RU2077689C1 - Firearm - Google Patents

Abstract

FIELD: firearms to fire both live and dummy ammunition. SUBSTANCE: firearm has carrier, barrel, trigger mechanism, firing mechanism, cartridge-feeding mechanism, reloading mechanism. Live cartridge with case and live bullet is moved into cartridge chamber to fire live ammunition. Separable inserted barrel with members to lock it in standard barrel which can be made in the form of supporting collars side of breech part of inserted barrel interacting with thrust protrusion of cartridge chamber and bearing nut put on inserted barrel from muzzle part is installed. Supporting collar can be made on muzzle part of inserted barrel interacting with muzzle face of standard barrel and coupling nut put on standard barrel. Breech part of bore of inserted barrel has geometrical closing with cartridge chamber of standard barrel has to accommodate dummy cartridge. Diametrical dimensions of which case coincide with dimensions of live cartridge. Easily deformed dummy bullet has caliber D_a.b. Diameter of bore of inserted barrel is equal to (0.6-0.8)D_a.b. EFFECT: enhanced functional reliability, expanded application field. 5 cl, 6 dwg

Description

 The invention relates to small arms, namely, to a semi-automatic or automatic firearm for firing both live ammunition and training.

Known insertion barrel for smooth-bore weapons, containing a tubular body with external abutment surfaces. In the housing there is a chamber of a caliber of a smaller caliber of the main weapon cartridge, a guiding part of the barrel bore and, coupled with the chamber, the inlet conical part of the barrel [1]
This barrel is designed for single-shot hunting weapons. In case of using it in a semi-automatic or automatic firearm, it is required to use a special cartridge-feeding mechanism, different from the standard one, for a cartridge of a smaller caliber, which greatly complicates the design of the weapon. In addition, the impulse of the action of powder gases on the bottom of the cartridge case when fired by a cartridge of a smaller caliber may not be sufficient to trigger automation.

 Known firearms with automatic equipment retractable type (US patent N 3418741, NKI 42-77). This weapon has reloading mechanisms and a barrel with a chamber. In addition, it is equipped with an additional replaceable barrel, in which the chamber is made for a training cartridge with a bullet of thermoplastic material with a caliber equal to the caliber of live cartridges, and the bullet entrance in the chamber and the channel diameter are significantly smaller than the caliber of the bullet. The narrowing of the bore is chosen so as to create the necessary resistance to the thermoplastic pool, providing the pressure necessary to trigger the mechanisms of automatic weapons. The supply of weapons with interchangeable interchangeable barrels allows firing from weapons as live ammunition and training without changing the cartridge-feeding mechanism.

 This weapon has several disadvantages. The implementation of weapons with interchangeable barrels does not allow the use of full-time military weapons (without interchangeable barrels) for firing for training purposes without reworking them. The design of the interchangeable barrel for the training cartridge does not allow to separately regulate the impulse of powder gases to the bottom of the sleeve, which ensures the normal operation of automation, and the muzzle pulse of the training bullet, which ensures the satisfaction of injuries for training bullets.

 A convertible large-caliber automatic firearm is known, which is taken as a prototype [2] This firearm contains a frame, a cartridge-feeding mechanism, a reloading mechanism, a trigger mechanism, a standard barrel with a chamber and an auxiliary barrel with elements for fixing it in a standard barrel. An inset barrel with its chamber allows you to shoot with this firearm cartridges with a smaller caliber than the standard performance of this weapon. At the same time, smaller-caliber cartridges are equipped with a consumable shell made with a persistent flange and a cylindrical part, which is installed in the breech of the insert barrel of the weapon.

 The disadvantages of this weapon include the complexity of the design when switching firing from one caliber to another, as well as the inability to use it for training purposes, under which two conditions would be satisfied at the same time: the normal operation of the automation and ensuring the requirements for injuries.

 The objective of the present invention is to enable the use of full-time weapons with a standard cartridge-feeding mechanism for firing both live and training ammunition without substantial alteration thereof, providing a quick transfer of weapons from combat to training and vice versa, providing conditions for injuries when firing training ammunition while maintaining the reliability of operation weapons automation.

The problem is solved in that in firearms with a free or semi-free bolt containing a frame, a cartridge feeding mechanism, reloading mechanisms, a trigger mechanism, a standard barrel with a chamber and a removable insert barrel with a channel smaller than the standard ammunition caliber and with elements for fixing it in a standard trunk, loose bore adapted with a form fit with the regular cartridge chamber of the barrel by a munition from an easily deformable bullet caliber _{uniformizing parameter} D , while the diameter of the channel of the insertion barrel is equal to (0.6-0.8) D _u.p. .

 For weapons for ammunition with a cylindrical sleeve based in the chamber along the front end of the sleeve, the elements of fixation of the insert barrel are made in the form of a support collar located on the outer surface of the insert barrel from the breech part interacting with the thrust protrusion of the chamber and a support nut mounted on insertion barrel from the side of its muzzle.

