Hand weapons
Recoilless rifles
There is no clear boundary between rocket-propelled grenade launchers and recoilless rifles. English term recoilless rifle(recoilless rifle) designates both the L6 WOMBAT weighing 295 kg on a wheeled carriage, and the M67 weighing 17 kg for firing from the shoulder or bipod. In Russia (USSR), the grenade launcher was considered to be the SPG-9 weighing 64.5 kg on a wheeled carriage and the RPG-7 weighing 6.3 kg for firing from the shoulder. In Italy, the Folgore system weighing 18.9 kg is considered a grenade launcher, and the same system on a tripod and with a ballistic computer (weight 25.6 kg) is considered a recoilless rifle. The advent of cumulative shells made smooth-bore recoilless rifles promising as light anti-tank guns. Such guns were used by the United States at the end of World War II, and in the post-war years, recoilless anti-tank guns were adopted by a number of countries, including the USSR, and were actively used (and continue to be used) in a number of armed conflicts. Recoilless rifles are most widely used in the armies of developing countries. In the armies developed countries BWs as an anti-tank weapon have been largely replaced by anti-tank guided missiles (ATGMs). Some exceptions are the Scandinavian countries, for example, Sweden, where ammunition continues to develop, and, by improving ammunition using the latest technological advances, they have achieved armor penetration of 800 mm (with a caliber of 90 mm, that is, almost 9 klb)
ATGM
The main advantage of tank ATGMs is the greater accuracy of hitting targets compared to any type of tank weapon, as well as a longer range of aimed fire. This allows the tank to fire at an enemy tank while remaining out of range of its weapons, with a kill probability greater than that of modern tank guns at that range. The significant disadvantages of the KUV include 1) smaller than that of a tank gun shell, average speed rocket flight and 2) the extremely high cost of the shot.
Artillery installations
An anti-tank gun (ATG) is a specialized artillery weapon for combating enemy armored vehicles by direct fire. In the vast majority of cases, it is a long-barreled gun with a high initial projectile velocity and a small elevation angle. Other characteristic features of the anti-tank gun include unitary loading and a wedge-type semi-automatic breech, which contribute to the maximum rate of fire. When designing a VET, special attention is paid to minimizing its weight and size in order to facilitate transportation and camouflage on the ground. A self-propelled artillery mount can be very similar to a tank in design, but is designed to solve other problems: destroying enemy tanks from ambushes or providing fire support to troops from a closed firing position, and therefore has a different balance of armor and weapons. Tank destroyer - specialized for combating enemy armored vehicles, fully and well armored self-propelled artillery installation(self-propelled guns). It is precisely in its armor that a tank destroyer differs from an anti-tank self-propelled gun, which has light and partial armor protection.
Tactical missiles
Tactical missiles, depending on the type, can be equipped with all kinds of anti-tank submunitions and mines.
Aircrafts
A-10 Thunderbolt attack aircraft (USA)
Attack is the destruction of ground and sea targets using small arms(cannons and machine guns), as well as missiles. An attack aircraft is a combat aircraft (plane or helicopter) designed for attack. Non-specialized types of aircraft can be used for attack, such as conventional fighters, as well as light and dive bombers. However, in the 1930s, a specialized class of aircraft was allocated for attack operations. The reason for this is that, unlike an attack aircraft, a dive bomber only hits pinpoint targets; a heavy bomber operates from a great height over areas and large stationary targets - it is not suitable for hitting a target directly on the battlefield, since there is a high risk of missing and hitting friendly forces; a fighter (like a dive bomber) does not have strong armor, while at low altitudes the aircraft is exposed to targeted fire from all types of weapons, as well as to stray fragments, stones and other dangerous objects flying over the battlefield. The role of attack decreased after the advent of cluster bombs (with the help of which it is more effective to hit elongated targets than with small arms), as well as during the development of air-to-surface missiles (accuracy and range increased, guided missiles appeared). The speed of combat aircraft has increased, and it has become problematic for them to hit targets while at low altitude. On the other hand, attack helicopters appeared, almost completely displacing the aircraft from low altitudes.
Unmanned aircraft
Most often, UAVs are understood as remotely controlled aircraft used to carry out aerial reconnaissance and striking. The most famous example of a UAV is the American MQ-1 Predator. In February 2001, at Nellis Air Force Base, the first test launches of AGM-114 Hellfire anti-tank missiles (ATGM) were carried out from aboard the Predator UAV. The Predator can be armed with two ATGMs (one under each wing). Targeting is carried out using a standard laser target designator
Anti-tank mines
Anti-tank mines include anti-bottom mines, anti-track mines, and anti-aircraft mines. They are designed to disable tanks and other equipment, but do not work when a person or animal steps on it.
Anti-tank bumps
They belong to non-explosive anti-tank barriers. Usually part of a defensive line and combined with minefields and barbed wire.
see also
Links
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Simonov anti-tank rifle PTRS 41 Tankgewehr M1918 Lahti L 39 ... Wikipedia
World War II became the “finest hour” tank troops. The massive use of armored vehicles and the improvement of their main combat characteristics also required the improvement of means of combating them. One of the simplest, yet effective ways To stop tanks opposing infantry units is an anti-tank rifle (ATR).
Infantry vs tanks
The main burden of the advance of tank armadas fell on the infantry, which did not have powerful means resist armored vehicles, especially in the early stages of the Second World War. In the context of highly maneuverable combat operations of mobile enemy units, conducted with previously unprecedented intensity and scope, the “queen of the fields” was in dire need of its own simple, accessible, cheap anti-tank weapons that could be used in battle formations, fighting tanks, armored vehicles and other equipment in close combat.
The role of infantry close combat anti-tank weapons (PTS) remained significant throughout the course of the war, even when the warring parties introduced en masse more and more armored and protected tank models. The war gave birth to such new specialties of fighters in the infantry as “armor piercer”, “tank destroyer”, whose main weapon was an anti-tank rifle.
Anti-tank weapons
Dramatic changes occurred in the arsenal of close combat PTS and in the methods of their use during the Second World War. If at the beginning of the Second World War the main anti-tank weapons of the infantry were anti-tank rifles, which were simple in design, then by the end of the war prototypes of guided anti-tank weapons appeared.
High-explosive grenades, bundles of hand grenades, and incendiary bottles were also a great help to the soldiers in the trenches. By the middle of the military campaign, cumulative grenades, mounted and hand-held anti-tank grenade launchers of recoilless and rocket launchers were already being used.
Purpose of PTR
Anti-tank rifles World War II played a very significant role in the victory. Of course, the main burden of anti-tank defense (ATD) fell on guns (guns) of all kinds. However, when the course of the battle took on a complex, highly maneuverable and “confusing” character with the massive use of armored vehicles, the infantry needed its own armor-piercing weapons. At the same time, it is important that soldiers are able to use them directly in combat formations and fight tanks and armored vehicles in close combat. Soviet engineers, under the leadership of outstanding weapons designers Simonov, Degtyarev, Rukavishnikov, presented the soldiers with simple but reliable means against armored vehicles.
The term "anti-tank gun" is not entirely correct. A more accurate designation is “anti-tank rifle.” However, it developed historically, apparently as a literal translation of “panzerbuchse” from German.
Ammunition
A few words should be said about the anti-tank rifle cartridge and its damaging effect. For PTR, ammunition of a larger caliber was developed than traditional types of small arms. In domestic samples, armor-piercing bullets of 14.5 mm caliber were used. Its kinetic energy was enough to penetrate 30 mm armor or damage weakly protected armored vehicles.
The action of an armor-piercing bullet (projectile) on a target consists of an armor-piercing (impact) action and a damaging action behind the armor (behind the armor action). The action of PTR bullets is based on their kinetic effect on armor and its penetration by the body or solid core. The higher the kinetic energy of the projectile (bullet) thrown at the moment of collision with the armor, the higher the thickness of the penetration protection. Due to this energy, work is done to pierce the metal.
Damaging armor effect
The WWII anti-tank rifle was very effective. Of course, with its help it was impossible to overcome the armor protection of the turret and hull of medium and heavy tanks, but any vehicle has vulnerable areas, which were hit by experienced shooters. The armor only protects the engine, fuel tanks, mechanisms, weapons, ammunition and crew of the combat vehicle, which, in fact, need to be hit. In addition, anti-tank rifles were used against any equipment, including lightly armored ones.
The action of the damaging element and armor on each other is mutual, the same energy is spent on the destruction of the bullet itself. Therefore, the shape and lateral load of the projectile, the strength of its material and the quality of the armor itself are also of decisive importance. Since the kinetic energy formula includes mass in the first power and speed in the second, the final velocity of the ammunition is of particular importance.
Actually, it is the speed of the bullet and the angle of its meeting with the armored barrier that are the most important factors determining the armor-piercing effect. Increasing the speed is preferable to increasing the mass of the projectile also from the point of view of accuracy:
- the flatness of the trajectory increases, and hence the range of a direct shot at a “tank” type target, when shooting is carried out on one sight setting;
- The flight time of the bullet to the target also decreases, along with it the amount of drift by the side wind and the movement of the target during the time from the start of the shot to the expected meeting of the striking element with the target.
On the other hand, mass is directly related to lateral load, so the armor-piercing core must still have a high density.
Pre-armor action
It is no less important than armor-piercing. Having penetrated the armor, a bullet, solid projectile or armor-piercing core causes damage due to fragmentation and incendiary action. Their highly heated fragments, together with fragments of armor, penetrate inside the vehicle at high speed, affecting the crew, mechanisms, ammunition, tanks, power pipelines, lubrication systems, and are capable of igniting fuels and lubricants.
To increase efficiency, cartridges with armor-piercing incendiary and armor-piercing tracer bullets were used, which had armor-piercing and armor-piercing effects. The high initial velocity of the bullet was achieved by using a powerful cartridge and a large relative barrel length (from 90 to 150 mm).
History of the creation of domestic anti-tank rifles
In the USSR, back in 1933, Kurchevsky’s “dynamo-reactive” 37-mm anti-tank rifle was adopted, but it remained in service for about two years. Before the war, PTRs did not arouse keen interest among Soviet military leaders, although they had experience in their development and production. Soviet designers S. Korovin, S. Vladimirov, M. Blum, L. Kurchevsky created samples in the 30s that were superior to foreign analogues. However, their designs and characteristics were imperfect due to the lack of a clear vision of what exactly they should be.
With the adoption of specific requirements for this type of weapon, the situation has changed. It was then that the caliber of the anti-tank rifle was increased to 14.5 mm, the bullet weight was 64 g, and the initial projectile speed was 1000 m/s. In 1938, the basic armor-piercing cartridge B-32 was developed, subsequently improved. At the beginning of 1941, ammunition with an armor-piercing incendiary bullet equipped with a steel core appeared, and in August a cartridge with a metal core appeared.
PTR Rukavishnikov
On October 7, 1939, the USSR Defense Committee approved the adoption of an anti-tank 14.5-mm gun designed by Comrade. Rukavishnikova. Kovrov Plant No. 2 was given the task of manufacturing the Rukavishnikov PTR (also known as PTR-39) in the amount of 50 pieces. in 1939 and 15,000 in 1940. Mass production of 14.5 mm cartridges was entrusted to plant No. 3 in Ulyanovsk and No. 46 in Kuntsevo.
However, work on organizing serial production of the Rukavishnikov PTR was delayed by a number of circumstances. At the end of 1939, the Kovrov plant carried out an urgent task to organize large-scale production of the PPD submachine gun due to the Soviet-Finnish war, which required an urgent increase in the number of individual weapons in the troops. automatic weapons. Therefore, before the “big” war, these guns were clearly in short supply.
Specifications
Rukavishnikov's anti-tank rifle had an automatic gas engine with the removal of powder gases through a transverse hole directly in the barrel wall. The gas piston stroke is long. The gas chamber was located at the bottom of the barrel. The channel was locked by the gate gate. On the left side of the receiver there was a receiver for a 5-round clip (pack). The PTR had a muzzle brake, a stock with a sponge rubber shock absorber and a folding shoulder pad, a pistol grip, a folding bipod, and carrying handles.
The trigger allowed firing only single shots and included a non-automatic safety lever, the lever of which was located on the right side of the trigger. The impact mechanism was of the striker type; the mainspring was located inside a massive striker. The combat rate of fire reached 15 rounds/min. The sighting device included an open sector sight and a front sight on a bracket. The sight was notched at a range of up to 1000 m. With a barrel length of 1180 mm, the Rukavishnikov PTR had a length of 1775 mm and weighed 24 kg (with cartridges).
