Swedish artillery. Self-propelled artillery unit FH77 BW L52 Archer. Sweden Equipment for Archer

For the needs of the Soviet army in the 30s of the last century, the Degtyarev-Shpagin DShK heavy machine gun was designed and put into production. The weapon had impressive combat qualities and was capable of fighting both light armored vehicles and aircraft.

Over its long existence, it was used in the Second World War (WWII), civil war in China, the Korean Peninsula, Afghanistan and Syria. Russian army long ago replaced it with more modern machine guns, but the DShK is still used by the armies of the world.

History of creation

In 1929, the Red Army (Workers' and Peasants' Red Army) used a good, but already quite strong, 7.62 mm cartridge to support infantry and fight enemy aircraft.

Machine guns large caliber did not exist in the USSR, so they decided to create this kind small arms. The task was entrusted to the gunsmiths of the Kovrov plant. It was recommended to use the developments applied in the DP (Degtyarev Infantry), but chambered for a larger caliber cartridge.

A year later, Degtyarev presented to the commission a 12.7 mm machine gun of his own design. For almost another year, modifications were carried out and various tests were carried out. In 1932, having successfully passed all the tests, the People's Commissariat accepted it into service. The machine gun went into production under the name DK. (Degtyarev Large-caliber.)

The reason for stopping serial production in 1935 was the low practical rate of fire, bulkiness and heavy weight of disk magazines.

Several gunsmiths began modernizing the design. One of them was Shpagin. He developed for DK new system feeding cartridges, a tape drive mechanism that fit into the place of the disk magazine receiver.

This reduced the size of the entire device. A new version The DK received the name DShK (Degtyarev-Shpagin Large-caliber) and in 1938 it was adopted by the USSR Army.

At the end of WWII, a successful attempt was made to modify the DShK. New model received the name DShKM. The main differences from the DShK heavy machine gun were in the method of supplying ammunition - a simplified slider tape receiver and a different type of tape itself.

Design

12.7 mm DShK machine gun fully automatic weapon. Shooting in other modes is not provided.

To control the shooting, there are 2 holding handles located on the breech of the machine gun, and triggers for firing are located on the back wall.

Sights could be replaced depending on the use of the machine gun. This could be an angle sight for firing at flying objects. To hit ground targets, they used a frame sight with a notch of up to 3.5 km.

The DK-DShK automation is almost completely similar to the earlier DP-27. The principle of removing powder gases from the barrel, with the impact of their energy on the piston bolt mechanism. The barrel is locked with lugs. Shooting is carried out from an open bolt, which increases the rate of fire of the machine gun.

To reduce recoil, the designers installed a chamber-type muzzle brake at the end of the barrel.

The barrel is monoblock, non-removable on the DK-DShK; in the later DShKM the barrel is removable. Mounted on a screw connection, this was necessary for quickly changing a heated barrel in combat conditions. One person at a time could change the barrel.

For better performance of the weapon and cooling of the metal of the barrel during intense shooting, transverse fins were made on its surface, which, according to the designers, contributed to its cooling during the firing process.

The DK machine gun was fed with ammunition from a 30-round disc magazine. But due to its bulkiness and inconvenience of use, it was decided to transfer the machine gun to belt ammunition.

The design of the tape drive unit was proposed by the famous designer Shpagin - it was a drum with 6 chambers, the first of which housed a cartridge in a tape link. The tape had a “crab” type link, which was the optimal solution for this particular method of feeding a cartridge.

When the drum was rotated, the cartridge came out of the belt link, but remained in the drum chamber; the next time the drum moved, the cartridge ended up near the chamber, where the bolt sent it. For manual reloading of the machine gun, a lever located on the right side was used. receiver, through rods it was connected to the drum and bolt.

The DShKM's method of feeding ammunition has changed; it has become a slider type.

The design of the belt has also changed; the link has become closed and more convenient to transport. In this case, the cartridge was first removed from the tape, and the tape was pulled further with a reverse movement. And the cartridge, falling down, was sent into the chamber.

The slider design of the shutter, without dependence on the drum of the tape transport mechanism, made it possible to throw the tape receiver from one side to the other. This made it possible to install the power system on either side of the weapon. Which led to the appearance of paired and quadruple modifications.

Shooting could be carried out with several types of projectiles. Basically, 12.7x108 mm cartridges with bullets were used for shooting:

• MDZ, incendiary, instant action;
• B-32, armor-piercing;
• BZT-44, universal, incendiary-tracer with a steel core;
• T-46, sighting and tracer.