 For weapons with ammunition with a bottle sleeve based on the ramp, fixing elements of the insert barrel are made in the form of an external supporting profile surface of the insert barrel interacting with the conical supporting surface of the chamber, an internal profile surface under the ramp of the sleeve of the training cartridge, and a supporting nut mounted on the insert barrel from the side of its muzzle.

 If there is a threaded section on the outer surface of the muzzle of the regular barrel of the threaded section, the elements of fixation of the loose barrel are made in the form of a support flange on the side of its muzzle, interacting with the muzzle end of the regular barrel and a union nut mounted on the regular barrel.

Furthermore, in the channel gimp barrel from its breech portion configured filar equal length (0,4-1,0) D _{uniformizing parameter} And from the muzzle of the outlet section of length equal (0,2-1,0) D _u.p. At a distance from the breech, equal to (2-6) D _{uniformizing parameter} end-to-end longitudinal or helical slots are made in the insertion barrel for a length equal to (1.5-5) Du. width equal to the (0,1-0,2) D _{uniformizing parameter} .

 The invention is illustrated by drawings. In FIG. 1 shows a standard semi-automatic combat firearm (a pistol is shown as an example) with a live cartridge in the chamber, having a cylindrical sleeve; in FIG. 2 is a longitudinal section of a weapon with an inserted barrel placed in the barrel, a training cartridge in the chamber with a cylindrical sleeve and barrel mounting with a nut mounted on the muzzle of the barrel; in FIG. 3 is the same as in FIG. 2, but with a bottle sleeve; in FIG. 4 is the same as in FIG. 2, but with fastening of a loose barrel with a union nut mounted on a regular barrel; in FIG. 5 inset barrel; in FIG. 6 transverse dimension AA in FIG. 5.

As an example, which does not exhaust the possible options, a semi-automatic firearm is shown, a pistol containing a frame 1, a standard barrel 2, a trigger 3, a striking mechanism 4, a cartridge feeding mechanism 5, a conditional reloading mechanism 6. In the military version, in the chamber 7 of the standard barrel 2 is installed live cartridge 8 with a cylindrical sleeve with a diameter of D _p and a combat bullet caliber D _bp (figure 1). In the educational version, a removable barrel 9 is installed in the standard barrel 2. On the outer surface of the barrel 9 on the side of its breech side, a support shoulder 10 is made, which interacts with the thrust protrusion of the standard chamber 11, on the threaded muzzle 12 of the barrel 9, which protrudes beyond the end face of the standard the barrel, a nut 13 is installed with support in the muzzle end of the regular barrel 2. The breech of the channel of the supplementary barrel 9 is made with a geometric closure with the chamber 7 of the standard barrel 2 under the training cartridge 14 with a cylindrical sleeve Diameter equal to the diameter of the sleeve combat cartridge D _n and a length less than the length of the sleeve of live ammunition on the width of the support collar 10 gimp shaft 9 for a cylindrical sleeve or less in length dulcitol and slope combat cartridge case for bottled liner and easily deformable training bullet, such as rubber, caliber _{uniformizing parameter} D . If there is a threaded portion 15 on the outer surface from the muzzle part of the regular barrel, the supporting collar 10 of the insert barrel 9 is made on its muzzle. The supporting shoulder 10 is pressed against the muzzle end of the standard barrel 2 with a union nut 16. In this case, the breech of the channel of the supplementary barrel 9 is made with a geometric closure with the chamber of the standard barrel 2 under the training cartridge 14, the liner contours of which can coincide with the contour of the cartridge case liner, and easily deformable bullet caliber training _{uniformizing parameter} D equal to the caliber of a bullet of a live cartridge D _b.p. .

Gimp barrel bore diameter is selected to be (0,6- 0,8) D _{uniformizing parameter} . Furthermore, in the channel gimp barrel from its breech portion 17 executed filar equal length (0,4-1,0) D _{uniformizing parameter} And from the muzzle of the output portion 18 of length equal (0,2-1,0) D _{uniformizing parameter} .

Through the barrel 9 can be made through longitudinal (Fig. 4) or screw (Fig. 5) slot 19 for a length equal to (1,5-5) D _{U. p.} width (0,1-0,2) D _{uniformizing parameter} Consisting of the breech in the region equal to (2-6) D _{uniformizing parameter}
In combat performance (without an extra barrel), the weapon functions in a known manner and does not require additional explanations.

 For firing training ammunition with an easily deformable bullet for a weapon that does not have a threaded portion on the outer surface of the standard barrel, after partial disassembling of the weapon, a removable insert barrel 9 is inserted into the barrel bore 2 from the side of its breech section, which is fixed from longitudinal movements by fixing devices that may have various design. In this case, the fixing device is made in the form of an external supporting surface (supporting shoulder 10 or supporting conical surface, depending on the type of munition sleeve), made from the breech side of the insert barrel 9 on its outer surface, the outer threaded section 12, made on the muzzle the insertion barrel 9 and the nut 13 screwed onto the thread 12 as far as the stop in the muzzle end of the regular barrel 2.