At the beginning of the war, seeing a lack of anti-tank weapons, the army leadership hastily began to take adequate measures. In July 1941, the most prominent Soviet weapons designers V. Degtyarev and his talented student S. Simonov were brought in to quickly develop anti-tank rifles. At the end of the month, V. Degtyarev proposed 2 options for a 14.5 mm gun, which had already passed field tests. The system was called PTRD - Degtyarev anti-tank rifle. Although the gun received universal approval at the training ground, in trench conditions, with insufficient care, it often jammed.
Greater success was achieved when creating a repeating self-loading rifle of the S. Simonov system. Only the trigger device and the mechanics of burst charging were changed. Based on positive test results, on August 29, 1941, the USSR State Defense Committee decided to adopt the Simonov repeating self-loading anti-tank rifle (PTRS) and the Degtyarev single-shot 14.5 mm caliber rifle.
Despite a number of "growing pains" - design flaws that were corrected throughout the war and after it - the guns became a powerful argument against tanks in the hands of Soviet soldiers. As a result, PTRD and PTRS are still used effectively in regional conflicts.
High efficiency
The need for these weapons was so high that sometimes guns went straight from the factory workshop to the front lines. The first batch was sent to the 16th Army, to General Rokossovsky, who was defending Moscow northwest of the Soviet capital, in the Volokolamsk direction. The application experience was a success: on the morning of November 16, 1941, near the settlements of Shiryaevo and Petelino, soldiers of the 1075th Infantry Regiment of the Eighth Guards Division holding the front section shot at a group of German tanks from 150-200 m, 2 of which burned completely.
The role that Degtyarev’s (and Simonov’s) anti-tank rifle played in the defense of the Soviet capital is evidenced by the fact that V. Degtyarev himself and many factory workers who organized the production of weapons lethal to armored vehicles were awarded the medal “For the Defense of Moscow.”
As a result combat use gun systems, designers have made significant improvements to their mechanics. The production of guns increased every day. If in 1941 17,688 units of the V. Degtyarev system and only 77 units of the S. Simonov system were manufactured, then in 1942 the number of guns increased respectively to 184,800 and 63,308 units.
PTRD device
The single-shot PTRD (Degtyarev anti-tank rifle) consisted of the following components:
- trunk;
- cylindrical receiver;
- rotary valve of longitudinally sliding type;
- butt;
- trigger box;
- sighting device;
- bipod.
Technical characteristics of PTRD
Degtyarev developed the anti-tank rifle in a record (for many unthinkable) 22 days. Although the designer took into account the developments of the creators of previous models of the 30s, he managed to embody in metal the basic requirements of the military: simplicity, lightness, reliability and low cost of manufacture.
The barrel is 8-rifled, with a rifling stroke length of 420 mm. The active muzzle brake of the box-type system is capable of absorbing most of the recoil energy (up to 2/3). The rotating (“piston type”) cylindrical bolt is equipped with two lugs in the front part and a straight handle in the rear part. It contained a striking mechanism, a reflector and an ejector.
The impact mechanism activates the firing pin and the mainspring. The striker could be cocked manually by the protruding tail or put on safety - to do this, the tail had to be pulled back and turned to the right by 30°. In the receiver, the bolt was held in place by a stop located on the left side of the receiver.
The bolt was unlocked and the spent cartridge was extracted automatically, the bolt remained open, and in preparation for the next shot it was necessary to manually insert new cartridge into the upper window on the receiver, insert and lock the bolt. This made it possible to increase the combat rate of fire with coordinated work of a crew of two people. The stock is equipped soft pillow-shock absorber. A folding stamped bipod was attached to the barrel. Degtyarev's anti-tank rifle with ammunition and additional equipment weighed up to 26 kg (17 kg net weight without ammunition). Sight shooting - 800 m.
PTRS device
The gun was equipped with an automatic gas engine with gas exhaust through a transverse hole in the barrel wall, and an open gas chamber mounted at the bottom of the barrel. The gas piston stroke is short. The general design and bore are generally similar to the PTRD, which is logically explained by the standardized ammunition.
Simonov's anti-tank rifle had the barrel locked at an angle downwards from the bolt frame. The bolt stem, complemented by a handle, locked and unlocked the channel. The “reloading mechanism” was the name given to the automatic weapon parts, namely a three-mode gas regulator, a rod, a piston, a tube and a pusher with a spring. After the shot, the pusher moved backward under the pressure of the powder gases, transmitted impulse to the bolt stem, and itself returned forward. Under the action of the bolt stem moving backward, the frame unlocked the barrel, after which the entire bolt moved backward. The spent cartridge case was removed by the ejector and reflected upward by a special protrusion. When the cartridges were consumed, the bolt was set to stop, mounted in the receiver.
The trigger is installed on the trigger guard. The non-automatic safety catch blocked the trigger when the flag was turned back. The permanent magazine (lever type feeder) is attached to the bottom of the receiver, the magazine cover latch is located on the trigger guard. The magazine is loaded with a pack (clip) of 5 rounds, placed in a checkerboard pattern.
Simonov's 1941 anti-tank rifle is 4 kg heavier than Degtyarev's model, due to the multi-charge automatic rifle (21 kg without cartridges). Sight shooting - 1500 m.
The barrel length of both PTRs is the same - 1350 mm, as well as armor penetration (average indicators): at a killing distance of 300 m, the B-32 bullet penetrated 21 mm of armor, and the BS-41 bullet - 35 mm.
German anti-tank rifles
German anti-tank rifles developed according to a slightly different scenario. Back in the mid-20s, the German command abandoned large-caliber anti-tank rifles in favor of the 7.92 mm “rifle” caliber. The bet was made not on the size of the bullet, but on the power of the ammunition. The effectiveness of the specialized P318 cartridge was sufficient to combat armored vehicles of potential opponents. However, like the USSR, in the Second world Germany entered with a small number of anti-tank rifles. Subsequently, their production was increased many times over, and the developments of Polish, Czech, Soviet, British, and French gunsmiths were used.
A typical example of 1939-1942. there was a model Panzerbuchse 1938 - an anti-tank rifle, the photo of which can often be seen in archival military photographs. Pz.B 38 (short name), and then Pz.B 39, Pz.B 41 were developed in the city of gunsmiths Sula by designer B. Bauer.
The Pz.B 38 barrel was locked with a vertical wedge bolt. To soften the recoil, the barrel-bolt clutch was moved back in the box. The recoil was used to unlock the bolt, similar to what is done in semi-automatic artillery pieces. The use of such a scheme made it possible to limit the barrel stroke to 90 mm and reduce the overall length of the weapon. The large flatness of the bullet trajectory at a distance of up to 400 m made it possible to install a permanent sighting device.
The design of the weapon showed a common desire for the end of 1930 to switch to mass production technologies - the box, in particular, was assembled from two stamped halves, equipped with stiffening ribs and connected by spot welding. The system was subsequently refined several times by Bauer.
Conclusion
The first anti-tank rifles appeared along with the tanks themselves - in the First World War. Before the start of the Second World War, both Germany and the USSR did not realize their obvious importance, giving priority to other types of weapons. However, the very first months of the clash between infantry units and the Wehrmacht tank armada showed how erroneous the underestimation of mobile, cheap, effective anti-tank rifles was.
In the 21st century, the “good old” anti-tank rifle still remains in demand, the modern purpose of which is fundamentally different from that of the Great Patriotic War. Patriotic War. Considering that tanks can withstand several RPG hits, a classic anti-tank rifle is unlikely to hit an armored vehicle. In fact, anti-tank rifles have evolved into a class of “heavy” universal sniper rifles, in the image of which the outlines of anti-tank rifles can be discerned. They are designed to hit drones, manpower at a considerable distance, radar, rocket launchers, protected firing points, communications and control equipment, unarmored and lightly armored mobile equipment and even hovering helicopters.
At first, they were carried out mainly with 12.7 mm ammunition from heavy machine guns. For example, the American M82A1 “Barrett”, M87 and M93 “McMillan”, the British AW50, the French “Hecate II”, the Russian ASVK and OSV-96. But in the 2000s, within the families of large-caliber cartridges 12.7x99 (.50 Browning) and 12.7x108, special “sniper” cartridges appeared. Such cartridges were included, for example, in the same Russian 12.7-mm sniper systems OSV-96 and ASVK (6S8), and the American M107. Rifles chambered for more powerful cartridges are also presented: the Hungarian Cheetah (14.5 mm), the South African NTW (20 mm), the American M-109 (25 mm) and others. The start taken at the beginning of the 20th century continues!
Anti-tank single-shot rifle mod. 1941 Degtyarev system (PTRD)- Soviet anti-tank rifle of the Degtyarev system, adopted for service on August 29, 1941. It was intended to combat medium and light tanks and armored vehicles at distances of up to 500 m. The gun could also fire at pillboxes, bunkers and firing points covered by armor at distances up to 800 m and at aircraft at distances up to 500 m.
| TACTICAL AND TECHNICAL CHARACTERISTICS ANTI-TANK RIFLE DEGTYAREV | |
|---|---|
| Manufacturer: | Zlatoust: plant No. 385 Izhevsk: plants No. 74 and No. 622 Kovrov: plant No. 2 |
| Cartridge: | |
| Caliber: | 14.5 mm |
| Weight without cartridges: | 17.3 kg |
| Weight with cartridges: | 17.5 kg |
| Length: | 2020 mm |
| Barrel length: | 1350 mm |
| Number of rifling in the barrel: | 8 left-handed |
| Trigger mechanism (trigger): | Impact type |
| Operating principle: | Longitudinal sliding valve with automatic extraction |
| Fuse: | Trigger safety cock |
| Aim: | Open, with two range settings at 400 m and from 400 m to 1000 m |
| Effective range: | 800 m |
| Sighting range: | 1000 m |
| Initial bullet speed: | 1020 m/s |
| Armor penetration at a meeting angle of 90°: | at 300 m - 35 mm, at 100 m - 40 mm |
| Type of ammunition: | Single shot |
| Number of cartridges: | 1 |
| Years of production: | 1941–1944 |
History of creation and production
At the beginning of July 1941, J.V. Stalin set the USSR People's Commissariat of Armaments the task of creating an effective, simple and cheap PTR chambered for a fully developed 14.5 mm cartridge within a month. Gunsmiths N.V. Rukavishnikov, V.A. Degtyarev and S.G. Simonov were involved in the work on the creation of anti-tank rifles.
On July 16, 1941, a 14.5 mm cartridge with an armor-piercing incendiary bullet with a hardened steel core was adopted by the Red Army under the designation “14.5 mm B-32 cartridge”.
The development of the PTRD took place in KB-2. Working projects V. A. Degtyarev and S. G. Simonov completed simultaneously. Both designers took 22 days to develop and manufacture prototypes.
The first pre-production model of the PTRD was manufactured and sent for testing in mid-August 1941.
By decree of the State Defense Committee of August 29, 1941, V. A. Degtyarev’s anti-tank rifle was adopted by the Red Army.
The gun was very technologically advanced in production; it could almost entirely be manufactured on lathes, so mass production of PTRDs was mastered earlier than mass production of PTRS.
The production of PTRDs was started at the Kovrov Arms Plant; at the end of November 1941, the production of PTRDs and PTRSs was also mastered by the Izhevsk Machine-Building Plant (to which drawings, technical documentation and part of the parts blanks were delivered), but until the beginning of 1942 the total production of anti-tank rifles in Izhevsk did not exceed 20 pcs. per day.
Serial production of the first PTRDs began on September 22, 1941, in October the first pilot batch of 50 guns was assembled, a total of 17,688 were produced in 1941, and 184,800 PTRDs in 1942. In October 1943, the assembly of PTRD began in Zlatoust at plant No. 385. Production of PTRD was discontinued in December 1944, a total of 281,111 units were produced. guns.
After the end of the Great Patriotic War, PTRDs were removed from service with the Soviet Army, but remained in storage. In the mid-1950s - 1960s, a number of PTRDs in storage were transferred free of charge from the warehouses of the mobilization reserve of the USSR Ministry of Defense to the hunting grounds of the Far North, where they were used for whale hunting.
Design and principle of operation
The barrel has a channel with eight rifling, curling from left to top to right, a muzzle brake to reduce recoil, in the middle there is a handle for carrying the weapon and a groove for attaching a bipod. At the front of the barrel there is a front sight base (on which the front sight is mounted), and at the rear there is a sight bracket.
On the left side of the receiver there is a bolt stop, and on the bottom there is a trigger mechanism. On the outside, it has: an upper window (for inserting a cartridge), a lower window (for ejecting a spent cartridge case), a platform with a protrusion (for connecting to the butt), a cutout (for moving the bolt handle when locking and unlocking the barrel bore). Inside the receiver has: a channel for placing the bolt, two longitudinal grooves and two supporting protrusions.
The trigger mechanism consists of a trigger, a trigger lever, a sear and two springs (for the sear and the trigger lever).
