of the shutter casing 7 will be impossible or very difficult. This ensures the impossibility of re-sending the bullet to the bullet box. When you press the trigger 19, it interacts with the pusher 20, which through the sear 21 interacts with the lever 22, the protrusion 23 of which presses the trigger valve of the flow chamber 13 with the valve system. A shot occurs, while the compressed gas of the chamber 13 through the hole 12 enters the pipe 11 and throws a bullet. The pressure of the compressed gas at the initial moment of the shot acts on the area of the protrusion 15, moving the light slider 14 back. When this pressure element of the slider 14 is moved back to the rear shoulder of the lever 17, freeing the lower protrusion of the front shoulder of the lever from interaction with the groove of the frame. Under the influence of recoil pressure, the shutter begins to roll back, and the reloading cycle is repeated. When the shutter-casing 7 is completely unlocked, the protrusion of the lever 26 interacts with the lower surface of the shutter-casing 7 so that the lever 26 rotates and the fuse 24 through the rod 25 prevents the movement of the protrusion 23. When the shutter-casing 7 is completely closed, the protrusion of the lever 26 enters the corresponding groove in the lower part of the casing-shutter 7 and through the lever 26 and the rod 25 sets the fuse 24 to a position where the protrusion 23 can make a movement and press the release valve of the flow chamber 13. When fired, part of the compressed gas of the chamber 13 Exit from the opening of the trigger valve (see. Figure 1 depiction), its pressure acting on sear 21 which, turning into the pusher 20, uncoupling the lever 22 which, under the action of its spring takes the initial position. When releasing the trigger 19, the spring of the pusher 20 returns the trigger and the pusher together with the sear 21 to the initial position, while the spring of the sear 21 again communicates it with the lever 22. The flow chamber 13 is charged with compressed air pressure from the reservoir 2 through the channel 32 and the channel of the frame 1 (not shown by the digit of the position of FIG.). The rate of possible repetition of shots in all of the following pistol options depends on the hydraulic resistance of the channel 32 and the channel of the frame, but does not exceed the reaction rate of the re-aiming of the weapon at the target after the aiming line is shifted from the recoil and the human muscle reaction time. In the front plug 3, thread 33 is made for attaching a barrel extension or a silencer for the sound of a shot.

Figure 4 and 5 (the continuation of the tank and the muzzle of the barrel) shows the gun according to claim 11 of the claims. In the frame 1 is fixed a tubular shutter 34 with the possibility of rotation around its axis. Inside the shutter tube 34 with a bore 12 connecting the shutter with the outlet bore of the consumable chamber 13 and the window 35 for the bullet to go into the bolt, there is a movable-sealed driving piston 36, rigidly connected to the shutter-casing 7, the piston 36 has a carrier 37, interacting with a copy screw slot 38 of the surface of the shutter tube 34. The trigger 19 interacts with a spring-loaded pusher 39 having a hammer 40 with a mainspring 41 and a spring-loaded sear 42. The hammer 40 can interact with the spring lever 22, having a shock protrusion 23, the stroke of which can be blocked by a fuse 24, connected by a spring rod 25 with a spring-loaded lever 26 of the fuse fixed to the axis, interacting with the spring pusher 43. The flow chamber 13 (see Figure 1) fixes the screw 27 in the frame handle 1. The return the filling valve 44 is located in the front cap 3 of the reservoir 2. In the handle of the frame 1, the magazine 29 is held with a magazine retainer 28 with a feed and a magazine spring. The barrel 5 has longitudinal stiffeners 45, and the reservoir-stiffener 46.

The gun works as follows. Through the valve 44, the tank 2 and the flow chamber 13 are charged with compressed gas. Magazine 29, equipped with bullets, is inserted into the shaft of the handle and secured by a latch 28. The shutter-casing 7 is pulled back to the disassembly pin 47 by compressing the return spring 9. The piston 36, moving back together with the shutter-casing 7, interacts with the carrier 37 with a screw copier slot 38 and makes the bolt 34 rotate around the axis. Upon reaching the angle of rotation of the shutter 34 such a position that its window 35 is aligned with the outlet of the magazine 29, the bullet from the magazine exits upwards and passes inside the magazine ora-gate 34. The casing 7 is released, under the action of the compressed spring 9 moves forward, the shutter 34 is rotated to the initial position, so that it appears on top box 35, locking (sealing) a gate-valve housing and the stops in a forward position. When you press the trigger 19, it interacts with the pusher 39, which compresses the mainspring 41 and, when it comes to the sear 42, which rests on the combat emphasis of the frame, removes it inside the hammer 40, while the hammer 40 strikes the shoulder of lever 22. The protrusion 23 of the lever 22 strikes the trigger valve of the flow chamber 13 with the valve system. A shot occurs, while the compressed gas of the chamber 13 through the hole 12 enters the shutter 34 and throws a bullet.