Performance characteristics (TTX)

• Machine gun weight, kg: with Kolesnikov’s machine gun – 157/without – 33.5;
• Product length, cm: 162.5;
• Barrel length, cm: 107;
• Used projectile: 12.7*108 mm;
• Combat rate of fire, rounds per minute: 600 or 1200 (in anti-aircraft condition.);
• Bullet flight speed, initial: 640 – 840 meters per second;
• Maximum sighting range: 3.5 kilometers.

Combat use

In the technical specifications, the leadership of the Red Army ordered the designers to create a machine gun capable of performing wide range tasks. The first serious conflict in which the DShK was used was the Great Patriotic War.

The DShK was actively used in all units and branches of the military, both as an air defense system and as an independent or additional weapon for military equipment.

These weapons were supplied to the infantry at universal machine, developed by Kolesnikov.

In the transport position, the machine was equipped with wheels, which made it easy to transport; at the same time, for anti-aircraft shooting, the machine took the form of a tripod, and an additional angle sight for anti-aircraft shooting was additionally installed on the receiver.

Another important factor was the presence of an armored shield that protected against bullets and small fragments.

Rifle units used the DShK as a means of reinforcement; it is worth noting that the bulk of the DK machine guns transferred to the troops were subsequently converted into DShKs by replacing the magazine receiver with a Shpagin tape drum. Therefore, recreation center in the b/d was practically not used.

The main task of the DShK, however, was to combat air targets; this machine gun was actively used as an air defense weapon from its very birth, both on land, including by installation on armored vehicles, and in the navy, as an air defense weapon for large ships, and as a universal weapon for boats and small vessels.

After the war, the DShKM was mainly used as an air defense weapon and as a additional means reinforcements in the form of installation on armored vehicles.

DShK has been in existence for 81 years. And although it was removed from service back in the 70s of the last century. They don’t forget about DShK in the rest of the world. For example, in China they are still assembled under the Type - 54 label. DShKs are also produced in the Middle East. Even under a license received from the USSR, the production line for the creation of this machine gun has been established in Iran and Pakistan.

During the war in Afghanistan, “welding”, as the machine gun was nicknamed by those who worked with it, because of the reflections of the shots reminiscent of the shine of electric welding - the DShKM showed itself as an excellent weapon against helicopters and low-flying aircraft. In addition, it also worked well against lightly armored vehicles, armored personnel carriers and infantry fighting vehicles.

News videos from the Syrian Republic show that its army is actively using DShKM.

This machine gun deservedly took its place in popular culture. IN Soviet time There have been a lot of heroic films. There is a mention in art books and autobiographies about the DShK machine gun. With development information technologies can be found in huge quantities in computer games.

The DShK machine gun can be called a project of several gunsmiths. At first it was designed and modified by Degtyarev, later Shpagin joined this difficult process. All this led to the creation of an excellent heavy machine gun, which took part in almost all world conflicts.

Video

DShK (GRAU Index - 56-P-542) - heavy-caliber machine gun chambered for 12.7×108 mm. Developed based on the design of the large-caliber heavy machine gun DK. In February 1939, the DShK was adopted by the Red Army under the designation “12.7 mm Degtyarev-Shpagin heavy machine gun, model 1938.”

DShK machine gun - video

With the start of work on a machine gun with a caliber of 12-20 millimeters in 1925, it was decided to create it on the basis of a magazine-fed light machine gun in order to reduce the weight of the machine gun being created. Work began at the design bureau of the Tula Arms Plant on the basis of the 12.7-mm Vickers cartridge and on the basis of the German Dreyse (P-5) machine gun. The design bureau of the Kovrov plant was developing a machine gun based on the Degtyarev light machine gun for more powerful cartridges. A new 12.7-mm cartridge with an armor-piercing bullet was created in 1930, and at the end of the year the first experimental large-caliber Degtyarev machine gun with a Kladov disc magazine with a capacity of 30 rounds was assembled. In February 1931, after testing, preference was given to the DK (“Degtyarev large-caliber”) as easier to manufacture and lighter. The recreation center was put into service; in 1932, a small series was produced at the plant named after. Kirkizha (Kovrov), however, in 1933 only 12 machine guns were produced.

Military tests did not live up to expectations. In 1935, production of the Degtyarev heavy machine gun was stopped. By this time, a version of the DAK-32 had been created that had a Shpagin receiver, but tests in 1932-1933 showed the need to refine the system. Shpagin remade his version in 1937. A drum feed mechanism was created that did not require significant changes to the machine gun system. The belt-fed machine gun passed field tests on December 17, 1938. On February 26 of the following year, by resolution of the Defense Committee, they adopted the designation “12.7-mm heavy machine gun mod. 1938 DShK (Degtyarev-Shpagina large-caliber)” which was installed on the Kolesnikov universal machine. Work was also carried out on the DShK aircraft installation, but it soon became clear that a special large-caliber aircraft machine gun was needed.