The sight consists of a bracket, a rear sight with a slot and a spring. In early samples, the bracket has a hole through which the rear sight moves up and down. In the lower position, the rear sight corresponds to firing distances of up to 400 m, and in the upper position - from 400 m to 1000 m. In the later position, the rear sight rotates on its axis by 90°, also having two positions for shooting at distances up to 400 m and from 400 m to 1000 m.
The front sight is pushed into the groove of the front sight base and can move left and right when the PTRD is brought to normal combat.
The bolt consists of a bolt frame and a firing mechanism. The bolt body has: a handle, a cup with a rim (for placing the cartridge head), a channel (for the passage of the firing pin), a groove (for placing the ejector), a socket (for the reflector and its spring), two lugs (for locking the barrel), beveled a cutout (retracting the firing pin when the bolt is opened), an annular groove (into which the annular protrusion of the coupling fits to engage the striking mechanism with the bolt frame) and two holes (discharging powder gases if they break through inside the bolt). The striker mechanism consists of a striker (having a protrusion with a firing pin), a connecting coupling (connecting the striker mechanism with the bolt), a mainspring (sending the striker to the forward position), a restrictive tube (limiting the retreat of the striker back), a striker coupling (protecting the striker from disengaging with striker) and striker (breaking the capsule).
An anti-tank crew with a PTRD-41 anti-tank rifle in a combat position during the battle for Stalingrad. A Mosin rifle is visible in the foreground.
The butt is attached to the receiver and consists of a shoulder rest (pillow) with an outer tube and a trigger box with an inner tube. The shock absorber spring is located in the outer tube, and on the left there is a stop for the gunner’s cheek. On the right there is a tide with a curved edge for opening the shutter after a shot. A wooden rest is attached to the pad and outer tube for holding with the left hand while shooting. The trigger box with an inner tube houses the trigger mechanism. A pistol grip is attached to the inner tube for ease of shooting. The trigger box has a platform for connecting the buttstock to the receiver, a hole for a pin (which secures the trigger box to the receiver) and a trigger guard (protecting against accidental pressing of the trigger).
Accessories for the PTRD: a composite cleaning rod, a wrench, a screwdriver, a double-neck oil can and a brush. Also for each gun there are two canvas cartridge bags (for 20 rounds each), two canvas covers (for the breech and muzzle of the gun) and a form (with the results of the battle check, the number of shots, delays and methods for eliminating them).
To load the PTRD, you must perform the following steps:
- Turn the bolt handle to the left (the bore is unlocked);
- Pull the bolt back as far as it will go (the bolt stop rests against the rear plane of the left lug of the bolt and holds it in the receiver);
- Place the cartridge on the guide bevel of the upper receiver window and send it into the chamber;
- Send the bolt forward (the bolt moves the cartridge into the chamber, and the firing pin cocking, hitting the sear of the trigger mechanism, stops the firing pin, keeping it cocked);
- Turn the bolt handle to the right until it stops (the barrel bore is locked, the mainspring receives the greatest tension, the ejector hook slides into the sharpening of the case head, the reflector is recessed into its socket by the case head).
After this, to fire a shot you only need to press the tail of the trigger. Wherein:
- The trigger rotates the trigger lever, causing the sear to drop and come out from under the firing pin.
- The mainspring, expanding, presses on the firing pin coupling and forcefully sends the firing pin forward with the firing pin, breaking the cartridge primer.
- The barrel with the receiver and trigger boxes and the bolt move back under the pressure of the powder gases to the bottom of the sleeve, which causes the shock absorber spring to compress. The shutter handle, having reached the curved edge of the tide of the outer tube, begins to slide along it and turn to the left. The lugs of the bolt extend from behind the supporting lugs of the receiver and stand against the longitudinal grooves. The bolt, moving backward by inertia, is separated from the rear edge of the barrel, and the ejector hook removes the cartridge case from the chamber. When the cartridge case stands against the lower window of the receiver, the reflector pushes it out from under the ejector hook.
- The bolt stops in the rear position, hitting the bolt stop with the left lug.
- The shock absorber spring returns the moving parts to their most forward position.
To set the hammer to the safety cock, you need to pull the firing pin hook back as far as it will go and turn it to the right.
Combat use
The PTRD anti-tank rifle was a powerful weapon - at a distance of up to 300 m, its bullet penetrated armor 30–40 mm thick. The incendiary effect of the bullets was also high. Thanks to this, it was successfully used throughout the Second World War.
Video
Shooting from PTRD, handling weapons, etc.:
PTRD-41 compilation in HDThe film “The Ballad of a Soldier” begins with a scene full of tragedy. A Soviet soldier-signalman is being pursued by a young soldier who has not been shot at and has nowhere to hide, he is running, and a steel colossus is about to overtake him and crush him. The soldier sees Degtyarev abandoned by someone. And he takes advantage of the unexpected chance for salvation. He shoots at the enemy car and knocks it out. Another tank is approaching him, but the signalman is not lost and burns him too.
“This couldn’t happen! - other “experts” will say today military history". - You cannot penetrate tank armor with a gun!" - "Can!" - those who are more familiar with this subject will answer. Inaccuracy in the film narrative may have been admitted, but it concerns not the combat capabilities of this class of weapons, but chronology.
A little about tactics
Anti-tank rifles were created in the thirties of the 20th century in many countries. They seemed to be a completely logical and reasonable solution to the issue of confronting armored vehicles of that time. Artillery was supposed to become the main means of combating it, and anti-tank missiles - auxiliary, but more mobile. The offensive tactics involved striking with tank wedges involving dozens, even hundreds of vehicles, but the success of the attack was determined by whether it would be possible to create the required concentration of troops without the enemy noticing. Overcoming well-fortified defense lines, equipped with armor-piercing artillery, with a strip of minefields and engineering structures (gouges, hedgehogs, etc.) was an adventurous task and fraught with the loss of a large amount of equipment. But if the enemy unexpectedly strikes a poorly protected section of the front, then there will be no time for jokes. We will have to urgently “patch up the holes” in the defense, transfer guns and infantry that still need to dig in. It is difficult to quickly deliver the required number of guns with ammunition to a dangerous area. This is where an anti-tank rifle comes in handy. PTRD is a relatively compact and inexpensive weapon (much cheaper than a gun). You can produce a lot of them, and then equip all units with them. Just in case. Soldiers armed with them may not burn through all enemy tanks, but they will be able to delay the offensive. Time will be gained, the command will have time to bring up the main forces. Many military leaders thought so at the end of the thirties.
Why did our fighters lack PTR?
The reasons why in the USSR the development and production of anti-tank rifles in pre-war years several were practically curtailed, but the main one was the exclusively offensive of the Red Army. Some analysts point to the supposedly poor awareness of the Soviet leadership, which overestimated the degree of armor protection of German tanks, and therefore made the wrong conclusion about the low effectiveness of anti-tank guns as a class of weapons. There are even references to the head of the Glavartupra G.I. Kulik, who expressed such an opinion. Subsequently, it turned out that even the 14.5-mm Rukavishnikov PTR-39 anti-tank rifle, adopted by the Red Army in 1939 and abolished a year later, could easily penetrate the armor of all types of equipment possessed by the Wehrmacht in 1941.
What did the Germans come with?
Hitler's army crossed the border of the USSR with over three thousand tanks. It is difficult to appreciate this armada without using the method of comparison. The latest tanks(T-34 and KV) the Red Army had much less, only a few hundred. So, maybe the Germans had equipment of approximately the same quality as ours, with quantitative superiority? This is wrong.
The T-I tank was not just light, it could be called a wedge. Without a gun, with a crew of two, it weighed slightly more than a passenger car. Degtyarev's anti-tank rifle, put into service in the fall of 1941, pierced it right through. German T-II was little better, it had bulletproof armor and a short-barreled 37 mm cannon. There was also a T-III, which could withstand the impact of an PTR cartridge, but only if hit in the frontal part, but in other other areas...
The Panzerwaffe also had Czech, Polish, Belgian, French and other captured vehicles (they are included in total number), worn out, outdated and poorly supplied with spare parts. I don’t even want to think about what Degtyarev’s anti-tank rifle could have done to any of them.
The Germans acquired “Tigers” and “Panthers” later, in 1943.
Resumption of production
We must pay tribute to the Stalinist leadership; it skillfully corrected mistakes. The decision to resume work on the PTR was made the day after the start of the war. This fact refutes the version that the Headquarters is poorly informed regarding the armored potential of the Wehrmacht; it is simply impossible to obtain such information in a day. Urgently (it took less than a month to manufacture experimental units), a competition was held for two samples, almost ready for launch into mass production. Simonov's anti-tank rifle showed good results, but in the technological aspect it was inferior to the second tested PTR. It was more complex in design and also heavier, which also influenced the commission’s decision. On the last day of August, Degtyarev's anti-tank rifle was officially adopted by the Red Army and put into production at an arms factory in the city of Kovrov, and two months later - in Izhevsk. Over three years, more than 270 thousand of them were manufactured.
First results
At the end of October 1941, the situation at the front was catastrophic. The vanguard units of the Wehrmacht approached Moscow, two strategic echelons of the Red Army were practically destroyed in giant “cauldrons”, vast spaces of the European part of the USSR found themselves under the heel of the invaders. Under these circumstances, the Soviet soldiers did not lose heart. Lacking artillery in sufficient quantities, the troops showed massive heroism and fought tanks using grenades and Molotov cocktails. New weapons arrived at the front straight from the assembly line. On November 16, soldiers of the 1075th Infantry Regiment of the 316th Division destroyed three enemy tanks using PTRD. Soviet newspapers published photos of the heroes and the fascist equipment they burned. A continuation soon followed; four more tanks, which had previously conquered Warsaw and Paris, began to smoke near Lugovaya.
Foreign PTR
Newsreels of the war years repeatedly captured our soldiers with anti-tank rifles. Episodes of battles with their use were also reflected in feature films (for example, in S. Bondarchuk’s masterpiece “They Fought for the Motherland”). Documenters recorded much fewer French, American, English or German soldiers with PTRD for history. Does this mean that WWII anti-tank rifles were mostly Soviet? To some extent, yes. These weapons were produced in such quantities only in the USSR. But work on it was carried out in Britain (Boyce system), and in Germany (PzB-38, PzB-41), and in Poland (UR), and in Finland (L-35), and in the Czech Republic (MSS-41) . And even in neutral Switzerland (S18-1000). Another thing is that the engineers of all these, without a doubt, technologically “advanced” countries were never able to surpass Russian weapons in its simplicity, elegance of technical solutions, and in quality too. And not every soldier is capable of calmly shooting from a gun at an approaching tank from a trench. Ours can.
How to penetrate armor?
PTRD has approximately the same performance characteristics, like the Simonov anti-tank rifle, but it is lighter (17.3 versus 20.9 kg), shorter (2000 and 2108 mm, respectively) and simpler in design, and therefore requires less time for cleaning and is easier to train shooters. These circumstances explain the preference given by the State Commission, despite the fact that the PTRS could fire at a higher rate of fire due to the built-in five-round magazine. The main quality of this weapon was still its ability to penetrate armor protection from various distances. To do this, it was necessary to send a special heavy bullet with a steel core (and, as an option, with an additional incendiary charge activated after passing through an obstacle) at a fairly high speed.
Armor-piercing
The distance at which Degtyarev’s anti-tank rifle becomes dangerous for enemy armored vehicles is half a kilometer. It is quite possible to use it to hit other targets, such as pillboxes, bunkers, and also aircraft. The caliber of the cartridge is 14.5 mm (brand B-32 regular armor-piercing incendiary or BS-41 with a ceramic super-hard tip). The length of the ammunition corresponds to an air cannon shell, 114 mm. The hitting distance of a target with armor 30 cm thick is 40 mm, and from a hundred meters this bullet penetrates 6 cm.
Accuracy
The accuracy of hits determines the success of firing at the most vulnerable areas of enemy equipment. Protection was constantly being improved, so instructions were issued and promptly updated for soldiers recommending how to most effectively use an anti-tank rifle. The modern idea of fighting armored vehicles also takes into account the possibility of hitting the most weak spots. When firing tests from a hundred-meter distance, 75% of the cartridges hit the 22-centimeter vicinity of the center of the target.
Design
No matter how simple the technical solutions may be, they should not be primitive. WWII weapons were often produced in difficult conditions due to forced evacuation and the deployment of workshops in unprepared areas (it happened that for some time they had to work in the open air). The Kovrov and Izhevsk plants, which produced PTRDs until 1944, avoided this fate. Degtyarev's anti-tank rifle, despite the simplicity of its design, absorbed all the achievements of Russian gunsmiths.