Under the influence of the recoil pressure on the piston 36, the shutter housing begins to roll back, and the reloading cycle is repeated. When the shutter is not fully turned to the closing position of the magazine exit, the protrusion of the pusher 43 does not fall into the hole on the surface of the shutter 34, the pusher 43, acting on the lever 26, which prevents the protrusion of the protrusion 23 through the thrust 25 using the fuse 24. 34, the protrusion of the pusher 43 enters the bore of the shutter 34 and through the lever 26, the thrust 25 sets the fuse 24 to a position in which the protrusion 23 can move and strike the trigger valve of the flow chamber 13. When releasing the trigger 19, the spring of the pusher 39 returns the trigger and the pusher together with the hammer 40 to the initial position, while the spring whispered 42 again communicates it with the combat emphasis of the frame. The flow chamber 13 is charged by the pressure of compressed air from the reservoir 2 through a channel in the rear plug 3 and a channel in the frame 1, not shown by the positions in FIG. The system for protection against double feed of bullets in this version of the gun is not used because of the impossibility of double feed.

Figure 6 and 7 (the continuation of the tank and the muzzle of the barrel) shows the gun according to item 12 of the claims. In the frame 1, a shutter 47 is located, having a feed-through pipe 11 with a bore 12 connecting the pipe 11 to the output bore of the consumable chamber 13, a pusher disconnector 48, a spring-loaded combat stop 49, a gas piston 50 with a return spring 51 of the shutter. The shutter 47 is held in the frame 1 by a threaded plug 52, and the return spring 51 is held by a pin 53. The gas piston has a bolt U-shaped bracket 54 attached to it from the outside, covering the side surfaces forming the casing of the shutter portion 1. The cylinder of the gas piston 50 is connected by a gas duct 55, hermetically passing through the plugs 3 of the tank 2 to the hole 56 for gas extraction from the barrel 5. The check valve 44 is placed in the front plug 3 of the tank 2.

The trigger 19 interacts with a lever system 57 connected to a spring-loaded plunger 58, which can interact with a spring-loaded lever 22 having a pressure protrusion 23, the stroke of which can be blocked by a fuse 59 located on the plunger 60, movably connected to the stop 49. The gun operates as follows . The bracket 54 is pulled back, while the piston 50 at the beginning of the stroke flattens the disconnector 48 into the body of the shutter 47 and it, in turn, flattens the stop 49 into the frame, after which the piston 50, compressing the spring 51, interacts with the protrusion of the shutter 47, pushes it back to the stop into the plug 52. The pipe 11 runs over the magazine and the bullet from the magazine, under the action of the magazine feed spring, comes up and rests against the protrusion of the barrel 5. The bracket 54 is released, and under the action of the compressed spring 51, the piston 50 goes forward, while moving the shutter 47 forward, the bullet is sent in the bullet the receiver with the nozzle 11, and the shutter 47 stops in the forward position, locking the barrel with the nozzle 11. In this case, the disconnector 48 under the action of the stop 49, loaded by the spring force, again rises in the body of the shutter 47 and the stop 49 pops into the stop position of the end face of the shutter 47 rigidly locking it. When you press the trigger 19, it interacts with the lever system 57, the pusher 58 interacts with the lever 22, the protrusion 23 of which presses the trigger valve of the flow chamber 13 with the valve system. A shot occurs, while the compressed gas of the chamber 13 through the hole 12 enters the pipe 11 and throws a bullet. The bullet, moving along the barrel, passes through the hole 56 and the compressed gas from the barrel enters the gas duct 55 and then into the piston cylinder 50. The place of compressed gas from the barrel through the hole 56 in all variants of the gas engine schemes can be closer to the beginning of the barrel, in this In this case, the hole 56 is located on the barrel 5, not in the plug 3, but inside the tank 2, and the gas is taken through the sealed gas sampling hose installed in the barrel 5 into the gas duct 55. Under the action of the gas selected from the gas barrel, the piston 50 starts to move backward, and the reloading cycle Ia is repeated.