The automatic operation of the machine gun was carried out due to the removal of powder gases. A closed gas chamber was located under the barrel and was equipped with a pipe regulator. The barrel had fins along its entire length. The muzzle was equipped with a single-chamber active-type muzzle brake. By moving the bolt lugs to the sides, the barrel bore was locked. The ejector and reflector were assembled in the gate. A pair of spring shock absorbers of the butt plate served to soften the impact of the moving system and give it an initial rolling impulse. A return spring, mounted on the gas piston rod, activated the impact mechanism. The trigger lever was blocked by a safety lever mounted on the buttplate (setting the safety to the front position).

Feeding – belt, feeding – from the left side. The loose tape, which has semi-closed links, was placed in a special metal box attached to the left side of the machine bracket. The bolt carrier handle activated the DShK drum receiver: while moving backward, the handle bumped into the fork of the swinging feed lever and turned it. A pawl located at the other end of the lever rotated the drum 60 degrees, and the drum, in turn, pulled the tape. There were four cartridges in the drum at a time. As the drum rotated, the cartridge was gradually squeezed out of the belt link and fed into the receiving window of the receiver. The shutter moving forward caught it.

The folding frame sight, used for firing at ground targets, had a notch of up to 3.5 thousand m in increments of 100 m. The machine gun's markings included the manufacturer's mark, year of manufacture, serial number (series designation - two-letter, serial number of the machine gun) . The mark was placed in front of the butt plate on top of the receiver.

During operation with the DShK, three types of anti-aircraft sights were used. The ring remote sight of the 1938 model was intended to destroy air targets flying at speeds of up to 500 km/h and at a distance of up to 2.4 thousand meters. The sight of the 1941 model was simplified, the range was reduced to 1.8 thousand meters, however possible speed the target being destroyed increased (along the “imaginary” ring it could be 625 kilometers per hour). The sight of the 1943 model was of the foreshortening type and was much easier to use, but allowed firing at various target courses, including pitching or diving.

The universal Kolesnikov machine of the 1938 model was equipped with its own charging handle, had a removable shoulder pad, a cartridge box bracket, and a rod-type vertical aiming mechanism. Fire at ground targets was carried out from a wheeled vehicle, with the legs folded. To fire at air targets, the wheel drive was separated, and the machine was laid out in the form of a tripod.

The 12.7 mm cartridge could have an armor-piercing bullet (B-30) of the 1930 model, an armor-piercing incendiary bullet (B-32) of the 1932 model, sighting and incendiary (PZ), tracer (T), sighting (P), against anti-aircraft guns targets, an armor-piercing incendiary tracer bullet (BZT) of the 1941 model was used. The armor penetration of the B-32 bullet was 20 millimeters normal from 100 meters and 15 millimeters from 500 meters. The BS-41 bullet, whose core was made of tungsten carbide, was capable of penetrating 20 mm armor plate at an angle of 20 degrees from a range of 750 meters. The dispersion diameter when firing at ground targets was 200 millimeters at a distance of 100 meters.

The machine gun began to enter service with the troops in 1940. In total, in 1940, plant No. 2 in Kovrov produced 566 DShKs. In the first half of 1941 - 234 machine guns (in total, in 1941, with a plan of 4 thousand DShK, about 1.6 thousand were received). In total, as of June 22, 1941, the Red Army units had about 2.2 thousand heavy machine guns.

From the first days of the Second World War, the DShK machine gun proved itself to be an excellent anti-aircraft weapon. So, for example, on July 14, 1941, on the Western Front in the Yartsevo area, a platoon of three machine guns shot down three German bombers; in August, near Leningrad in the Krasnogvardeisky area, the Second Anti-Aircraft Machine Gun Battalion destroyed 33 enemy aircraft. However, the number of 12.7-mm machine gun mounts was clearly not enough, especially considering the enemy's significant air superiority. As of September 10, 1941, there were 394 of them: in the Oryol zone air defense– 9, Kharkov – 66, Moscow – 112, on the South-Western Front – 72, Southern – 58, North-Western – 37, Western – 27, Karelian – 13.

Since June 1942, the staff of the anti-aircraft artillery regiment of the army included a DShK company, which was armed with 8 machine guns, and since February 1943 their number increased to 16 units. The anti-aircraft artillery divisions of the RVGK (Zenad), formed since November 42, included one such company per anti-aircraft small-caliber artillery regiment. Since the spring of 1943, the number of DShKs in Zenad decreased to 52 units, and according to the updated state of the 44th in the spring, Zenad had 48 DShKs and 88 guns. In 1943, small-caliber regiments were introduced into the cavalry, mechanized and tank corps anti-aircraft artillery(16 DShK and 16 guns).