The barrel is rifled, eight-way. The sight is the most common, with a front sight and a two-position rail (up to 400 m and 1 km). The PTRD is loaded like a regular rifle, but the strong recoil is due to the presence of a barrel brake and a spring shock absorber. For convenience, a handle is provided (one of the carrying fighters can hold it) and a bipod. Everything else: the sear, the firing mechanism, the receiver, the butt and other attributes of the gun are thought out with the ergonomics for which Russian weapons have always been famous.
Service
IN field conditions Most often, incomplete disassembly was carried out, which involved removing and disassembling the bolt, as the most contaminated unit. If this was not enough, then it was necessary to remove the bipod and butt, then disassemble the trigger mechanism and separate it. At low temperatures, a frost-resistant lubricant is used, in other cases, ordinary gun oil No. 21. The kit includes a cleaning rod (dismountable), an oiler, a screwdriver, two bandoliers, two moisture-resistant canvas covers (one on each side of the gun) and a service form, which records cases of training and combat use, as well as misfires and failures.
Korea
In 1943, German industry began producing medium and heavy tanks with powerful ballistic armor. Soviet troops continued to use PTRDs against light, less protected vehicles, as well as to suppress firing points. At the end of the war, there was no longer a need for anti-tank rifles. To fight the rest German tanks in 1945 powerful artillery and other effective weapons were used. The Second World War is over. It seemed that the time of the PTRD was irrevocably gone. But five years later it began Korean War, and the “old gun” began to shoot again, albeit at former allies - the Americans. It was in service with the DPRK and PLA armies, which fought on the peninsula until 1953. American tanks The post-war generation most often withstood hits, but anything could happen. PTRDs were also used as an air defense weapon.
Post-war history
The presence of a large number of high-quality weapons with unique qualities prompted us to look for some kind of useful application. Tens of thousands of units were stored in lubricant. What can an anti-tank rifle be used for? Modern protective armor of tanks can withstand even a hit, not to mention a bullet (even if it has a core and a special tip). In the 60s they decided that with PTRD it was possible to hunt seals and whales. The idea is good, but this thing is too heavy. Also, from such a gun you can conduct sniper fire at a distance of up to a kilometer, the high initial speed allows you to shoot very accurately if you have it. The armor of an infantry fighting vehicle or armored personnel carrier is easily penetrated by the PTRD, which means that today the weapon has not completely lost its relevance. So it lies in warehouses, waiting in the wings...
(close combat anti-tank weapons in 1939-45)The main means of fighting tanks - "anti-tank defense" (ATD) - during the Second World War was an anti-tank gun: towed, mounted on a self-propelled chassis with light cover or in the well-armored wheelhouse of a "fighter tank". However, in conditions of highly maneuverable combat operations with the massive use of armored vehicles, the “queen of the fields” infantry needed its own anti-tank (AT) close combat weapons, capable of operating directly in all combat formations. Such anti-tank weapons were supposed to combine “anti-tank” capabilities with the lightness and maneuverability of infantry weapons. In the third period of the war, say, German close combat PTS accounted for about 12.5% of the losses of Soviet tanks - a very high figure.
Let us consider those types and samples of close combat anti-tank weapons that the infantry of the warring armies had at their disposal in 1939-45. There are three large groups such means: anti-tank rifles, grenades and grenade launchers, incendiary weapons.
Anti-tank rifles
By the beginning of the Second World War, the main anti-tank weapons of the infantry were anti-tank rifles and high-explosive hand grenades, i.e. means that originated at the end of the First World War. During the interwar period, anti-tank rifles received serious attention - especially after unsuccessful attempts to create "anti-tank machine guns" - and by the beginning of the war, many armies had this weapon in service.
The term "anti-tank rifle" (ATR) is not entirely accurate - it would be more correct to speak of an "anti-tank rifle". However, it developed historically (apparently as a direct translation of the German “panzerbuhse”) and has firmly entered our lexicon. The armor-piercing effect of an anti-tank gun is based on the kinetic energy of the bullet, and therefore depends on its speed at the moment of impact, the quality of the armor and the material of the bullet (especially its core), the shape and design of the bullet, and the angle at which the bullet meets the surface of the armor. Having pierced the armor, the bullet causes damage due to fragmentation and incendiary effects. Note that the lack of armor action was the main reason for the low effectiveness of the first anti-tank rifle - the 13.37 mm Mauser model 1918. The anti-tank rifles used during the Second World War differed in caliber - from 7.92 to 20 mm; type - single-shot, magazine, self-loading; layout, weight and dimensions. However, their design had a number of common features:
– high muzzle velocity was achieved by using a powerful cartridge and a long barrel length (from 90 to 150 calibers);
– cartridges with armor-piercing incendiary and armor-piercing tracer bullets were used, which had both armor-piercing and sufficient armor-piercing effects;
– to reduce recoil, muzzle brakes, soft butt cushions, and spring shock absorbers were introduced;
– to increase maneuverability, the weight of the PTR and cm dimensions were reduced as much as possible, carrying handles were introduced, heavy guns (Oerlikon, s.Pz.B-41) were made quick-dismountable;
– to quickly transfer fire, the bipod was attached closer to the middle of the weapon, the uniformity of aiming in many samples was ensured by the shoulder pad of the butt, the “cheek”, and it was possible to hold it when shooting with both the right and left hand;
– maximum reliability of the operation of the mechanisms, primarily extraction, was achieved (tapering of the cartridge case, cleanliness of chamber processing);
– great importance was attached to ease of production and development.
The problem of rate of fire was resolved in combination with the requirement of maneuverability and simplicity. Single-shot anti-tank rifles had a combat rate of fire of 6-8, magazine-launched ones - 10-12, self-loading ones - 20-30 rounds/min.
In the Soviet Union, after a series of experimental works in 1938. a powerful 14.5-mm cartridge with an armor-piercing incendiary bullet B-32 with a hardened steel core and an incendiary composition was created. Cartridge weight – 198 g, bullet – 51 g, cartridge length – 155.5 mm, cartridge case – 114 mm. N.V. Rukavishnikov developed a fairly successful self-loading gun for this cartridge, which was adopted in October 1939. into service (PTR-39). But in the spring of 1940. Head of the GAU Marshal G.I. Kulik raised the question of the ineffectiveness of existing anti-tank weapons against the “newest German tanks” that intelligence reported. In July 1940 production of the PTR-39 was suspended. Erroneous views on the prospects for increasing the armor protection of tanks led to a number of consequences: the exclusion of anti-tank guns from the weapon system (order of August 26, 1940), the cessation of production of 45-mm anti-tank guns, and the order for the urgent design of 107-mm tank and anti-tank guns. As a result, the Soviet infantry was deprived of an effective anti-tank weapon. The very first weeks of the war showed the tragic consequences of this mistake. However, tests of the Rukavishnikov PTR on June 23 showed an increasingly significant percentage of delays. Finishing and putting it into production would require a lot of time. As a temporary measure, in July 1941, in the workshops of Moscow universities, the assembly of a single-shot anti-tank rifle for the 12.7 mm DShK cartridge was established (at the suggestion of V.N. Sholokhov). The simple design was copied from an old German 13.37 mm PTR And Mauser" (with the addition of a muzzle brake and the installation of a light bipod) and did not provide the required parameters.
Anti-tank rifle PTRD mod. 1941 (!) and anti-tank rifle PTRS mod. 1941 (2)
To speed up work on an effective and technologically advanced 14.5 mm PTR, according to the memoirs of D.F. Ustinov, Stalin at one of the GKO meetings proposed entrusting the development to “one more, and for reliability, two designers.” The task was issued in July to V.A. Degtyarev and S.G. Simonov. A month later, designs ready for testing appeared - only 22 days passed from the moment the task was received to the first test shots. On August 29, 1941, after a demonstration to members of the State Defense Committee, Degtryaev’s single-shot model and Simonov’s self-loading model were put into service under the designations PTRD and PTRS, respectively. The new PTRs were supposed to fight medium and light tanks and armored vehicles at ranges of up to 500 m. The production of PTRs began at the arms factory in Kovrov, later the Izhevsk Machine-Building Plant, the production of the Tula Arms Plant, and others were evacuated to Saratov.
The single-shot PTRD consisted of a barrel with a cylindrical receiver, a stock with a trigger box, impact and trigger mechanisms, sights and a bipod. 8 riflings were made in the barrel bore with a stroke length of 420 mm. The box-shaped active muzzle brake absorbed up to 2/3 of the recoil energy. The barrel bore was locked by a longitudinally sliding bolt when turning. The cylindrical bolt had two lugs in the front part and a straight handle in the rear; a striking mechanism, an ejector and a reflector were mounted in it. The impact mechanism included a striker with a striker, a mainspring; the tail of the striker came out and looked like a hook. When the bolt was unlocked, the bevel of its frame pulled the firing pin back.
The receiver was connected to the trigger, rigidly connected to the inner tube of the butt. The inner tube with the shock absorber spring was inserted into the butt tube. After the shot, the moving system (barrel, receiver and bolt) moved back, the bolt handle ran onto the carbon profile mounted on the butt and turned, unlocking the bolt. After the barrel stopped, the bolt moved back by inertia and stood on the bolt stop (on the left side of the receiver), the reflector pushed the cartridge case into the lower window of the receiver. The moving system was returned to the forward position by a shock absorber spring. Inserting a new cartridge into the upper window of the receiver, chambering and locking the bolt was done manually. The trigger mechanism included a trigger, a trigger lever with a spring, and a sear with a spring. The sighting devices were placed to the left on brackets and included a front sight and a reversible rear sight at ranges of up to 600 m and over 600 m (in the first releases of the PTR, the rear sight moved in a vertical groove).
The butt had a soft cushion, a wooden rest for holding the weapon with the left hand, a wooden pistol grip, and a “cheek.” Folding stamped bipods were attached to the barrel with a collar with a wing. A carrying handle was attached to the barrel with a clip. The accessory included two canvas bags holding 20 rounds each. In battle, the gun carried one or both crew numbers.
A minimum of parts, the use of a stock pipe instead of a frame simplified the production of anti-tank rifles, and the automatic opening of the bolt increased the rate of fire. The PTRD successfully combined simplicity, reliability and efficiency. Simplicity of production was of great importance in those conditions. The first batch of 300 PTRDs was released in October and sent to Rokossovsky's 16th Army. Already in 1941, 17,688 PTRDs were produced, and in 1942 - 184,800.
The self-loading PTRS was created on the basis of the experimental Simonov self-loading rifle of 1938. according to the scheme with the removal of powder gases. It consisted of a barrel with a muzzle brake and a gas chamber, a receiver with a butt, a bolt, a trigger guard, reloading and trigger mechanisms, sights, a magazine and a bipod. The bore was similar to the PTRD. The open-type gas chamber was secured with pins at a distance of a third of the barrel length from its muzzle. The barrel was connected to the receiver by a wedge.
The barrel bore was locked by tilting the bolt frame downwards. Unlocking and locking was controlled by the bolt stem with a handle. The reloading mechanism included a gas regulator with three positions, a piston, a rod, a pusher with a spring and a tube. The pusher acted on the bolt stem. The bolt return spring was located in the stem channel. A firing pin with a spring was placed in the channel of the bolt core. Having received a movement impulse from the pusher after the shot, the bolt moved backward, while the pusher returned forward. In this case, the spent cartridge case was removed by the bolt ejector and was reflected upward by the protrusion of the receiver. When the cartridges were used up, the bolt was set to stop (bolt stop), mounted in the receiver.
The trigger mechanism was mounted on the trigger guard. The impact mechanism is hammer-operated, with a screw mainspring. The trigger mechanism included a trigger sear, a release lever and a trigger, with the axis of the hook located at the bottom. The magazine with a lever feeder was hinged to the receiver, its latch was located on the trigger guard. The cartridges were arranged in a checkerboard pattern. The magazine was loaded with a clip (pack) of 5 rounds with the lid folded down. The accessory included 6 clips. Sighting devices included a front sight with a fence and a sector sight, notched from 100 to 1500 m every 50. The PTR had a wooden butt with a soft cushion and shoulder pad, and a pistol grip. The narrow neck of the butt was used for holding with the left hand. Folding bipods were attached to the barrel using a clip (swivel). There was a carrying handle. In battle, the PTR transferred one or both crew numbers. During the hike, the disassembled gun - barrel and receiver with butt - was carried in two canvas covers.
The production of PTRS was simpler than Rukavishnikov’s PTR (one third fewer parts, 60% less machine-hours, 30% less time), but much more complex than PTRD. In 1941 Only 77 PTRS were produced, in 1942 - 63,308. Since PTRs were adopted urgently, the shortcomings of the new systems - tight cartridge case extraction for PTRDs, double shots for PTRS - had to be corrected during production or “finished” the guns in the army. At the end of 1941 The new BS-41 cartridge with a powder-ceramic bullet core (bullet weight -63.6 g) was adopted for the PTR. The 14.5 mm cartridges differed in color: the B-32 bullet had a black head with a red belt, the BS-41 bullet had a red bullet with a black head, and the primer was black.