When the shutter 47 is completely unlocked, the stop 49 interacts with the pusher 60, the fuse 59 of which prevents the protrusion 23 from moving to the release valve of the consumable chamber 13. When the shutter 47 is fully locked, the stop 49 rises and the fuse 59 is set through the pusher 60 to the position where the protrusion 23 can make a movement and press the release valve of the flow chamber 13. When fired, part of the compressed gas of the chamber 13 exits the opening of the start valve, acting by its pressure on the pusher 58, which, turning Referring to the lower axle of the lever system 57, uncoupling the lever 22, which takes the initial position under the action of its spring. When releasing the trigger 19, the spring of the pusher 58 returns the pusher 58, the lever system 57 and through it the trigger 19 to the initial position, while the spring of the pusher 58 again communicates with the lever 22. The system for protecting against the double supply of bullets in this version of the gun is not used from -for durable locking of the shutter when fired and the impossibility of its inertial disruption.

On Fig and 9 (the continuation of the tank and the muzzle of the barrel) shows the gun according to item 13 of the claims. In the frame 1 is fixed a tubular shutter 34 with the possibility of rotation around its axis. Inside the shutter tube 34 with a bore 12 connecting the shutter with the outlet bore of the consumable chamber 13 and the window 35 for the bullet to pass through the bolt, there is an unloading rod 61 rigidly connected to the frame 1. The gas piston 50 with a shutter return 51 has a carrier 62, interacting with a copy screw slot 38 of the surface of the shutter tube 34, and a fastening U-shaped bracket 54 attached to it, covering the side surfaces of the frame 1 forming a shutter casing outside, the gas piston cylinder 50 is connected by a gas duct 55, hermetically passing through the plugs 3 of the tank 2 with the hole 56 for the selection of gas from the barrel 5.

The trigger 19 interacts with the lever 63, which in turn interacts with the spring cock 64, interacting with the hammer 65 with the mainspring 66. The hammer 65 can interact with the spring lever 22, having an impact ledge 23, the stroke of which can be blocked by the spring lever 67 with the safety lock 68 .In the handle of the frame 1 with the help of the magazine lock 69 holds the magazine with a feeder and a magazine spring.

The gun works as follows. The bracket 54 is pulled back, while the piston 50, compressing the return spring 51, interacts with the carrier 62 with the screw copy slot 38 and makes it rotate around the axis of the shutter 34. When the angle of rotation of the shutter 34 is reached when its window 35 is aligned with the magazine exit, the bullet from the store, under the action of the spring, the store feeds up and passes into the shutter 34. The bracket 54 is released, and under the action of the compressed spring 51, the piston 50 goes forward to its initial forward position, while the shutter 34 is rotated to the beginning Flax position so that its window appears on top of 35, locking (sealing) the shutter. When you press the trigger 19, he turns the lever 63, which the cock 64 cock the firing pin 65, compressing the mainspring 66. When the cock slider 64 reaches the stop of the frame 1, the cock breaks off the firing pin 65 and the firing pin strikes the shoulder of the arm 22. Projection 23 the lever 22 strikes the trigger valve of the flow chamber 13 with the valve system. A shot occurs, while the compressed gas of the chamber 13 through the hole 12 enters the shutter 34 and throws a bullet.

The bullet, moving along the barrel, passes through the hole 56 and the compressed gas from the barrel enters the gas duct 55 and then into the piston cylinder 50. Under the action of the gas selected from the barrel, the piston 50 starts to move back, and the reloading cycle is repeated. When the shutter is not fully turned to the closing position of the magazine exit, the protrusion 70 of the shutter 34 does not interact with the lever 67 and its fuse 68 blocks the protrusion 23 under the action of the spring. it to the position in which the protrusion 23 can make a movement and hit the trigger valve of the flow chamber 13. When releasing the trigger 19, the spring of the cock 64 through the lever 63 returns it to its initial position, while m cock 64 communicates with drummer 65 again.