American infantrymen fire from a DShKM on a Romanian URO VAMTAC during joint US-Romanian maneuvers, 2009

Typically, anti-aircraft DShKs were used by platoons, often included in medium-caliber anti-aircraft batteries, using them to provide cover from air attacks from low altitudes. Anti-aircraft machine gun companies, armed with 18 DShKs, were added to the staff of rifle divisions at the beginning of 1944. Throughout the war, losses of heavy machine guns amounted to about 10 thousand units, that is, 21% of the resource. This was the smallest percentage of losses in the entire system. small arms, however, it is comparable to losses in anti-aircraft artillery. This already speaks about the role and place of heavy machine guns.

In 1941, as German troops approached Moscow, backup factories were identified in case Factory No. 2 stopped producing weapons. The production of DShK was carried out in the city of Kuibyshev, where 555 devices and machines were transferred from Kovrov. As a result, during the war, the main production took place in Kovrov, and “duplicate” production took place in Kuibyshev.

In addition to easel ones, they used self-propelled units with DShK - mainly M-1 pickups or GAZ-AA trucks with a DShK machine gun installed in the body in the anti-aircraft position on the machine. "Anti-aircraft" light tanks on the T-60 and T-70 chassis further prototypes no progress. The same fate befell the integrated installations (although it should be noted that the built-in 12.7-mm anti-aircraft installations were used to a limited extent - for example, they served in the air defense of Moscow). The failures of the installations were associated, first of all, with the power system, which did not allow changing the direction of feed of the tape. But the Red Army successfully used 12.7-mm American quad mounts of the M-17 type based on the M2NV Browning machine gun.

The “anti-tank” role of the DShK machine gun, which received the nickname “Dushka,” was insignificant. The machine gun was used to a limited extent against light armored vehicles. But the DShK became a tank weapon - it was the main armament of the T-40 (amphibious tank), BA-64D (light armored car), in 1944 a 12.7-mm anti-aircraft turret was installed on the IS-2 heavy tank, and later on heavy Self-propelled guns. Anti-aircraft armored trains were armed with DShK machine guns on tripods or stands (during the war, up to 200 armored trains operated in the air defense forces). A DShK with a shield and a folded machine could be dropped to partisans or landing forces in a UPD-MM parachute bag.

The fleet began receiving DShKs in 1940 (at the beginning of the Second World War there were 830 of them). During the war, industry transferred 4,018 DShKs to the fleet, and another 1,146 were transferred from the army. In the navy, anti-aircraft DShKs were installed on all types of ships, including mobilized fishing and transport ships. They were used on twin single pedestals, turrets, and turrets. Pedestal, rack and turret (coaxial) installations for DShK machine guns, adopted for service navy, developed by I.S. Leshchinsky, designer of plant No. 2. The pedestal installation allowed for all-round firing, vertical guidance angles ranged from -34 to +85 degrees. In 1939 A.I. Ivashutich, another Kovrov designer, developed a twin pedestal installation, and the later appeared DShKM-2 gave all-round fire. Vertical guidance angles ranged from -10 to +85 degrees. In 1945, the 2M-1 twin deck-mounted installation, which had a ring sight, was put into service. The DShKM-2B twin turret installation, created at TsKB-19 in 1943, and the ShB-K sight made it possible to conduct all-round fire at vertical guidance angles from -10 to +82 degrees.

For boats of various classes, open turret twin installations MSTU, MTU-2 and 2-UK were created with pointing angles from -10 to +85 degrees. The “naval” machine guns themselves differed from the base model. For example, in the turret version, a frame sight was not used (only a ring sight with a weather vane front sight was used), the bolt handle was lengthened, and the hook for the cartridge box was changed. The differences between machine guns for coaxial installations were the design of the butt plate with the frame handle and trigger lever, the absence of sights, and fire control.

The German army, which did not have a standard heavy machine gun, willingly used captured DShKs, which were designated MG.286(r).

At the end of the Second World War, Sokolov and Korov carried out a significant modernization of the DShK. The changes primarily affected the food system. In 1946, a modernized machine gun under the DShKM brand was put into service. The reliability of the system has increased - if on the DShK according to the specifications 0.8% of delays during firing were allowed, then on the DShKM this figure was already 0.36%. DShKM machine gun has become one of the most widespread in the world.