Transportation of PTRD on a pack saddle, model 1937,
Shooting a PTRD from a horse
In addition to tanks (the main target), PTRs could fire at firing points and embrasures of bunkers and bunkers at ranges of up to 800 m, and at aircraft - up to 500 m. Since December 1941. PTR companies with 54 guns each were introduced into rifle regiments, and from the fall of 1942. in battalions - anti-tank rifle platoons (18 rifles each). PTR companies were also introduced into anti-tank fighter divisions. Platoons in battle were used as a whole or in groups of 2-4 guns. In the defense, “armor-piercing snipers” were positioned in echelon, preparing the main and 2-3 reserve positions. During the offensive, PTR crews operated in combat formations of units in tank-hazardous directions, occupying positions ahead in the intervals between rifle platoons and on the flanks of companies. In 1944 they practiced a staggered arrangement of anti-tank guns along the front and in depth at a distance of 50-100 m from each other with mutual shooting of the approaches, and widespread use of dagger fire. In winter, crews installed anti-tank guns on sleds or drags. Former Lieutenant General of the Wehrmacht, weapons specialist E. Schneider wrote: “In 1941, the Russians had a 14.5-mm anti-tank rifle, which caused a lot of trouble for our tanks and the light armored personnel carriers that appeared later.” With fairly high ballistic data, the 14.5 mm PTRs were distinguished by maneuverability and manufacturability. The PTRS is considered the best anti-tank rifle of the Second World War in terms of its combination of combat and operational qualities. Having played a large role in the PTO in 1941-42, the PTR by the summer of 1943 - with the increase in armor protection of tanks and assault guns over 40 mm - had lost their positions. If in January 1942 their number in the troops was 8,116, in January 1943 - 118,563, 1944 -142,861, i.e. increased 17.6 times in two years, then in 1944 it began to decline, and by the end of the war the Red Army had only 40 thousand anti-tank rifles. The same picture is observed in relation to 12.7- and 14.5-mm cartridges: in 1942 their production was six times higher than the pre-war one, but decreased noticeably by 1944. Nevertheless, the production of anti-tank rifles continued until January 1945, and in total During the war, about 400 thousand 14.5-mm anti-tank guns were produced.PTRD and PTRS were used to combat light armored vehicles and firing points. It is curious that they were often used by snipers to defeat enemy shooters behind portable armor shields.
In addition to rifle anti-tank rifles, they were also in service with cavalry units. To transport the PTRD, packs for a cavalry saddle and a pack saddle mod. 1937 The gun was mounted on a pack above the horse's croup on a metal block with two brackets. The rear bracket could be used as a support - a swivel for firing from a horse at air and ground targets. The shooter stood behind the horse, held by the handler. To release anti-tank missiles to landing forces and partisans, an “extended” UPD-MM parachute bag with a parachute chamber and a shock absorber was used. The cartridges could be dropped without a parachute from a strafing flight in caps wrapped in burlap. Soviet anti-tank missiles were transferred to foreign formations formed in the USSR: for example, 1283 anti-tank missiles were transferred to Czechoslovak units.
The experienced single-shot anti-tank guns of M.N. Blum and "RES" (Rashkov E.S., Ermolaev S.I., Slukhodkiy V.E.) aroused great interest of the State Agrarian University and the State Technical University. The first was developed for a specially created 14.5 mm cartridge with an initial bullet speed increased to 1500 m/s, the second - for a 20 mm cartridge. Shelling of a captured T-VI "Tiger" tank at the GBTU training ground in April 1943. showed that Blum's anti-tank rifle is capable of hitting the side 82-mm armor of this tank at ranges up to 100 m. On August 10 of the same year, both anti-tank rifles were shot at the "Vystrel" course: this time they recorded penetration of the zeros of the Blum's anti-tank rifle at 100 m of 55-mm armor, and "RES" is 70 mm. Blum's anti-tank rifle with a sliding rotary bolt was more compact, and the question was raised about its early adoption. This, however, did not happen - work on the PTR was actually curtailed.
The Polish army was one of the first to adopt anti-tank rifles before the war. In 1935 under the name "karabin UR wz.35" a 7.92-mm PTR was adopted, created by P. Vilniewczyc, J. Maroška, E.S. Tecki, T. Felchin based on the design of a magazine rifle. A special 7.92-mm cartridge had weight 61.8 g, "SC" bullet - 12.8 g. A cylindrical muzzle brake was attached to the end of the long barrel, which absorbed up to 70% of the recoil energy. The relatively thin-walled barrel could withstand no more than 200 shots, but in combat conditions this was quite enough - Anti-tank infantry weapons did not work for long. Locking was done by turning the Mauser-type bolt, which had two lugs in front and one behind, a straight handle. The firing mechanism was striker-type. The original feature of the trigger mechanism was the blocking of the trigger rocker with a reflector when the bolt was not completely locked: reflector raised and released the rocker only when the bolt was fully rotated. The 3-round magazine was attached from below with two latches. The sight was permanent. The PTR had a rifle-like solid stock. The bipod mount allowed the gun to be rotated relative to them. Widespread supplies of anti-tank rifles to the troops began in 1938, in total more than 5,000 were produced. Each infantry company was supposed to have 3 anti-tank rifles, and a cavalry regiment - 13. By September 1939. Polish troops had about 3,500 "kb.UR wz.35", which performed well in the fight against German light tanks.
Before the war, the German army also chose a 7.92 mm "rifle" caliber for the PTR: the single-shot "Pz.B-38" (Panzerbuhse, 1938) was developed by the Gustlow Werke company in Suhl for the powerful 7.92 mm cartridge of the "318" model ", which had an armor-piercing (with a tungsten carbide core) or armor-piercing incendiary bullet. Cartridge weight 85.5 g, zeros - 14.6 g, charge - 14.8 g, length "318" - 117.95 mm, sleeves - 104.5 mm. The barrel was locked with a vertical wedge bolt and could move backwards. The barrel and bolt moved in a stamped box, made integral with the barrel casing, with stiffening ribs. A conical flame arrester was placed on the barrel. Good flatness of the bullet trajectory at ranges up to 4(H) m made it possible to install a constant sight. The front sight with a guard and the rear sight were attached to the barrel. There was a handle on the right side of the barrel breech. Above the pistol grip on the left was a safety lever. At the back of the handle there was an automatic safety lever. The barrel return spring was placed in a tubular folding stock. The butt had a shoulder rest with a rubber buffer, a plastic tube for holding with the left hand, and folded to the right. To speed up loading, two “accelerators” were attached to the sides of the receiver - boxes in which 10 rounds were placed in a checkerboard pattern. A coupling with folding bipods, similar to a single MG-34 machine gun, was attached to the front part of the casing. The folded bipod was fixed on a special pin. A carrying handle was attached above the center of gravity. The PTR was too bulky for its caliber. The design of the Pz.B 38 gave V.A. Degtyarev the idea of using barrel movement to automatically open the bolt and partially absorb recoil. We saw that he applied this idea creatively.
The Pz.B-39 anti-tank rifle that replaced it was noticeably lighter with the same ballistics and locking system. It consisted of a barrel with a receiver, a bolt, a trigger frame with a pistol grip, a butt, and a bipod. The barrel was motionless, the active muzzle brake at its end absorbed up to 60% of the recoil energy. The wedge shutter was controlled by swinging the trigger frame. To extend service life, the bolt had a front replaceable liner. A hammer strike mechanism was mounted in the bolt; the hammer was cocked when the bolt was lowered. The bolt was closed on top with a flap that was automatically folded back when unlocked. The trigger mechanism included a hammer sear, a trigger, and a safety lever. The fuse box was located on top behind the bolt socket; in its left position (the letter “S” is visible), the sear and bolt were locked. On the left, in the receiver window, a mechanism for extracting the spent cartridge case was mounted. The cartridge case was ejected after unlocking (lowering the bolt) with the extractor slide back and down through the window in the butt. "Pz.B-39" had a folding forward-down stock with a cushion and a tube under left hand, wooden fore-end, rotating handle and carrying strap. The overall length, barrel length, bipod and boosters were similar to the Pz.B 38. Let us note that in September 1939 The Wehrmacht had only 62 anti-tank rifles, and by June 1941. - already 25,298. PTRs were included in almost all units of the Wehrmacht ground forces: in 1941. in the infantry, motorized infantry, mountain infantry and engineer companies there was an anti-tank rifle unit with 3 guns each, 1 anti-tank rifle had a motorcycle platoon, 11 had a reconnaissance squad of a motorized division.
The Czech 7.92-mm MSS-41 PTR chambered for the same cartridge, which appeared in 1941, had an interesting design. The magazine was located here behind the pistol grip, and reloading was done by moving the barrel back and forth. The bolt was part of a fixed butt plate and was engaged with the barrel by a coupling. The clutch rotated when the pistol grip moved forward and upward. Further movement of the handle moved the barrel forward. In the forward position, the barrel with its protrusion hit the reflector slide, and the reflector, turning, threw the spent cartridge down. During the reverse movement, the barrel “ran over” the next cartridge. By turning the pistol grip down, the barrel was locked with the bolt. The impact mechanism is striker type. The trigger mechanism was assembled in the handle, and on its left side there was a safety lever that locked the trigger rod and clutch latch in the rear position. Sights consisted of a folding front sight and sight. An active muzzle brake was attached to the barrel. Magazine – replaceable, box-shaped, sector-shaped, for 5 rounds; after the next cartridge was fed, the remaining ones were held by the cut-off lever. The butt with a cushion, shoulder pad and cheek piece was folded up while on the move. The PTR had a folding bipod and a carrying strap. With the same ballistic qualities as the Pz.B-39, the Czech PTR was compact: length in combat position - 1360 mm, in stowed position - 1280 mm; weight – 13 kg. However, the PTR was difficult to produce and was not widespread. It was used at one time by parts of the SS troops.
The ineffectiveness of the 7.92 mm PTR against Soviet T-34 and KV tanks became obvious in the very first months of the war. At the end of 1941 The Wehrmacht received the so-called "heavy anti-tank rifle" "2.8/2 cm s.Pz.B-41" with a conical bore. The conical bore of the barrel, tapering towards the muzzle, allows for more complete use of the powder charge, obtaining high initial projectile velocities, while simultaneously increasing its lateral load with acceleration. Let us note that a gun with a conical bore, special rifling and a specially shaped bullet was proposed back in 1905 by the Russian inventor M. Druganov and calculated by General N. Rogovtsev, and in 1903 and 1904. A patent for a gun with a conical barrel was received by the German K. Puff. Extensive experiments with conical barrels were carried out in the 20-30s by the engineer Gerlich at a testing station, respectably called in German "German Test Institute for Manual firearms"in Berlin. In Gerlich's design, the conical section of the barrel bore was combined with short cylindrical sections in the breech and muzzle, and the rifling, the deepest at the breech, gradually faded away towards the muzzle. This made it possible to more rationally use the pressure of the powder gases - experimental 7 -mm PTR "Halger-Ultra" of the Gerlich system had an initial bullet speed of 18 (H) m/s The projectile (bullet) had crushable leading belts, which, when moving along the barrel, were pressed into recesses on the projectile.
The s.Pz.B-41 barrel had a caliber of 28 mm at the breech and 20 mm at the muzzle. Armor-piercing bullet with a solid core. An active muzzle brake was attached to the barrel. A socket for a horizontal wedge bolt was cut into the massive breech. The system was installed like a light artillery carriage with tubular frames. The barrel and cradle were mounted on axles in the sockets of the upper machine, connected to the lower one by a vertical axis. The absence of lifting and turning mechanisms simplified and lightened the design. There was a shield cover; the sight mounted on the left was also protected by a double shield. PTR was used on two types of installations. The single-chassis lower machine, easy to install, had skids and small wheels could be installed. The carriage provided circular horizontal guidance, and vertical guidance from -5 to +45, the height of the line of fire varied from 241 to 280 mm. The weight of the s.Pz.B-41 on a light machine was 118 kg. For carrying, s.Pz.B-4) was disassembled into 5 parts. The heavy installation had sliding frames and wheel travel, horizontal guidance was provided in a sector of 60°, vertical guidance - 30°. The "heavy anti-tank rifle" was a purely positional - "trench" - anti-tank weapon. However, its appearance at the front was one of the factors that forced Soviet tank builders to once again turn to the issue of improving armor protection. The production of systems with conical barrels was technologically complex and expensive - a property inconvenient for front-line anti-tank weapons.
