RU2202751C2 - Muzzle piece - Google Patents

Abstract

FIELD: small arms, specifically, design of muzzle pieces for small arms. SUBSTANCE: muzzle piece has body with rear part of intake chamber housing expansion chambers and bullet passage formed by elements of identical configuration placed in sequence and cover carrying front part of exhaust chamber and bullet hole. Spaces of expansion chambers are torus-shaped with conical gas separators forming inlet spiral-shaped sections in cross-section. Shapes of spaces of expansion chambers are formed by elements installed in pairs, intake chamber is formed by base of body and one element and exhaust chamber is formed by one element and cover. EFFECT: diminished sound and recoil energy, increased density of hits, elimination of muzzle flash. 3 cl, 3 dwg

Description

 The invention relates to small arms, in particular to the design of muzzle devices for small arms.

 Known muzzle device "5.45 mm Nikonov automatic machine AN-94" (RF patent 2110745, IPC 6 F 41 A 5/00, 7/00, 9/00, F 41 C 7/00, 06/05/97) containing expansion and exhaust chamber, bullet hole. In the expansion chambers of this device, a rotation of the gas stream is created, which breaks the steady outflow of the main stream of gases, preventing the exit of gases through the bullet hole.

The disadvantages of this device are:
- the asymmetric effect of gases on the bullet passing the expansion chamber, deflects it towards the lowest pressure;
- deflection of the bullet contribute to the non-perpendicular axis of the bullet hole of the wall of the inlet and outlet openings of the expansion chambers;
- deviation of the bullet during the passage of the muzzle device inevitably leads to a deterioration in the accuracy of fire of weapons in proportion to the number of expansion chambers.

 The closest in technical essence and the achieved technical result is the muzzle device of the company "Heckler and Koch GMBH" (German patent 4231183, IPC F 41 A 21/30, 03/31/94), including a housing containing an inlet, expansion chambers and a bullet channel formed sequentially arranged elements of the same configuration, and a cover containing an exhaust chamber and a bullet hole.

The disadvantages of this device are:
- independent fastening of elements to each other with the help of a thread, as a result of which errors from misalignment tolerances in the manufacture of individual elements are summarized, which inevitably leads to a curvature of the device axis and deterioration of the accuracy of firing in proportion to an increase in the number of elements;
- the expansion chambers of the device represent dead-end zones (settlers) for gases, which do not allow the energy of the gases accumulated in the chambers to be used to counteract the outflow of the main stream of gases, which reduces the efficiency of sound suppression.

 The task of the invention is the creation of a muzzle device with the highest possible degree of silencing, providing a reduction in the return of weapons and the complete elimination of the muzzle flame.

 To accomplish this task, the muzzle device includes a housing with a rear part of the inlet chamber, containing expansion chambers and a bullet channel formed by successive elements of the same configuration, and a cover containing the front part of the exhaust chamber and a bullet hole.

 New in the device is that the cavities of the expansion chambers are made in a toroidal shape with conical gas cut-offs forming inlet cross-sections in cross section, while the cavity shapes of the expansion chambers are formed by pairwise installed elements, the inlet chamber is formed by the housing base and one of the elements, and the exhaust chamber - one of the elements and a cover.

 The technical result provided by the invention is expressed in reducing sound, reducing recoil energy, increasing accuracy of fire of weapons and eliminating muzzle flame.

The invention is illustrated by drawings, which depict:
figure 1, 3 - muzzle device;
figure 2 - remote element A.

 The muzzle device comprises a housing 1 filled with elements 2 of the same configuration installed in the housing 1 sequentially one after another. At the same time, on one end surface of the element, the front part 3 of the expansion chamber 4 with the gas cutoff 5 is made, and on the opposite end surface, the rear part 6 of the expansion chamber 4. Elements 2 are oriented by the front part 3 of the expansion chamber 4 towards the movement of the bullet. Each element contains an expanding bullet hole 7, which form the bullet channel 8. The gas cutter 5 of the element 2 is made in the form of a cone 9, conjugated with a toroidal cavity 10, forming spiral sections 11 of the expansion chamber 4. The first element 2 and the radius annular recess 12 in the housing 1 form the inlet chamber 13. The last element 2 and the annular recess 14 in the cover 15 form the exhaust chamber 16.

 The operation of the device is as follows.

 During the shot, the gases following together and behind the bullet through the bullet hole 7 are repeatedly cut off from the bullet by the gas cutter 5, which is made in the form of a cone 9, conjugated with a toroidal cavity 10 with the formation of a spiral-shaped portion 11 at the entrance. Gases entering the toroidal cavity 10 of the expansion chamber 4, unwind along the radius surface of the torus and, almost without losing speed, cut across the motion of the main gas flow, converting the laminar motion of the main flow into a turbulent chaotic motion, which achieves a sharp decrease in the velocity of the outflow of gases and, accordingly, sound pressure.

 The decrease in sound level occurs due to a significant decrease in the pressure of gases flowing from the muzzle device.

 The speed of the gas stream, repeatedly cut off in the expansion chambers 4, is reduced due to the expansion and cooling of the gas. As a result of this, the pressure of the gas jet on the bullet is reduced, that is, the negative effect of the gases on the bullet during the aftereffect is reduced, which positively affects the accuracy of fire of the weapon.

 The decrease in the recoil energy of the weapon after the shot occurs as a result of the fact that when the gas jet is repeatedly hit in the front parts 3 of the elements 2, the resulting force appears that counteracts the recoil of the weapon.

 The elimination of the muzzle flame occurs partly due to the combustion of the powder particles during prolonged rotation of the gases in the expansion chambers 4 and partly due to the cooling of the hot particles of the powder in contact with the cold walls of the expansion chambers.

 Thus, the proposed muzzle device allows to reduce the rate of gas outflow and, accordingly, sound pressure and sound level, reduce recoil energy, increase the accuracy of fire and completely eliminate the muzzle flame.

Claims (4)

 1. The muzzle device for small arms, comprising a housing with a rear part of the inlet chamber, comprising expansion chambers and a bullet channel formed by successively arranged elements of the same configuration, and a cover containing the front part of the exhaust chamber and a bullet hole, characterized in that the cavities of the expansion chambers are made toroidal shape with conical gas cutoffs, forming in the cross section inlet spiral sections.  2. The muzzle device according to claim 1, characterized in that the cavity forms of the expansion chambers are formed by pairwise installed elements.  3. The muzzle device according to claim 1, characterized in that the configuration of the cavity of the inlet chamber is formed by the base of the housing and one of the elements.  4. The muzzle device according to claim 1, characterized in that the configuration of the cavity of the exhaust chamber is formed by one of the elements and the lid.

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