RU2090819C1 - Automatic small arms - Google Patents

Abstract

FIELD: automatic small arms with gas escape. SUBSTANCE: arms has a barrel with a housing and ejector fitted on it from the breech to the gas chamber. Positioned on top the housing is a carrying handle forming a strength triangle with the housing. The handle is U-shaped. Positioned between the gas escape tube and housing is a shield-dissector. The gas chamber has holes communicating with the ejector ducts. The barrel has ribs, whose adjacent sides are made at an angle of 90 deg. (minimum) to each other. EFFECT: improved design. 7 cl, 4 dwg

Description

 The invention relates to defense technology and is aimed at improving automatic small arms that operate in an intense automatic mode, in particular machine guns.

 The main disadvantage of such weapons is: insufficient accuracy and accuracy of fire when heating the trunks, insufficient survivability of the latter.

Deterioration of accuracy and accuracy of fire occurs as a result of:
1) optical distortion caused by ascending flows of air heated from the barrel passing through the line of sight causing an optical effect in the form of moving the image of the target (target) relative to its actual position. This drawback interferes with aimed fire;
2) uneven heating of the barrel and, consequently, its curvature towards a less heated surface;
3) the location of the bipod on the gas tube, which reduces the support base of the shooter-weapon system and makes it sensitive to lateral movements of parts of the shooter’s body during firing under the influence of recoil force.

 The disadvantages of this type of weapon include the lack of survivability of its barrel, which leads to the need to have a second barrel in the machine gun kit.

 Improving the accuracy of firing of single machine guns can be achieved by increasing the support base of the machine gun by placing bipods on the muzzle (like a Kalashnikov light machine gun). For heavier single machine guns of the PKM type, this is impossible without additional strengthening of the bending strength in the heated state. A simple strengthening of the bending strength of the barrel by increasing the thickness of its walls leads to an unjustified increase in the weight of the barrel.

 The closest analogue to the claimed is a modernized Kalashnikov machine gun (PKM) [1] This machine gun has the above disadvantages.

 The aim of the invention is to increase the accuracy and accuracy of fire weapons, the stability of the battle during the shooting process and increase the survivability of the trunks.

 This goal is achieved by the fact that in a weapon containing a barrel, a receiver, locking, trigger, cartridge-feeding and return mechanisms, a gas chamber, holding elements, a barrel and an ejector are put on the barrel. The casing is located in the area from the breech to the gas chamber, and the ejector in the section from the gas chamber to the muzzle.

 At the same time, a handle for carrying weapons is made on the casing, forming a power triangle with the casing. On the casing there are windows for supplying cooling air from below and for removing hot air from the casing up due to natural convection.

 To eliminate the effect of moving the image of the target, the handle having a jelly-like shape is located so that it covers the upper windows of the casing and thereby dissects the upward flow of heated air, protecting the aiming line from optical distortions caused by the non-uniformity of the refractive index in the upward flow of heated air.

Adjacent edges of the ribs on the trunk are located at an angle of not less than 90 ^o , which eliminates the possibility of re-emission of heat from one rib to another, which is especially important when the trunk is heated strongly, when the main heat transfer is carried out by radiation.

 The proposed design allows to increase the stiffness of the barrel in bending, especially in the vertical plane, which allows you to position the bipod on the muzzle and prevent the warmed up barrel from bending up when firing from the bipod and down when firing from the machine.

 This design dramatically reduces the harmful effects of barrel vibration on accuracy in automatic firing.

 In addition, the handle, the casing and the ejector are a screen for precipitation, excluding intensive vaporization, and also protect the barrel from uneven cooling by a crosswind, reducing side thermal leashes.

 The location of the casing, handle, ejector and cooling ribs ensures the alignment of the thermal field of the barrel, eliminating local overheating, causing premature loss of survivability of the trunks of the prototype. Moreover, each of the mentioned parts performs 4-5 functions, which makes it possible to rationally use the mass of metal.

 Achieving similar results due to a direct increase in the wall thickness of the trunks would require a 4–5 times larger increment in the mass of the sample.

 Thus, the proposed design allows to improve the accuracy and survivability of the barrel up to 2 times with a decrease in the total weight of the machine gun compared to RMB with a spare barrel by 1.5-1.7 kg.

 To reduce the temperature of the barrel at the gas outlet in the gas chamber, air-shaped openings are connected to the air ducts of the ejector. This can significantly increase the efficiency of barrel cooling in one of the most vulnerable places in the gas outlet and thereby increase the survivability of the barrel.

 Further, the invention is illustrated by drawings. Figure 1 shows an example of a weapon according to the invention. In FIG. Figures 2 and 3 show a section in two places of the barrel with a casing put on it; Fig. 4 is a section through the gas chamber of the barrel.

 The weapon can be made in the form of a single machine gun, depicted in FIG. 1. As shown in FIG. 1, it contains a barrel 1 with a casing 2 worn on a neg and an ejector 3. On the casing 1 there is a handle 4 for carrying weapons on top. It forms a power triangle with the casing 2 to increase rigidity and ensure a minimum mass of the casing and the barrel.

 Under the barrel there is a gas pipe 5 connected to the gas chamber 6, and on the muzzle of the barrel mounted bipod 7 and the front block.

 The handle 4 has a gutter-shaped shape (see FIGS. 2 and 3).

 Windows 8 and 9 are made on the casing 2. At the same time, the width of the upper window 8 is such that it is blocked by the handle 4. Between the gas exhaust pipe 5 and the casing 2, a shield 10 is placed to prevent the steady-state convective flow of heated gases from the gas tube from entering the inlet of the casing 2 and on the trunk. In the process of firing during the movement of the shooter-weapon system and with the slightest crosswind, the effectiveness of the shield-diffuser 10 increases sharply.

 On the gas chamber 6, as shown in FIG. 4, there are made air intake openings 11 connected to the air ducts of the ejector 12.

The barrel is ribbed to increase the area of the cooling and radiating surface. Moreover, for effective cooling of the barrel at high temperatures, when the cooling is carried out mainly by radiation, the adjacent sides of adjacent ribs on the barrel are made at an angle of not less than 90 ^o C.

 During firing, the hot air flowing from the upper windows 8 bends around the handle 4 without stirring the air located on the aiming line.

 Moisture from precipitation does not directly reach the barrel without creating optical interference in the form of a heated barrel.

 Gunpowder gases flowing from the barrel carry air in the gap between the barrel and the ejector body. At the same time, air from the environment enters the air collection openings 11 located on the gas chamber, cooling primarily the most heated section of the barrel at the gas outlet.

Claims (7)

 1. Automatic small arms containing a barrel, a receiver, locking, trigger, cartridge-feeding and return mechanisms, a gas chamber, holding elements, one of which is made in the form of a carrying handle, characterized in that it has a barrel in the section from breech to the gas chamber is wearing a hollow casing, on which is mounted a carrying handle, made in such a way that forms a power triangle with the casing.  2. The weapon according to claim 1, characterized in that in it on the barrel from the gas chamber to the muzzle there is an ejector.  3. The weapon according to claim 2, characterized in that in it in the gas chamber holes are made, communicating with the air intake channels of the ejector.  4. The weapon according to claim 1, characterized in that the casing is made of windows, the upper of which is blocked by a handle.  5. The weapon according to claim 1, characterized in that the handle is grooved. 6. The weapon according to claim 1, characterized in that the barrel is made of ribs, and adjacent sides of adjacent ribs are made at an angle of at least 90 ^{o to} each other.  7. The weapon according to claim 1, characterized in that. that a shield is located between the casing and the gas pipe.

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