PTR of foreign countries
Polish PTR UR. wz.35 caliber 7.92 mm
German 7.92 mm anti-tank rifle PzB-39
28/20 mm anti-tank gun mod. 1941 with a conical barrel, which the Germans called a PT gun (s.Pz.B-41)
Boyce anti-tank rifle caliber ".550" (13.37 mm)
Japanese 20-mm anti-tank rifle model 97
Finnish 20-mm anti-tank rifle VKT mod. 1939
Before the war, the British Army received the Mkl "Boyce" magazine-fed anti-tank rifle, developed by Captain Boyce back in 1934, initially chambered for the 12.7 mm Vickers heavy machine gun cartridge. Then the caliber was increased to 13.39 mm (caliber ".550"). The PTR, produced by BSA, consisted of a barrel with a receiver, a bolt, a frame (cradle) with a folding bipod, a butt plate, and a magazine. A box-shaped muzzle brake was attached to the barrel, and the barrel itself could move somewhat along the frame, compressing the shock absorber spring. The barrel bore was locked by turning the longitudinally sliding bolt, which had 6 lugs and a curved handle. The bolt contained a firing pin with a ring on the tail, a mainspring, an ejector and a reflector. The trigger mechanism is of the simplest type. On the left side of the receiver there was a safety lever that locked the firing pin in the rear position. Sights placed to the left on brackets included a front sight and a diopter sight with the diopter set at 300 and 500 m, or only at 300 m. A single-row box magazine was mounted on top. The pistol grip was tilted forward. The butt plate had a rubber cushion, a “cheek”, a handle for the left hand, and an oil can was placed in it. The bipod was a T-shaped support with openers and a screw pin with an adjusting sleeve.
Since 1939 Each infantry platoon was assigned one anti-tank rifle. "Boys" were also transferred to Polish units as part of the British Army; about 1,100 "Boys" were delivered under Lend-Lease to the Red Army, where they, however, were not successful. But the German Wehrmacht used captured Beuys very willingly.
In the USA, at the beginning of the war, they tested a 15.2 mm anti-tank rifle with an initial bullet speed of 1100 m/s. Later, the US Army tried to use a 14.5 mm anti-tank rifle, and it was even proposed to install an optical sight on it. But this gun appeared late and was not successful. Already during the war in Korea, they tested - and very unsuccessfully - a 12.7 mm PTR.
The armies of Germany, Hungary, Japan, and Finland used heavy 20-mm self-loading rifles - a kind of branch of the “family” of large-caliber “anti-tank machine guns” that came close to artillery systems. The 20-mm Swiss self-loading anti-tank gun "Oerlikon" used by the Wehrmacht was created on the basis of the "anti-tank machine gun" of the same company, had automatic blowback recoil, and was magazine fed. PTR weight – 33 kg (perhaps the lightest in this class), length – 1450 mm, muzzle velocity – 555 m/s, armor penetration – 14 mm at 500 m. The automation of the Hungarian S-18 “Solothurn” operated according to the scheme barrel recoil with a short stroke, the magazine was attached to the left side of the receiver.
Soviet tank crews met the Japanese "97" (model 1937) already at Khalkhin Gol in 1939. The gun consisted of a barrel, a receiver, a moving system (bolt, wedge, bolt frame), a recoil device, a cradle and a magazine. The automation operated by removing powder gases.
The barrel in the middle part at the bottom had a gas exhaust chamber with a regulator for 5 positions. The chamber was connected by a tube to a gas distributor with two gas pipes. A muzzle brake in the form of a cylindrical box with longitudinal slots was attached to the barrel; the connection between the barrel and the receiver was a cracker. The barrel was locked with a bolt using a vertically moving wedge. A characteristic feature of the "97" is a bolt frame with two piston rods and two recoil springs. The reloading handle was made separately and was located on the top right. The receiver contained a shutter stop that was turned off when the magazine was attached. The impact mechanism is of the striker type, the impactor received the impulse from the bolt frame post through an intermediate part in the locking wedge. The trigger mechanism, assembled in the machine's trigger box, included a sear, a trigger lever, a trigger rod, a trigger and a disconnector. A safety lever located in the rear of the receiver blocked the firing pin in the upper position. The barrel with the receiver could move along the cradle machine, in the groove of which a recoil device was placed. The latter included a pneumatic recoil brake and two coaxial recoil springs. The PTR could fire in bursts (which is why it is sometimes called a “large-caliber machine gun” in our press), but at the same time its accuracy was too low.
The sighting devices - the front sight and the stand with a diopter - were placed to the left on brackets attached to the cradle. A box magazine with a staggered arrangement of cartridges was attached to the top. The store window could be closed with a lid. Attached to the cradle was a butt with a cushion, a shoulder pad and a “cheek”, a pistol grip and a grip for the left hand. The support was provided by a height-adjustable bipod and a rear stand-lift, their position was fixed with locking bushings. The cradle had sockets for connecting tubular carrying handles - two at the back and one at the front. The bulky "97" was used mainly in defense.
The Finnish anti-tank rifle L-39 of the Lahti system, produced by VKT, also had automatic equipment for the removal of powder gases. The PTR consisted of a barrel with a gas chamber, a flat muzzle brake and a perforated wooden shroud-fore-end, a receiver, a trigger frame, a locking, impact and trigger mechanism, sighting devices, a butt plate, a magazine and a bipod. The gas chamber is a closed type, with a 4-position gas regulator and a guide tube. The barrel was connected to the receiver with a nut. The bolt is connected to the receiver by a vertically moving wedge. Locking and unlocking was carried out by protrusions of the bolt frame, made separately from the rod with the piston. A firing pin with a mainspring, an ejector and a rammer were mounted in the bolt. The swinging reloading handle was located on the right. Distinctive feature The Finnish anti-tank rifle had two trigger mechanisms: a rear one for holding the mobile system in combat platoon, and a front one for holding the firing pin. In front of the pistol grip, inside the trigger guard, there were two triggers: the lower one for the rear trigger mechanism, the upper one for the front. A safety lever located on the left side of the receiver blocked the trigger lever of the front trigger mechanism when the flag was in the forward position. The sequential release of first the moving system and then the striker reliably prevented an accidental shot and did not allow firing too quickly. Sights included a front sight on the barrel and a sector sight on the receiver. The sector magazine, large for PTR capacity, with a staggered arrangement of cartridges, was attached to the top. The store window on the march was closed with a folding panel. The butt plate had a height-adjustable rubber shoulder rest and a wooden “cheek” pad. The bipod was equipped with skis and was separated from the gun during the hike. Forward-facing stops could be attached to the bipod with screws - with them the PTR rested on the parapet of the trench, hillock, etc. The design of the PTR shows careful consideration of the specific conditions for using weapons - a minimum of holes in the receiver, a magazine window shield, skis on a bipod.
Let us note that the USSR also tried to create more powerful anti-tank guns of “artillery” calibers. So, in 1942 a successful example of the 20-mm RES anti-tank rifle with a wheel drive (similar to the Maxim machine gun) and a double shield appeared. But the path of “enlargement” of the PTR was already futile. In 1945 prominent domestic weapons specialist A.A. Blagonravov wrote: “In existing form this weapon (anti-tank rifle) has exhausted its capabilities.”
This conclusion, we note, applied to this type of weapon as an anti-tank weapon. However, already in the 80s, a kind of revival of anti-tank guns began in the form of large-caliber sniper rifles– after all, even during the Second World War they tried to use PTRs with optical sights. Large-caliber rifles - American M82 A1 and A2, M 87, 50/12 TSW, Austrian AMR, Hungarian "Gepard Ml", Russian B-94 - are intended for combating manpower at long ranges, hitting targeted targets (protected firing points, weapons reconnaissance, communications and control, radar, satellite communications antennas, light armored vehicles, vehicles, hovering helicopters, UAVs).
Interesting are the attempts made during the Second World War to use anti-tank rifles to arm light armored vehicles. So, in 1942 14.5-mm anti-tank guns were installed instead of machine guns on a batch of light armored vehicles BA-64, the German 28/20-mm "s.Pz.B-41" was installed on a light two-axle armored car SdKfz 221 ("Horch"), 14-mm English " Boyce" - on a small tank Mk VIC, an armored car "Morris-1" and "Humber MkJJJ", tracked armored personnel carriers "Yu/sh-versal". "Universal" with PTR "Boyce" were supplied to the USSR under Lend-Lease.
The normal caliber rifle cartridges with armor-piercing bullets available to the troops had armor penetration no higher than 10 mm at a range of 150-200 m and could only be used for shooting at light armored vehicles or shelters.
Heavy machine guns in pre-war period were considered as one of the front-line anti-tank weapons (20mm Oerlikon, Madsen, Solothurn, 25mm Vickers machine guns). Actually, the first heavy machine gun, the 13.37-mm German TUF, appeared as a means of fighting tanks and aircraft. However, during the war, large-caliber machine guns were used much more for the needs of air defense or shelling fortified firing points, and therefore are not considered here. Let us just note that it appeared in 1944. 14.5 mm machine gun S.V. The Vladimirov KPV (for standard 14.5 mm cartridges) was created as an “anti-tank”, but by the time of its appearance it could no longer play such a role. After the war, it became a means of combating air targets, manpower and light armored vehicles.
Table 1 Anti-tank rifles
* – Weight of PTR with two cartridge boxes – “loading accelerators”
**– length in combat position, in stowed position – 1255 mm
*** – The first number is the caliber of the barrel from the breech part, the second – from the muzzle part
Anti-tank hand grenades
To combat tanks, infantry widely used hand grenades - both special anti-tank and fragmentation grenades. This practice also originated during the First World War: then “bundles” of ordinary grenades and heavy grenades for destroying wire barriers (such as the Russian Novitsky grenade) were considered as anti-tank weapons. Already in the early 30s, such grenades were considered “an important defensive weapon... especially in cases of a surprise attack by armored units in closed... terrain.” Fragmentation grenades were held together with wire or cord. Thus, in the Soviet “Manual on Shooting” f935 and 1938, it was specifically indicated how to knit hand grenades model 1914/30. and arr. 1933 The grenades were tied together with twine or wire in groups of three or five, so that the handle of the central one would point in one direction, and the handle of the others would point in the opposite direction. F-1 or Milsa type grenades were tied tightly in a bag. It was recommended to throw the bundles over the tracks and chassis of the tank. Such bundles, but only equipped with 3-4 strings with weights, were also used to undermine wire fences. The German infantry used bundles of M-24 hand grenades: the grenades were tied in groups of seven, the wooden handle with the fuse was inserted only into the central one.
Special anti-tank grenades at the beginning of the war were heavy high-explosive projectiles. The Red Army was armed with the RPG-40 grenade, created by M.I. Puzyrev at GSKB-30 at Plant No. 58 named after. K.E. Voroshilov under the leadership of N.P. Belyakov and containing an explosive charge in 760. It had a cylindrical thin-walled body and was capable of penetrating armor up to 20 mm thick. The handle contained an inertial fuse with a safety pin. Before throwing, a detonator was inserted into the axial channel of the body through a hole in the lid. The throwing range is 20-25 m. Instructions for using the grenade were placed on the body. In terms of the “armor-piercing” effect of the grenade, it soon ceased to meet the requirements of anti-tank weapons - when it exploded on the surface of armor over 20 mm thick, it only formed a dent, without causing dangerous spalls of the armor from the inside. In 1941 Based on it, Puzyrev created the RPG-41 grenade with an explosive charge increased to 1400 g and armor penetration increased to 25 mm. However, the reduced throwing range did not contribute to the widespread use of the RPG-41. It was recommended to throw high-explosive grenades on the tracks, chassis, under the turret or on the roof of the tank's engine compartment. Among the soldiers, high-explosive anti-tank grenades were nicknamed “Tanyusha”.
In July 1941 The Military Council of the Northern Front issued an order to develop an anti-tank hand grenade for production at Leninfad enterprises. The famous designer M.D. Dyakonov and inventor A.N. Selyanka, based on the RGD-33 hand fragmentation grenade, created a high-explosive anti-tank grenade with an explosive charge increased to 1 kg, also designated RPG-41. Already in 1941. In Leningrad, about 798 thousand of these grenades were fired. High-explosive AT grenades with an increased charge of factory and semi-handicraft production were also used in the defense of Odessa and Sevastopol; various variants of AT grenades were created in partisan workshops.
The British anti-tank grenade "N 73 AT" with a cylindrical body 240 mm long and 80 mm in diameter had an inertial fuse with a safety lever. The weight of the grenade is 1.9 kg, the throwing range is 10-15 m. The body was painted yellow-brown with a red belt. The grenade was thrown only from behind cover.
From top to bottom: a bunch of M-24 hand grenades; RPG-6 anti-tank hand grenade; anti-tank grenade RPG-43.