Figure 10 and 11 (the continuation of the tank and the muzzle of the barrel) shows the gun p. 15, p. 17 claims. The main tank 2 is fixed on the frame 1, one end of which is closed by a plug 3, and the other part is the part of the frame 1. The ends have elastic ring seals 4. And the plug 3 and the end, which is part of the frame 1, are held in the tank cylinder by screws located symmetrically around the circumference 71, while the screws included in the end, which is part of the frame 1, hold the entire tank 2 on the frame 1.

Through the plugs 3 passes the barrel 5, sealed in the plugs with elastic ring seals 6 and fixed in the rear plug, i.e. parts of frame 1 on the thread. The casing-shutter 7 has the ability to move on the frame 1 along the guides and the rod 8, screwed into the frame 1, with a return spring 9 and a thrust nut 10. The casing-shutter 7 has a feed-through pipe 11 with a bore 12 connecting the pipe 11 with a passage the cross section of the flow chamber 13. The trigger device of the gun and the device for protecting against firing a shot when the shutter is not fully closed is similar to that shown in FIGS. 2 and 3.

The gun works as follows. The casing shutter 7 is pulled back to the disassembly stop 33, compressing the return spring 9. The pipe 11 runs over the magazine and the bullet leaves the magazine under the action of the magazine feed spring and comes up against the barrel protrusion. The shutter guard 7 is released and, under the action of the compressed spring 9, goes forward, the bullet is sent to the bullet box, and the shutter guard stops in the front position, locking the barrel with the nozzle 11 that has entered it. the shoulder of the lever 72. In this case, the rear shoulder of the lever 72, having a tooth 73, enters the slot of the pipe 11, fixing it in such a position that it is impossible to pull off the shutter-casing connected to it to send the next bullet in the store. This ensures the impossibility of re-sending the bullet to the bullet box. When firing a shot, the bullet, going forward along the barrel 5, releases the front shoulder of the lever 72 and, under the action of the edge of the slot of the nozzle 11 rolling back and the force of the compressed spring of the lever, the tooth 73, which has a bevel at a slight angle on the working surface, disengages from the edge of the slot of the nozzle 11 Under the influence of recoil pressure, the shutter begins to roll back, and the reloading cycle is repeated.

On Fig and 13 (the continuation of the tank and the muzzle of the barrel) shows the revolver according to item 21, item 23, item 24 of the claims. The barrel 2, the drum 3 and the main reservoir 4 are fixed in the frame 1. The flow chamber 5 with the valve system is fixed in the frame handle 1 with a screw 6 with a non-return valve. The gas passage 7 from the chamber 5 can be stepwise blocked by a fuse-regulator 8, which is a cylinder with a through radial hole, moving perpendicular to the plane of the frame with a position fixing device 9 (for example, in the form of a spring ball) controlled by the thumb.

The drum 3 is rotated by pressing the trigger 10 spring-loaded dog 11, movably mounted on the trigger 10.

Simultaneously, the trigger 10 interacts with the spring-loaded retainer of the drum 12, which in turn through the connecting rod 13 interacts with the safety lever 14 of the fuse 15. The leading end 16 of the trigger 10 interacts with the spring-loaded movable sear 17, mounted on the hammer 18 with the mainspring 19, movably located in the groove of the handle of the frame 1. At the end of the handle of the frame 1 is a spring-loaded lever 20, one shoulder of which with the striker 21 abuts against the start valve of the flow chamber 5 (see Figure 1). The end 16 of the trigger 10 can interact with a spring-loaded fuse 22, interacting with his tooth with the groove of the hammer 18.