The USSR created many types of weapons, which to this day are very popular all over the world. These include the DShK machine gun. It has been removed from service in our country, but dozens of other countries are actively using it. In my time soviet soldiers gave this machine gun the nickname “Dushka”, transforming its abbreviation into a peaceful one, good name. But in reality it was a formidable large-caliber machine gun that terrified enemies.

How it all began

At the end of 1925, it turned out that the Red Army was in dire need of a powerful heavy machine gun. The designers were given the task of developing such a weapon, and the caliber had to be chosen within the range of 12-20 millimeters. On a competitive basis and based on test results, the 12.7 mm caliber cartridge was chosen as the main one. But the army command was not too satisfied with the presented weapons, and therefore new prototypes were constantly tested.

So, at the beginning of 1931, two machine guns were tested at once: the “Dreyse system” and the “Degtyarev system”. The commission considered that the sample from Degtyarev deserved attention, since it was much lighter and easier to manufacture. The first attempt at serial production was made in 1932, but the following year only 12 machine guns could be assembled, and in 1934 the production of the DK was completely curtailed. Initially, the DShK machine gun did not cause much enthusiasm among the military.

What happened

But the thing is that the next tests in 1934 revealed one unpleasant feature of the new gun: it turned out that the machine gun was virtually useless to fight even relatively fast targets (especially airborne ones), since the rate of fire was extremely low, and the magazines offered by the manufacturer were so heavy and uncomfortable that even experienced fighters experienced many difficulties when handling them. In 1935, a decree was issued to completely stop all production of DC.

By the way, do you know what the DShK (machine gun) is called correctly? The decoding is simple: “Degtyarev-Shpagina large-caliber.” Wait, how did the famous Shpagin get here? After all, we are talking about Degtyarev? It's simple.

The position of the practically rejected gun was saved by the outstanding domestic gunsmith G.S. Shpagin, who in 1937 invented a belt feed mechanism, the installation of which did not require any serious alteration of old machine guns. In April of the following year, the new design was successfully tested at the factory, in the winter the sample passed tests with flying colors with honor, and in 1939 the DShK machine gun “officially” appeared.

Information about the technical device

Automation is standard, it works by removing waste powder gases. The gas chamber had three holes of different diameters: using a small regulator, it was possible to flexibly regulate the amount of gases that was transferred directly to the gas piston. On the barrel, along its entire length, there are “ribs” that serve for more uniform and intense heat dissipation.

An active muzzle brake is attached to the muzzle. At first its shape resembled a parachute, but later designers began to use a flat-shaped brake.

The bolt frame is the basis of all automation. The barrel bore was locked using lugs on the bolt, which were moved in different directions. A return spring is mounted on the gas piston rod. Spring shock absorbers in the butt plate not only significantly soften recoil, but also prevent rapid wear of the weapon. In addition, it is they who give the bolt frame initial speed return movement. This ingenious innovation was proposed by Shpagin: this way the designer increased the rate of fire.

Of course, after introducing this device into the design, it was necessary to equip the machine gun with a rebound damping device so that the frame would not “jump” in the extreme forward position.

Reloading and shooting

A handle for reloading the weapon is rigidly coupled to the bolt frame. The mechanism for direct reloading of the machine gun system also interacts with it, but if the machine gunner inserts the cartridge with the head of the cartridge case, he can do without it. Shooting is done from an open bolt.

It should be remembered that the DShK machine gun allows only automatic fire and is equipped with a non-automatic safety lever, the principle of operation of which is based on complete blocking of the trigger.

The bolt, approaching the breech of the barrel, stops completely, while the bolt frame itself continues to move forward. The thickened part of the firing pin cocks the bolt lugs, which fit into special recesses made in the wall of the receiver. Even after the barrel is locked, the bolt carrier continues to move forward, where its firing pin hits the firing pin. The shutter is unlocked using the bevels of the same frame when it moves backwards.

Ammunition supply mechanism

Power is supplied from the tape. It is metal, link. Served from the left side. The tape is placed in a metal container attached to the machine gun mount. A large-caliber DShK machine gun is equipped with a drum-type belt receiver, which operates from the bolt frame handle. As it moved backwards, the feed lever was activated and rotated.

A pawl was attached to its other end, which rotated the drum 60 degrees in one step. Accordingly, due to this mechanical energy, the cartridge strip was pulled. The cartridge was removed from it in a side position.

Note that domestic 12.7 mm ammunition has a very wide range of cartridge types that can be used to solve various combat missions.

Sights, shooting at different types of targets

For shooting at ground-based targets, a relatively simple, folding frame sight is used, marked up to a range of 3.5 thousand meters. The anti-aircraft ring sight was adopted for service in 1938. It allowed firing at flying enemy aircraft at a distance of up to 2400 meters, but the target speed should not exceed 500 km/h. In 1941, a significantly simplified sight was adopted.