German cumulative action anti-tank grenade PMW-1 – general form and in section (1 – body, 2 – cumulative funnel, 3 – explosive charge, 4 – wooden handle, 5 – detonator, 6 – fabric stabilizer strips, 7 – cap, 8 – fuse).
Given their large weight, the effectiveness of such grenades soon ceased to correspond to their purpose. The situation has changed radically thanks to the use of the cumulative effect. In 1943 Almost simultaneously, the RG1G-43 hand cumulative grenade appeared in service with the Soviet army, and the PWM-1 (L) with the German army.
PWM-1 (L) consisted of a teardrop-shaped body and a wooden handle. The case contained a charge made of an alloy of TNT and hexogen. A detonator was placed in the handle, and at the end there was an inertial fuse that was triggered at any angle of contact. A fabric stabilizer was placed around the handle, which was opened by four spring plates. In the folded position, the stabilizer held the cap; to remove it, a special tongue had to be pulled back. Expanding after the throw, the stabilizer pulled out the pin of a very sensitive fuse. The grenade head had an eyelet for hanging from a belt. The body was painted gray-beige. Grenade weight - 1.45 kg, charge - 0.525 kg, body diameter - 105 mm, length - 530 mm (handles - 341 mm), armor penetration normal - 150 mm, at an angle of 60" - up to 130 mm, throwing range - 20 -25 m. The training grenade (without equipment) PWM-1 (L) Ub was distinguished by three rows of holes on the body and its red color.
RPG-43 was developed by KB-20 designer N.P. Belyakov at the end of 1942 - beginning of 1943. April 16, 1943 it passed testing grounds, and on April 22-28 - military tests and was soon put into service. Already in the summer of 1943. she began to enlist in the troops. The body had a flat bottom and a conical lid. The sting was placed under the cover and the spring was sunk. The removable handle housed an inertial fuse, a two-band stabilizer and a safety mechanism. The laid stabilizer was covered with a cap. Before throwing, you had to remove the handle and rotate the fuse fuse to tighten its spring. The handle was reattached, and the safety pin was pulled out by the ring. After the throw, the safety bar flew off, the stabilizer cap slid off the handle, pulling out the stabilizer and at the same time cocking the fuse. The stabilizer ensured the correct flight of the grenade with the head part forward and the minimum angle of impact. The weight of the RPG-43 is 1.2 kg, the charge is 0.65 kg, and normal armor penetration is 75 mm.
Appearance in battles on Kursk Bulge German tanks T-V "Panther", T-VI "Tif" and the heavy tank fighter "Elephant" ("Ferdinand") required increasing the armor penetration of grenades to 100-120 mm. At the Moscow branch of NII-6 of the People's Commissariat of Ammunition, designers M.Z. Polevikov, L.B. Ioffe, N.S. Zhitkikh developed the RPG-6 cumulative grenade, which passed military tests already in September 1943. and put into service at the end of October. The RPG-6 had a teardrop-shaped body with a charge (of two bombs) and an additional detonator and a handle with an inertial fuse, a detonator capsule and a tape stabilizer. The fuse firing pin was blocked by a pin. The stabilizer strips (two long and two short) were placed in the handle and held in place by a safety bar. The safety pin was removed before throwing. After the throw, the safety bar flew off, the stabilizer was pulled out, the firing pin was pulled out - the fuse was cocked. RPG-6 weight – 1.13 kg, charge – 0.6 kg. throwing range – 15-20 m, armor penetration – up to 100 mm. In terms of technology, a significant feature of the RPG-6 was the absence of turned and threaded parts, the widespread use of stamping and knurling. Thanks to this, mass production of the grenade was established before the end of the year. RPG-43 and -6 were thrown at 15-20 m, after throwing they had to take cover.
Total in the USSR in 1942-45. about 137,924 (NU anti-personnel and 20,882,800 AT hand grenades were released. By year: in 1942 - 9232, in 1943 - 8000, in 1944 - 2830 and in 1945 - only 820.8 thousand. You can see a decrease in the share of hand grenades in the AT system of infantry ammunition.
The problem with hand-held anti-tank grenades was the slow response of the fuse - a grenade that hit the target could explode, having already rolled off or bounced off the armor. Therefore, various attempts were made to “attach” grenades to armor. The British used the so-called. "sticky bomb" - high-explosive grenade "N 74 (ST)". The explosive was placed in a glass ball with a diameter of 130 mm. The ball was covered with a woolen bag covered with a sticky substance. A 5-second remote fuse with a pin was placed in a long handle. Grenade weight – 1.3 kg, total length – 260 mm. Before throwing, the tin casing was removed from the ball and the pin was pulled out. The grenade did not stick to vertical, wet armor. The British also created a soft grenade "N 82": its body was a knitted bag, tied at the bottom with braid, and tucked into a metal cap on top, onto which the fuse was screwed. The fuse was covered with a cap. The grenade was thrown at close distances and did not “roll” off horizontal surfaces. Due to the characteristic shape of the "N 82" garnet, it is also known by the nickname "Ham" ("ham" - ham).
The German “sticky” grenade consisted of a body with a shaped charge and a felt pad on the bottom, an “N8” detonator capsule and a grating fuse. The latter were similar to hand fragmentation grenades. The felt pad was soaked in glue and covered with a cap, which was removed only before throwing. The grenade had a length of 205, a diameter of 62 mm and was intended to combat light tanks and armored vehicles. More interesting is the “Haft N-3” magnetic grenade for combating tanks and self-propelled guns of all types. At the bottom of its conical body with a cumulative charge (ghzsogen with TNT), three permanent magnets were attached, which “fixed” the grenade on the armor in the most advantageous position. Before being thrown, they were protected from demagnetization by removable iron fittings. Detonator capsule – “N 8” A1. The handle contained a standard grating fuse with a delay of 4.5 or 7 seconds. The grenade was painted in green color. Total length – 300 mm, bottom diameter – 160 mm. The grenade was usually “landed” on the tank as it passed over the trench (crack), although it was also allowed to be thrown at a distance of up to 15 m. The Germans themselves in 1944-45. defended their combat vehicles-Ganks and assault guns – from magnetic grenades with “Zimmerit” coating: a 5-6 mm layer significantly weakened the force of attraction of the magnets. The surface was wavy. "Tzimmsrit" also protected vehicles from "sticky" and incendiary grenades.
The magnetic grenade was already close to anti-tank mines. "Grenade mines" were also used by the infantry of the warring parties. Thus, the British had a grenade "N 75" ("Hawkins MKG") with a flat body 165 mm long and 91 mm wide. On top of the body there was a pressure bar, under it there were two chemical fuses-ampoules. When the ampoules were destroyed by the pressure bar, a flame was formed, causing the capsule to explode -detonator, then an additional detonator was triggered, and from it - the explosive of the mine. "Hawkins" was thrown under the caterpillar of a tank or the wheel of an armored vehicle, and was used in minefields. The grenades were placed on a sled, tied to cords, thus obtaining a "moving" mine, " "pulled" under a moving tank. Flat anti-tank mines on bamboo poles and "moving" mines were widely and not without success used by groups of infantrymen - tank destroyers in the Japanese army: our tank crews had to deal with this back at Khalkhin Gol in 1939.
Tank "Royal Tiger" in Zimmerit coating, which protected against magnetic mines and grenades
Rifle anti-tank grenades
In World War II, almost all armies used rifle (rifle) grenades. It is worth noting that back in 1914. Staff Captain of the Russian Army V.A. Mgebrov proposed using his rifle grenade against armored vehicles.
In the 1930s, the Red Army was armed with the muzzle-loading "Dyakonov grenade launcher", created at the end of the First World War and subsequently modernized. It consisted of a mortar, a bipod and a quadrant sight and was used to destroy manpower with a fragmentation grenade. The mortar barrel had a caliber of 41 mm, three screw rifling, and a cup. The cup was screwed onto the neck, which was attached to the rifle barrel, secured to the front sight by a cutout. On the eve of the war, every rifle and cavalry squad had a grenade launcher.
Just before the start of the Great Patriotic War, the question arose about imparting “anti-tank” properties to a rifle grenade launcher. As a result, the VKG-40 grenade entered service. Its body had a streamlined shape, three leading protrusions on the cylindrical part. A bottom fuse was mounted in the conical tail section, which included an inertial body (“settling cylinder”), a detonator capsule, an additional detonator and a wire pin. The bottom part was closed with a cap. Length of VKG-40 – 144 mm. The grenade was fired with a special blank cartridge containing 2.75 g of VP or P-45 gunpowder. The barrel of the cartridge case was crimped with an “asterisk” and, like the head of the grenade, was painted black. The mortar also changed: a special front sight with a guard was attached to the neck, and a screw screwed into the barrel limited the advance of the grenade during chambering. Reduced charge blank cartridge allowed to fire a grenade at direct fire with the butt resting on the shoulder. Shooting was carried out at a range of up to 150 m, without a bipod, using a rifle scope: mark “16” corresponded to a range of up to 50, “18” – up to 100 and “20” – up to 150 m. The total weight of the rifle with a mortar was 6 kg, serviced such a “grenade launcher” by one person. The VKG-40 was used very limitedly, which is partly explained by the low accuracy of fire, and partly by the underestimation of the rifle grenade launcher in general.
Rifle anti-tank grenade VKG-40
German "Schiessbecher" grenade launcher mounted on the barrel of a "U8k" carbine (above) and a general view of the grenade launcher mortar. I – mortar barrel, 2 – cup, 3 – neck, 4 – carbine front sight, 5 – clamping device, 6 – clamping screw, 7 – clamping screw handle, 8 – carbine barrel.
At the beginning of 1942 The ramrod VPGS-41 ("Serdyuk rifle PT grenade model 1941"), created in the design bureau of the People's Commissariat of the Coal Industry, headed by Serdyuk, entered service. VPGS-41 consisted of a streamlined body with a charge and fuse and a “ramrod” tail inserted into the rifle barrel. A clip with an annular stabilizer was put on a cleaning rod equipped with a sealing groove. When the ramrod was inserted into the barrel, the stabilizer was pressed against the body, and after the grenade flew out, it was fixed at the rear end of the ramrod. The shot was fired with a blank cartridge. The firing range is up to 60 m, and against a stationary cluster of equipment – up to 170 m (at an elevation angle of 40 degrees). The accuracy and effective range were low, and the grenade, initially ordered in large quantities, was already in 1942. was withdrawn from production and service.
The partisans also had their own grenade launchers: for example, the PRGSh developed a very successful mortar from a 45-mm shell casing and a high-explosive fragmentation grenade in 1942. T.E. Shavgulidze.
The British Army used a 51-mm muzzle-loading smoothbore rifle grenade launcher to combat armored vehicles. The firing was carried out with the "N 68" grenade, which had a cylindrical steel body with a shaped charge (covered with a flat lid), an inertial bottom fuse, an igniter cap and a detonator cap. A stabilizer with four blades was screwed into the rear part of the body. The body was painted yellow-brown with red and green stripes. Shot - with a blank cartridge, from a rest, lying down, the fuse pin was removed before the shot. The firing range is up to 91 m (100 yards), but the most effective is 45-75 m. The grenade could also be fired from a light 51 mm mortar.
During the war, the US Army developed a system of rifle grenades, which included anti-personnel, anti-tank, training and smoke models. There were no mortars - the grenades were equipped with stabilizer tubes. The tube was mounted on a “throwing device” - a muzzle on the barrel of a carbine or rifle. The grenades were fired with corresponding blank cartridges. The M9-A1 anti-tank grenade had a streamlined body with a cumulative combat charge, a stabilizer tube and a bottom inertial fuse. The length of the grenade is 284 mm, the diameter of the body is 51 mm. The initial speed when firing from a carbine is 45 m/s, the firing range is up to 175 m, from a rifle – 55 m/s and up to 250 m. The accuracy of fire, however, made it possible to effectively fire at armored targets at much shorter ranges. For training, a training Ml 1-A2 without a charge was used, which repeated the M9-A1 in shape, size and weight. Feathered rifle grenades, fired from a small muzzle or from a flash suppressor, have proven to be the most promising direction for development of this type of ammunition.
The German grenade launcher "Schiessbecher" ("shooting cup") was a 30-mm rifled mortar weighing 0.835 kg. The barrel was screwed into a cup that smoothly turned into the neck. The mortar was placed on the barrel of a rifle or carbine and secured with a clamping device. The sight was fastened with a clip with a screw in front of the receiver on the left. The swinging part of it had a sighting bar with a front sight and a whole at the ends, a level and a sector back with divisions from 0 to 250 m through 50. The weight of the grenade launcher on the "98k" carbine was 5.12 kg, length - 1250 mm. The grenades had ready-made rifling, which, when loaded, was combined with the rifling of the mortar. Each grenade had its own blank cartridge sealed.