The revolver works as follows. Through the filling check valve in the screw 6, the flow chamber 5 and the tank 4 are charged with compressed gas. Gas from chamber 5 passes into reservoir 4 through a channel in a frame not shown in FIG. The axis 23 of the drum 3 is freed in the usual manner in revolvers, the drum 3 is reclined on the holder of the drum 24 and its chambers are charged with bullets. When you press the trigger 10, the dog 11, interacting with the ratchet of the drum, rotates it, combining the drum chamber with the bullet and the barrel 2. When the trigger starts and the drum begins to turn, the latch 12 interacting through the connecting rod 13 with the lever 14 turns it and puts a fuse 15 opposite the striker 21, preventing the striker 21 from striking the start valve of the chamber 5 until the drum chamber coincides with the barrel in case of a failure of the sear 17 from the end 16 of the trigger until the drum chamber coincides with the barrel. At the same time, the end 16, interacting with the sear 17, cocks the firing pin 18, which compresses the mainspring 19. When the drum chamber is fully aligned with the barrel, the latch 12 fixes the drum simultaneously through the connecting rod 13 and lever 14, releasing the fuse 15 from the hammer 21, allowing it to strike the start valve of the chamber 5. At the same time, the end 16 begins to interact with the fuse 22, taking his tooth away from the safety groove of the hammer 18, allowing it to move to the lever 20. At the end of the movement of the end 16 due to its curvilinear movement, he moves from the sear 17, while the striker 18, under the action of the cocked war spring 19, strikes the shoulder of the lever 20, which, turning on its axis, strikes with the shoulder 21 the trigger valve of the chamber 5. After firing under the action of its spring, the lever 20 is set to its initial position, while at the same time setting the firing pin 18 in its initial position. Fuse 22 serves to exclude the possibility of spontaneous firing, while dropping a weapon, holding the mass of the firing pin 18 from the possibility of delivering an inertial strike lever 20 until the trigger is fully depressed.

When releasing the trigger 10, its end 16 descends to the sear 17, squeezing its spring, while the whisper 17 again jumps to the end 16 of the hook 10. At the same time, the dog 11 falls, squeezing its spring and, under its action, jumps onto the next tooth of the ratchet drum 3. During this time, chamber 5 is charged with a new portion of compressed gas through a channel in frame 1. The shot can be repeated.

As a reservoir 4, a “pistol balloon” is used, standard for foreign sports pneumatic weapons, with a working pressure of up to 250 atm. The fuse-regulator 8 may block the channel 7 in whole or in part. In the case of partial overlapping of channel 7, firing is carried out with a reduced shot energy for training firing or in the case of the use of traumatic rubber ammunition. The threaded hole 25 is used to attach the stock tank.

On Fig shows a revolver according to item 21, item 23, item 24 of the claims. The device and the principle of operation does not differ from the revolver in Figs. 12 and 13 except that for the use of special bullets of large caliber (for example, heavy rubber or sub-caliber armor-piercing) with a significant thickness of the frame, which prevents the charging of the drum chamber through the hinged door, to achieve maximum the degree of obturation to prevent leakage of compressed gas through the movable interface of the drum and barrel, drum and channel 7, the drum 3 has a rigid mount and is charged by bullets through the barrel of the revolver. The passage of gas from the reservoir 4 to the chamber 5 is carried out through the axis 26 of the drum 3 through the channel 27.

The gas passage 7 from the chamber 5 can be stepwise blocked by a fuse-regulator 28 rotating in the frame 1 with a position fixing device (for example, in the form of a spring ball), controlled by the thumb of any hand with a spoke 29, which externally simulates the trigger of a revolver. The charging of the tank 4 is carried out through the connecting hole 30 with a check valve.

Claims (27)