If it was used, the firing range was reduced to 1800 meters, but the theoretical target could move at speeds of up to 625 km/h. In 1943, a new type of sight appeared that made it possible to effectively hit enemy aircraft at any course of their movement, even in cases where the pilot was diving or pitching. This made it possible to effectively fight attack aircraft, who, as a rule, attacked from a low altitude.

Anti-aircraft variant

How did you show yourself? anti-aircraft DShK? The machine gun turned out to be not so good as a weapon for combating air targets. It's all about an imperfect anti-aircraft machine, which often negated all the advantages of new types of sights.

In particular, it turned out to be insufficiently stable. A limited series of special anti-aircraft machines with convenient bipods and additional sights, but they (due to the difficulties of the war years) never went into production.

Special, balanced anti-aircraft installations were also developed. For example, the DShK coaxial machine gun was quite popular. Difficulties with their serial production were associated with the power supply system: without subjecting the weapon to significant alterations, it was impossible to move the tape receiver to the other side. In the case of using built-in installations, all this created serious difficulties for the gun crew.

Production and combat use

The machine guns went into production in 1939. They began to enter the army and navy starting next year. At first, there was a chronic lag between the plan and reality: for example, in 1940, the production of 900 units was planned, while the plant was only able to produce 566 units.

In the first six months of 1941, only 234 DShKs were produced, although at least four thousand units had to be made in just a year. It is not surprising that the army and navy constantly, throughout the war, experienced a chronic shortage of heavy machine guns. Since the need for this type of weapon was greater at sea, 1,146 DShKs were transferred from the army to sailors throughout the war.

However, the situation improved relatively quickly: in 1942 the army already received 7,400 machine guns, and in 1943 and 1944 almost 15 thousand DShKs were produced annually.

What were they used for?

Since there were few machine guns, they became the main type of anti-aircraft weapon: they were not used so often to combat ground targets. However, in the first year of the war, the Wehrmacht constantly threw light tanks and wedges into battle, against which the DShK was a formidable weapon, and therefore machine guns were “requisitioned” from anti-aircraft units.

Later, these weapons began to be transferred to anti-tank units as a matter of routine, as fighters used them to fight off attacks from enemy attack aircraft.

In urban areas DShK battles turned out to be much more in demand precisely for the fight against enemy manpower. It often happened that it was very difficult to “pick out” Germans from a simple brick house (due to the lack of grenade launchers at that time). But if the assault group was armed with a DShK machine gun, the caliber of which made it possible not to pay special attention to the walls, then the situation changed dramatically for the better.

In service with tankers

Often the machine gun was mounted on domestic tanks. In addition, they installed it on the Soviet armored car BA-64D. A full-fledged turret with a DShK appeared in 1944, with the adoption of heavy tank IS-2. In addition, self-propelled guns were often equipped with machine guns, and this was often done by the crew themselves.

It is important to note that there was an acute shortage of domestic machine guns of this system during the war years. In the United States, over the same period, more than 400 thousand units of Browning M2HB alone were produced. It is not surprising that when planning deliveries under Lend-Lease, special attention was paid to heavy machine guns.

Basic performance characteristics

What else characterizes the DShK machine gun? Its characteristics were as follows:

• Cartridge - 12.7x108 mm (domestic variation of the same "Browning").
• The body of the machine gun weighed 33.4 kg (without tape and cartridges).
• With the machine (modification without a shield) the weight was 148 kg.
• The total length of the weapon is 1626 mm.
• The barrel length was 1070 mm.
• Theoretical rate of fire is 550-600 rounds per minute.
• The rate of fire in combat conditions is 80-125 rounds per minute.
• The theoretically possible firing range is 3500 meters.
• The actual range is 1800-2000 meters.
• The thickness of the armor steel to be penetrated is up to 16 mm at a distance of 500 meters.
• Food - link belt, 50 rounds per piece.

These are the characteristics of the DShK (machine gun). Its performance characteristics are such that this weapon is still used in dozens of countries around the world, and various modifications are still produced.