 If the staff barrel of the weapon is equipped with an external threaded section, the insert barrel 9 can be installed on the side of the muzzle of the staff barrel 2 and fixed from longitudinal movements by a supporting shoulder 10 made on the muzzle of the barrel 9, which is pressed against the muzzle end of the staff barrel 2 with a union nut 16.

 After installing and fixing the barrel, the weapon is ready to fire in training mode.

 A slight decrease in the length of the chamber, formed by the geometric closure of the channel of the insertion barrel and the regular chamber, does not allow firing of live ammunition during the training performance of the weapon.

When firing a weapon with training cartridges with an easily deformable bullet, the latter begins to move forward under the influence of the pressure of the powder gases. When the bullet interacts with the launch site 17, it begins to be crimped, and the resistance to the movement of the bullet increases sharply. In this case, the pressure of the powder gases increases, the burning rate of the powder grains increases. After passing bullet lead-in portion of it gets to the bore diameter (0,6- 0,8) D _{uniformizing parameter} And a length in the cylindrical portion (2-6) D _{uniformizing parameter} resistance to movement of the deformed bullet is created due to high frictional forces elastically sdeformirovannoy bullets channel gimp barrel wall 9. Channel Selection gimp diameter shaft 9 from the range (0,6-0,8) D _{uniformizing parameter} allows you to provide a sufficiently high initial pressure of the powder gases. With the passage of a bullet of the cylindrical portion equal to (2-6) D _{uniformizing parameter} a predetermined value of the impulse of the pressure force of the powder gases to the bottom of the sleeve is provided, which is necessary for the automatic weapons to operate.

When a bullet passes the middle section of the channel of the supplementary barrel 9 with grooves 19, the powder gas flows along the grooves 19 into the pre-bullet part of the channel, while the pressure behind the bullet drops sharply and increases in front of the bullet, so the acceleration of the bullet drops sharply to a negative value due to the presence of friction. The length of the grooves is equal (1,5-5) D _{uniformizing parameter} and their width is equal to (0,1-0,2) D _{uniformizing parameter} , provide a drop in the velocity of the bullet to preset values, which, taking into account a further decrease in speed under the action of friction forces when passing through the bullet of the cylindrical and outlet section, ensure the traumatic functioning of the bullet. The outlet portion 18 gimp barrel length (0,2-0,5) D _{uniformizing parameter} the bullet expands in a controlled manner, taking its original size until it fully exits the barrel. Controlled expansion of the bullet output section 18 increases the accuracy of fire. When the grooves 19 are screwed, the bullet receives a certain angular rotation speed, which also increases the accuracy of fire.

 The proposed invention allows the existing standard firearms with a free or semi-free bolt (pistols, submachine guns, machine guns, etc.) to be used for training purposes for firing easily deformable bullets while ensuring the requirements for injuries, reliable operation of automation and without complex structural changes.

 The invention makes it easy to switch from combat to weapon training and vice versa. The invention can be widely used in training special forces soldiers to fully simulate a combat situation, when students in training can shoot automatic full-time weapons in an educational design with easily deformable bullets to kill, as well as for the physiological effect on offenders, which does not lead to serious injuries.

Claims (1)

1 1. A firearm containing a frame, a cartridge-loading mechanism, a reloading mechanism, a trigger mechanism, a regular barrel with a chamber and an extra barrel with fixation elements in a regular barrel, characterized in that the channel of the supplementary barrel is geometrically closed with a regular barrel chamber under ammunition with an easily deformed bullet caliber D <Mv> y. p <D>, while the diameter of the barrel of the insertion barrel is (0.6 0.8) D <Mv> up <D> .2 2. The weapon according to claim 1, characterized in that the fixation elements of the insertion barrel are made in in the form of a support flange on the side of its breech part, interacting with the thrust protrusion of the chamber, and a support nut mounted on an insert barrel from the side of its muzzle.2 3. The weapon according to claim 1, characterized in that the fixation elements of the insert barrel are made in the form of a support flange from the side of its muzzle, interacting with the muzzle end of the regular barrel and union nut, mounted on a regular barrel.2 4. Weapon according to claim 1, characterized in that in the channel of the inserted barrel from the side of its breech section, a lead-in section is made with a length equal to (0.4 0.6) D <Mv> at <D> < Mv>. <D> <Mv> n <D>, and from the muzzle part the output section is equal to the length of (0.2 1.0) D <Mv> y <D> <Mv>. <D> <Mv> n <D > .2 5. The weapon according to claim 1, characterized in that in the insertion barrel at a distance from the breech end, it is equal to (2 6) D <Mv> at <D> <Mv>. <D> <Mv> n <D >, through longitudinal or screw slots are made for a length equal to (1,5 5) D <Mv> at <D> <Mv>. <D> <Mv> n <D>, with a width equal to (0,1 0, 2) D <Mv> y <D> <Mv>. <D> <Mv> n <D>.

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