1. Combat pneumatic weapons containing a frame with a retention handle, a barrel, a casing-bolt or a bolt with a return spring, a magazine located in the handle, the main reservoir with compressed gas, a combat flow chamber, a combat valve, trigger mechanism (trigger) comprising a trigger, characterized in that it is equipped with a combat valve system of an indirect-action pneumatic cartridge located in the handle of the weapon and made combined with a combat expendable chamber having a bore for communication with the barrel through the gate and connected to the main reservoir through the bore, the lever-type shock or pressure element of the trigger-type trigger is located at the end of the handle and is made with the possibility of mechanical action on the trigger or valve of the valve system, the store is located along the combat flow chamber of the valve system, the barrel is located inside the main tank connected to the frame, the return spring is located inside the shutter casing or the shutter case casing, and the weapon is equipped with a safety system that blocks shock or push trigger element when unlocked gate. 2. The weapon according to claim 1, characterized in that the trigger-type trigger element of the trigger type is made capable of being disconnected from the pusher, rod or trigger of the descent due to the use of the energy of the compressed gas portion of the pneumatic cartridge valve system used to open the combat valve to release gas into the atmosphere after uncoupling the lever trigger element of the trigger with a pusher, rod or trigger of the descent. 3. The weapon according to claim 1, characterized in that the lever-type trigger element is made with the possibility of separation from the pusher, traction, or trigger of the trigger due to the energy of the shutter recoil. 4. The weapon according to claim 1, characterized in that the barrel is floating, rigidly hermetically fixed at one end of the main tank and movably-tight at the other end of the tank. 5. The weapon according to claim 1, characterized in that the barrel is provided on the outer generatrix with reinforcing stiffening ribs in the form of concentric thickenings or longitudinal protrusions, or screw protrusions, or combinations thereof. 6. The weapon according to claim 1, characterized in that the main reservoir is provided on the inner generatrix with reinforcing stiffening ribs in the form of concentric thickenings or longitudinal ribs, or screw protrusions, or combinations thereof. 7. The weapon according to claim 1, characterized in that the barrel and the tank are equipped with a floating mechanical lock or locks connecting them in the center of the lengths, or segments so that their mutual elastic deformation from the action of gas pressure in the tank is mutually compensated. 8. The weapon according to claim 1, characterized in that at the end of the barrel or at the barrel end of the main tank there is a threaded or crack seat for attaching a barrel extension or silencer for the shot sound, and a place for hydraulic with a check valve is provided on the frame or handle of the frame and mechanical connection of an additional stock tank. 9. The weapon according to claim 1, characterized in that it is equipped with a fuse-regulator of shot energy, made in the form of a cylinder with a gas perpendicular to the cylinder forming a gas bore, rotating in the frame using a spoke on the side surface of the frame or moving perpendicular to the plane of the frame using the button with partial or complete overlapping of the passage hole during rotation or movement perpendicular to the plane of the frame. 10. The weapon according to claim 1, characterized in that it is equipped with a safety system when the trigger is not fully depressed. 11. The weapon according to claim 1, characterized in that the main tank is removable. 12. The weapon according to claim 1, characterized in that it is provided with a free movable casing-shutter moving along the guides of the frame with a return spring located inside the casing-shutter on a guide rod fixed at one end in the frame or end of the tank, in the frame coaxially with a tubular crane shutter is rotated around its axis by an angle from 90 to 270 ° with a hole in the wall for the passage of gas from the combat consumable chamber and a window for supplying bullets from the magazine into the shutter, movable-tight inside the shutter tube a leading driving piston rigidly connected to the shutter housing, while the leading piston or shutter housing is provided with a carrier that interacts with a longitudinal copy screw slot or groove on the outer or inner surface of the shutter tube. 13. The weapon according to claim 1, characterized in that it is provided with a forcefully locking barrel with a shutter with a feed-through pipe located coaxially with the barrel with a hole in the wall for gas to pass from the combat supply chamber and a blank end with a movable pusher disconnector combat stop, the shutter is made with the possibility of movement in the bolt housing of the frame and locking with a movable spring-loaded combat stop placed in the frame and unlocking with a pusher disconnector interacting with the gas piston and with a return spring AZOV motor disposed in a frame and receives the selection of the energy of the compressed gas weapon barrel shutter drive gazovod connecting the gas sampling point of the weapon barrel and the gas motor disposed in the housing gate portion, extends outside or inside the main tank. 14. The weapon according to claim 1, characterized in that it is equipped with a tubular crane shutter, rotated around its axis by an angle of 90 to 270 °, fixed in a frame coaxially with the barrel, with an opening for the passage of gas from the combat supply chamber, a window for supplying bullets from the store inside the shutter, inside the shutter cylinder there is an unloading rod rigidly connected to the frame, a gas piston with a return spring of the shutter drive gas engine located in the frame and equipped with a carrier interacting with a longitudinal copy screw slot or groove on the surface of the shutter tube gazovod connecting the