The task to create the first Soviet heavy machine gun, intended primarily to combat aircraft at altitudes of up to 1500 meters, was issued to the already very experienced and well-known gunsmith Degtyarev in 1929. Less than a year later, Degtyarev presented his 12.7 mm machine gun for testing, and in 1932, small-scale production of the machine gun began under the designation DK (Degtyarev, Large-caliber). In general, the recreation center repeated the design light machine gun DP-27, and was fed from detachable magazines with 30 rounds of ammunition. The disadvantages of such a power supply scheme (bulky and heavy magazines, low practical rate of fire) forced the production of the recreation center to cease in 1935 and begin to improve it. By 1938, another designer, Shpagin, developed a belt power module for the recreation center, and in 1939, the improved machine gun was adopted by the Red Army under the designation “12.7 mm heavy machine gun Degtyarev - Shpagin arr. 1938 – DShK.” Mass production of DShK began in 1940–41, and during the years of the Great Patriotic War About 8 thousand DShK machine guns were produced. They were used as anti-aircraft weapons, as infantry support weapons, and installed on armored vehicles and small ships (including - torpedo boats). Based on the experience of the war, in 1946 the machine gun was modernized (the design of the belt feed unit and barrel mount were changed), and the machine gun was adopted under the designation DShKM.

The DShKM was or is in service with over 40 armies around the world, produced in China (“type 54”), Pakistan, Iran and some other countries. The DShKM machine gun was used as an anti-aircraft gun Soviet tanks post-war period (T-55, T-62) and on armored vehicles (BTR-155).

Technically, the DShK is an automatic weapon built on the gas exhaust principle. The barrel is locked by two combat larvae, hinged on the bolt, through recesses in the side walls of the receiver. The fire mode is automatic only, the barrel is permanent, finned for better cooling, and equipped with a muzzle brake. The feed is carried out from a non-scattered metal tape, the tape is fed from the left side of the machine gun. In DShK, the tape feeder was made in the form of a drum with six open chambers. As the drum rotated, it fed the tape and at the same time removed the cartridges from it (the tape had open links). After the chamber of the drum with the cartridge arrived in the lower position, the cartridge was fed into the chamber by the bolt. The tape feeder was driven by a lever located on the right side, which swung in a vertical plane when its lower part was acted upon by the loading handle, rigidly connected to the bolt frame. In the DShKM machine gun, the drum mechanism has been replaced with a more compact slider mechanism, also driven by a similar lever connected to the loading handle. The cartridge was removed from the belt downwards and then fed directly into the chamber.

Spring buffers for the bolt and bolt frame are mounted in the buttplate of the receiver. The fire was fired from the rear sear (from an open bolt); two handles on the butt plate and a push-type trigger were used to control the fire. The sight was framed; the machine also had mounts for an anti-aircraft sight.

The machine gun was used from a universal machine gun of the Kolesnikov system. The machine was equipped with removable wheels and a steel shield, and when using a machine gun as an anti-aircraft wheel, they were removed and the rear support was spread apart to form a tripod. In addition, the machine gun in the anti-aircraft role was equipped with special shoulder rests. In addition to the machine gun, the machine gun was used in turret installations, on remote-controlled anti-aircraft installations, on ship pedestal installations.
Currently, in the Russian Armed Forces, the DShK and DShKM have been almost completely replaced by the Utes machine gun, as it is more advanced and modern.

On February 26, 1939, by decree of the Defense Committee under the Council of People's Commissars of the USSR, a 12.7-mm heavy machine gun of the 1938 model DShK ("Degtyarev-Shpagina large-caliber") of the V. A. Degtyarev system with a drum receiver of the G. S. system was adopted for service. Shpagina. The machine gun was adopted on a universal machine of the I.N. system. Kolesnikov with detachable wheel travel and folding tripod. During the Great Patriotic War, the DShK machine gun was used to combat air targets, lightly armored enemy vehicles, and enemy personnel at long and medium ranges, as weapons for tanks and self-propelled guns. At the end of the Great Patriotic War, designers K.I. Sokolov and A.K. Norov carried out a significant modernization of the heavy machine gun. First of all, the power mechanism was changed - the drum receiver was replaced with a slider one. In addition, the manufacturability of the weapon has been improved, the mounting of the machine gun barrel has been changed, and a number of measures have been taken to increase survivability. The reliability of the system has increased. The first 250 modernized machine guns were produced in February 1945 at the plant in Saratov. In 1946, the machine gun was put into service under the designation “12.7-mm machine gun mod. 1938/46, DShKM." DShKM immediately became a tank anti-aircraft machine gun: it was installed on tanks of the IS series, T-54 / 55, T-62, on the BTR-50PA, modernized ISU-122 and ISU-152, special vehicles on a tank chassis.
Since the differences between the 12.7 mm heavy machine gun mod. 1938, DShK and a modernized machine gun mod. 1938/46 DShKM consist mainly in the design of the feed mechanism, let's look at these machine guns together.
The machine gun is automatic and operates by removing powder gases through a transverse hole in the barrel wall, with long stroke gas piston. The closed-type gas chamber is reinforced under the barrel and is equipped with a pipe regulator with three holes. The entire length of the barrel has transverse ribbing for better cooling; a single-chamber active-type muzzle brake is attached to the muzzle of the barrel. The barrel bore is locked by moving the bolt lugs to the sides. The DShK barrel was equipped with an active type muzzle brake, which was later replaced by a flat brake, also of the active type (such a muzzle brake was also used on the DShK. and for tank modifications became the main one).
The leading element of the automation is the bolt frame. A gas piston rod is screwed into the bolt frame at the front, and a firing pin is mounted on a stand at the rear. When the bolt approaches the breech of the barrel, the bolt stops, and the bolt frame continues to move forward, the firing pin rigidly connected to it with its thickened part moves forward relative to the bolt and spreads the bolt lugs, which fit into the corresponding recesses of the receiver. The lugs are brought together and the bolt is unlocked by bevels of the figured socket of the bolt frame as it moves backwards. Extraction spent cartridge case provides a bolt ejector; the cartridge case is removed from the weapon downward, through the bolt frame window, using a spring-loaded rod reflector mounted at the top of the bolt. The return spring is placed on the gas piston rod and covered with a tubular casing. The buttplate contains two spring shock absorbers that soften the impact of the bolt carrier and bolt at the rearmost point. In addition, shock absorbers give the frame and bolt an initial return velocity, thereby increasing the rate of fire. The reloading handle, located at the bottom right, is rigidly connected to the bolt frame and is small in size. The reloading mechanism of the machine gun mount interacts with the reloading handle, but the machine gunner can directly use the handle, for example, by inserting a cartridge into it with the bottom of the cartridge case.
The shot is fired with the shutter open. The trigger mechanism allows only automatic fire. It is activated by a trigger lever hinged on the buttplate of the machine gun. The trigger mechanism is assembled in a separate housing and is equipped with a non-automatic safety lever that blocks the trigger lever (front position of the flag) and prevents spontaneous lowering of the sear.
Impact mechanism operates from a return spring. After locking the barrel bore, the bolt frame continues to move forward, in the extreme forward position it hits the clutch, and the firing pin hits the firing pin mounted in the bolt. The sequence of operations of spreading the lugs and striking the firing pin eliminates the possibility of firing when the barrel bore is not fully locked. To prevent the bolt frame from rebounding after an impact in the extreme forward position, a “delay” is mounted in it, including two springs, a bend and a roller.

DShKM machine gun incomplete disassembly: 1 - barrel with gas chamber, front sight and muzzle brake; 2 - bolt frame with gas piston; 3 - shutter; 4 - combat stops; 5 - drummer; 6 - wedge; 7 - butt plate with buffer; 8 - trigger housing; 9 - cover and base of the receiver and feed drive lever; 10 - receiver.

The cartridges are fed by a belt feed, with a left-hand feed of a metal link belt. The tape consists of open links and is placed in a metal box mounted on the installation bracket. The visor of the box serves as the tape feed tray. The DShK drum receiver was driven by the bolt handle, moving backward, it bumped into the fork of the swinging feed lever and turned it. The dog at the other end of the lever rotated the drum 60°, which pulled the tape. Removing the cartridge from the belt link - in the lateral direction. In the DShKM machine gun, the slider-type receiver is mounted on top of the receiver. The slider with the feed fingers is driven by a bell crank rotating in a horizontal plane. The crank arm, in turn, is driven by a rocker arm with a fork at the end. The latter, as in the DShK, is driven by the bolt handle.
By flipping the slider crank, you can change the direction of the belt feed from left to right.
The 12.7 mm cartridge has several options: with an armor-piercing bullet, armor-piercing incendiary, sighting-incendiary, sighting, tracer, armor-piercing incendiary tracer (used against air targets). The sleeve does not have a protruding rim, which made it possible to use direct feeding of the cartridge from the tape.
For shooting at ground targets, a folding frame sight is used, mounted on a base on top of the receiver. The sight has worm mechanisms for installing the rear sight and introducing lateral corrections, the frame is equipped with 35 divisions (up to 3500 m in 100) and is tilted to the left to compensate for bullet derivation. The pin front sight with a safety device is placed on a high base in the muzzle of the barrel. When firing at ground targets, the dispersion diameter at a distance of 100 m was 200 mm. The DShKM machine gun is equipped with a collimator anti-aircraft sight, which facilitates aiming at a high-speed target and allows you to see the aiming mark and the target with equal clarity. The DShKM, installed on tanks as an anti-aircraft weapon, was equipped with a K-10T collimator sight. The optical system of the sight formed at the output an image of the target and an aiming reticle projected onto it with rings for shooting with lead and protractor divisions.