gas sampling point of the weapon barrel and the gas motor disposed in the housing gate portion, extends outside or inside the main tank. 15. The weapon according to claim 1, characterized in that it is equipped with a longitudinally moving and rotating in the frame, a forcefully locking bolt with a feed-through pipe located coaxially with the barrel, with an opening in the wall for gas passage from the combat flow chamber, the bolt is equipped with a combat locking protrusion or protrusions interacting with the reciprocal grooves of the frame or barrel, and is configured to lock and unlock when interacting with the gas piston, with the return spring of the gas engine gate actuator receiving energy th selection compressed gas from the weapon barrel, gazovod connecting the gas sampling point of the weapon barrel and the gas motor disposed in a housing part extends outside the gate or inside the main tank. 16. The weapon according to claim 1, characterized in that it is provided with a free movable casing-shutter moving along the guides of the frame, with a return spring located inside the casing-shutter on a guide rod fixed at one end in the frame or end of the tank, the casing-shutter equipped with a feed-through nozzle located coaxially with the barrel, with an opening in the wall for the passage of gas from the combat expendable chamber and a device that prevents double bullet penetration into the barrel by blocking the supply of the next bullet into the barrel after the first pool is retransmitted and and by unlocking the supply of the next bullet into the barrel during the shot, or by blocking the shutter travel after the first bullet is fed into the barrel and by unlocking the shutter during the shot. 17. The weapon according to clause 16, characterized in that the device that prevents double bullets from being released by blocking the shutter travel after the first bullet is fed into the barrel and unlocking the shutter during the shot is made in the form of a two-shouldered lever that can be rotated on an axis fixed in the casing a shutter interacting with the front shoulder with a tooth with a groove in the frame, and having the ability to interact with a slider arranged with the possibility of longitudinal movement in the shutter casing, having a protrusion extending in the feed-through pipe, and INNO-pressure member cooperating with the lever when opening the gate, biasing its front shoulder and unloading front shoulder when shooting. 18. The weapon according to clause 16, characterized in that the device that prevents double bullets from being released by blocking the shutter travel after the first bullet is fed into the barrel and unlocking the shutter during the shot is made in the form of a spring-loaded or free two-shouldered lever that can be rotated on an axis fixed in the frame or end of the main tank, while one shoulder of the lever interacts with a bullet located in the pool entrance, and the other shoulder, having a tooth with a straight or beveled working surface, interacts with a cut or chkoy in the casing or the gate-feeding-pass pipe. 19. The weapon according to clause 16, characterized in that the mating surfaces of the frame and the shutter housing that are movable relative to each other are provided with gas outlets or grooves (risks) for bleeding gas forming a gas cushion between them. 20. Combat pneumatic weapon containing a frame with a handle, a barrel, a drum, a system for fixing the drum during firing, the main reservoir with compressed gas, a combat flow chamber, a combat valve, a trigger mechanism (trigger), containing a trigger, characterized in that in the handle there is a combat valve system of an indirect-action pneumatic cartridge, which is made combined with a combat expendable chamber, having a through hole for its communication with the drum chamber, and connected to the main gas through hole a reservoir located along the barrel and connected to the frame, the shock or pressure element of the trigger mechanism of the lever type is located at the end of the handle and is made with the possibility of mechanical action on the trigger organ or valve of the valve system. 21. The weapon according to claim 20, characterized in that the main tank is removable. 22. The weapon according to claim 20, characterized in that the trigger-type trigger element of the trigger type is made capable of being disconnected from the pusher or the descent pull due to the energy of a portion of the compressed gas of the pneumatic cartridge valve system used to open the combat valve and released into the atmosphere after opening the combat valve and separation of the lever trigger element of the trigger with a pusher or pull rod. 23. The weapon according to claim 20, characterized in that it is equipped with a fuse-regulator of the energy of the shot, made in the form of a cylinder with a through radial hole that moves perpendicular to the plane of the frame and rotates in the frame using a spoke or moves perpendicular to the plane of the frame using a button with a partial or full overlapping of the passage hole during rotation, or moving perpendicular to the plane of the frame. 24. The weapon according to claim 20, characterized in that the barrel is located inside the main tank parallel to its axis and is equipped with reinforcing stiffening ribs in the form of concentric thickenings or longitudinal protrusions, or screw protrusions, or combinations of hardening. 25. The weapon according to claim 20, characterized in that it is equipped with a safety system when the drum chamber is not aligned with the barrel. 26. The weapon according to claim 20, characterized in that it is equipped with a system for protecting against accidental shots when the trigger is not fully depressed. 27. The weapon according to claim 20, characterized in that at the end of the barrel it is equipped with a threaded or cracker connection for attaching a barrel extension or a silencer for firing a shot, and on the frame or frame handle there is a place for hydraulic with a non-return valve and mechanical connection of an additional butt tank .

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