The caliber "small armor-piercing grenade" ("G.Pz.gr.") had an ogive-cylindrical body and rifling on the tail. The shaped charge was covered with a ballistic cap and detonated by a bottom inertial fuse through a detonator capsule and an additional detonator. The length of the grenade was 163 mm, the body was black. The grenade was fired with a cartridge containing 1.1 g of gunpowder, a wooden wad and a black ring around the primer. Initial speed – 50 m/s, firing range – 50-125 m.
With the outbreak of the war with the USSR, in order to increase the “armor-piercing” properties of the grenade launcher, the “large armor-piercing” grenade “Gr.G.Pz.gr.” had to be introduced into service. It was an over-caliber grenade with a thickened front part and a long “stem”. The stem had a threaded sleeve at the back (made of plastic or aluminum), which was inserted into the mortar. The bottom inertial fuse was cocked after the shot. Length – 185 mm, diameter – 45 mm, penetration – 40 mm – at an angle of up to 60 degrees, body – black. Shot - with a cartridge with 1.9 g of gunpowder and a black wooden bullet (wad). Initial speed – 50 m/s. With high armor penetration, the grenade had low accuracy, so shooting at moving targets was carried out at a distance of up to 75 m, at stationary targets - up to 100 m. When firing a regular cartridge from a rifle with a mortar, some excess of the sight was taken. Each infantry, tank-fighter and engineer company had 12 mortars, and field batteries had two. Each mortar was equipped with 30 fragmentation grenades and up to 20 “armor-piercing” grenades. However, as in the Red Army, in the Wehrmacht PT rifle grenades were used little, since “the impact of a rifle grenade on the crew and internal equipment of the tank was very insignificant” (E. Middeldorf).
Large rifle armor-piercing grenade Gz.G.Pz.gr. (capping and general appearance)
German anti-tank grenade launcher Gz.B.39
Table 2 Hand and rifle anti-tank grenades
By the end of 1941 the ineffectiveness of the 7.92 mm Pz.B.39 anti-tank rifle became clear, and in 1942. on its basis the Gr.B.-39 anti-tank grenade launcher ("Granatenbuche") was created. The barrel was shortened to 595-618 mm, the breech was simplified, the forend was removed, and a 30-mm rifled mortar was installed at the end of the barrel. Its cup was already screwed onto the PTR barrel. Mortar length – 130 mm, weight – 0.8 kg. Sights included front and rear sights on the left side of the weapon. The rear sight - a rear sight with a slot - was mounted on a bracket in a groove in the receiver. The front one was fastened with a clip on the breech of the barrel and consisted of a grid of six horizontal and one vertical threads: the horizontal ones marked distances of up to 150 m every 25, the vertical one formed sighting crosshairs. A casing with a shield with three holes was attached to the sight frame: the middle one served as an auxiliary front sight (range - 75 m) in the dark. Targeting the tanks was carried out along the lower edge of the turret, in the middle, or with a distance of 0.5-1 corps - when the target was moving. Firing at moving targets was carried out at a distance of up to 75 m, at stationary ones - up to 150 m. The weight of the grenade launcher is 10.5 kg, the length in the firing position is 1230 mm, in the stowed position - 908 mm, crew - 2 people. The shooting was carried out by "Gr.G.Pz.gr." with a reinforced stem and “improved rifling” or a special “large armor-piercing grenade model 1943.” The latter was distinguished by a drop-shaped shape, greater strength, a strong charge, and a fuse that was triggered at any angle of contact. Length of the "grenade model 1943" – 195 mm, diameter – 46 mm. The grenade had a light brown stem color, was fired only from the Sg.V-39 with a cartridge with a black wooden bullet (the cartridge case was for Pz.B.-39), the initial speed was 65 m/s. Firing “small” or unreinforced “large” grenades was not allowed: they could be destroyed when fired.
The desire to use any weapon as a weapon led to the creation of grenades for firing from signal pistols. At the end of the 30s, based on the "Walter" model 1934, the "Kampfpistole Z" ("zug" - rifling) was created. The bore had 5 grooves. The weight of the “pistol” is 745 g, length is 245 mm with a barrel length of 155 mm. It was converted into a grenade launcher by attaching a metal stock and a folding sight. The weight of such a grenade launcher was 1960. The PT over-caliber grenade “42 LP” consisted of a drop-shaped body with a charge (RDX with TNT) and a bottom inertial fuse and a rod with ready-made rifling at the end. The rod contained an igniter primer, an expelling charge of porous pyroxylin powder and a piston that, when fired, cut off the connecting pin and ejected the grenade. The length of the grenade is 305 mm, the largest diameter is 61 mm. To fire it from a conventional rocket pistol, an inserted rifled barrel was used.
Anti-tank finned rifle grenades with a cumulative warhead were actively developed in the first two post-war decades (French M.50 and M761, Belgian Energa, American M-31, Spanish G.L.61). However, already at the end of the 60s, the ineffectiveness of anti-tank rifle grenades against main battle tanks became clear, and further development followed the path of cumulative fragmentation grenades to combat light armored vehicles.
Anti-tank grenade launchers of the Second World War
R.Pz.H.54 "Ofenror" anti-tank rocket gun
The middle of the Second World War was characterized by qualitative changes in the armament of the ground forces, including infantry means of combating tanks at short and medium ranges. The decline in the role of anti-tank rifles was accompanied by the introduction of a new anti-tank weapon - hand-held anti-tank grenade launchers.
Work on light rocket and recoilless anti-tank weapons was carried out back in the 30s. Thus, in the USSR in 1931, the 65-mm “rocket gun” B.S., created at the GDL, was tested. Petropavlovsky for shooting from the shoulder. Its design contained a number of promising elements: an electric igniter for the engine, a shield to protect the shooter from gases. Unfortunately, after Petropavlovsky’s death in 1933, this development was not continued. At the beginning of 1933 The Red Army adopted 37-mm “dynamo-reactive anti-tank guns” by L.V. Kurchevsky (a total of 325 units were delivered), however, they were removed from service just two years later as they did not meet the requirements of armor penetration, maneuverability and safety. Note that the actual failure of Kurchevsky’s work undermined confidence in recoilless systems for some time. In OKB P.I. Grokhovsky in 1934, a fairly simple “manual dynamo-rocket launcher” was developed for firing at lightly armored targets. The armor-piercing effect of the shells was based, like armor-piercing artillery shells of that time, on their kinetic energy and was, understandably, insufficient at low speeds. For a number of reasons - including repression against design personnel - such work was stopped. They returned to them during the war.
In 1942, ML.Mil developed a jet AT weapon in a light machine version. At the same time, the SKB at the Kompressor plant took up “machines for 82-mm anti-tank mines” (missiles): under the leadership of A.N. Vasilyev, a double-barreled launching machine was created. At the GAU training ground, the development of a reusable hand-held grenade launcher RPG-l with an over-caliber grenade was carried out (work manager G.P. Lominsky), at GSKB-30 (People's Commissariat of Ammunition) under the leadership of A.V. Smolyakov - RPG-2. During development, the enemy’s experience was naturally used (all captured samples of German RPGs were carefully studied and evaluated), as well as data on Allied RPGs.
RPG-1 included: 1) a 30-mm smooth launch tube with a hammer striker mechanism, a simple trigger, protective pads and a folding aiming bar, 2) a 70-mm cumulative grenade PG-70 with a black powder propellant charge (burned out before the grenade left pipes) and a rigid stabilizer. Aiming, like the German "Panzerfaust" (see below), was carried out along the rim of the grenade. The aimed firing range reached 50 m, armor penetration - 150 mm. In the spring of 1944 The RPG-1 was tested and production of the pilot batch was prepared, but the finalization of the grenade was delayed, and in 1948 work on this sample was stopped. The RPG-2 consisted of a 40 mm pipe and an 80 mm cumulative PG-2 grenade screwed with a propellant charge of black powder. Development lasted about five years, and the RPG-2 entered service only in 1949.
In the special technological bureau NII-6 of the People's Commissariat of Ammunition (NKBP), headed by I.M. Naiman, a group of designers developed the PG-6 hand-held grenade launcher. Using a special blank cartridge (4 g of gunpowder in a rifle cartridge case), an RPG-6 cumulative grenade (armor penetration up to 120 mm) in the pan or a standard 50-mm fragmentation finned mine was fired. By the beginning of 1945, a batch of PG-6 with reduced recoil was prepared for military testing. The weight of the system was about 18 kg, the firing range at tanks with an RPG-6 grenade was up to 150 m, and at manpower with a 50-mm mine - up to 500 m. With the end of the war, work on this system stopped.
Marshal of Artillery N.D. Yakovlev, who was the Head of the GAU during the war, wrote: “There were no active supporters of such anti-tank weapons as the Faustpatron... But it has proven itself perfectly..,” During the Great Patriotic War, our army really never received RPGs, but the foundation for their post-war development was laid.
The situation was different in Germany, where in the 30s they also spent a lot of money on “jet” and “dynamo-reactive” topics. In the middle of the war, Germany adopted the “infantry armament program,” where special attention was paid to anti-tank weapons. As part of the program, the infantry received new anti-tank grenade launchers. At the end of 1943 The Wehrmacht received the "8.8 cm R.Pz.B. 54" RPG ("Raketenpanzerbuchse"), created on the basis of the "Schulder 75" rocket launcher, taking into account the experience of American "bazookas" captured in North Africa, and designed to combat tanks of all types. "R. Pz.B. 54", better known as "Ofenror" ("offenrohr" - open pipe), consisted of a seamless smooth-walled pipe - a barrel, a shoulder rest with a shoulder pad, a handle with a trigger mechanism, a cocking handle with a safety lock, and a shackle with a front holding handle, sighting devices, a contact (plug) box, a latch for holding the grenade in the barrel. A shoulder strap was used for carrying.
Three rectangular guides were stamped along the entire length of the barrel; a wire ring was attached to the rear end, which protected it from contamination and damage and made it easier to insert a grenade from the breech. The electric ignition device was powered by a pulse generator. The rod - the core of the generator - was cocked with a special swinging handle in front of the trigger, while the safety was recessed. The current was supplied by protected wires to the contact box. Sights were attached to the left side of the tube and included a front sight - a front sight - and a rear sight - a frame with a slot. The position of the slot was adjusted during zeroing.
The rocket-propelled grenade "8.8-сш R.Pz.B.Gr. 4322" consisted of a body with a shaped charge (an alloy of TNT with hexogen) and an AZ 5075 impact head fuse with a safety pin, a powder engine, at the nozzle of which a ring stabilizer was attached, and a wooden block with electric igniter contacts. The body and tail were screwed together. The grenade was painted dark green. Before loading, the fuse pin was removed and the adhesive tape covering the contact block was removed. The fuse was cocked after the shot, about three meters from the muzzle. Grenade weight – 3.3 kg, length – 655 m, armor penetration – 150 mm normal. Grenades with an engine adapted to winter conditions had the inscription “arkt” on the tail section. In addition to the “arctic” one, a “tropical” (for North Africa) grenade was also tested. There were also training grenades "4320 Ub", "4340 Ub" and "4320 Ex".
The weight of the Ofenror without a grenade was about 9 kg, length – 1640 mm, firing range – up to 150 m, crew – 2 people, rate of fire – up to 10 rounds/min. The shooting was carried out from the shoulder. To protect against engine powder gases, the gunner had to wear gloves, a gas mask (without a filter), a hood and a helmet. In 1944 The RPG received light cover in the form of a rectangular shield with a window for aiming and a box for small spare parts. A safety bracket was installed on the muzzle of the barrel. The new model “R.Pz.B. 54/1” was called “Panzerschreck” (“panzerschreck” – thunderstorm of tanks). The weight of the Panzerschrek without a grenade is 9.5 kg.
The Ofenror and Panzerschreck were more cumbersome than the American M1 Bazooka, but significantly superior to it in armor penetration. The generator was more reliable than batteries in combat conditions, and the convenient contact box speeded up charging. In 1943-45. About 300,000 RPGs were produced. During the Berlin operation, Soviet troops encountered unusual “self-propelled tank destroyers” - B-IV tankettes armed with several 88-mm Ofenror-type tubes.
R.Pz.B.54II "Panzerschrek" - an improved model of a hand-held anti-tank grenade launcher
Rocket-propelled grenade P, - Pz.B.Gr.4322 for the Ofenror grenade launcher. 1 – fuse, 2 – head nozzle, 3 – body, 4 – explosive charge, 5 – tail part with a reactive charge, b – nozzle, 7 – electrical wire, 8 – wooden block with contact, 9 – cumulative funnel.
Dynamo-reactive anti-tank weapon"Panzerfaust1 (below - "Panzerfaust"-2). I - grenade body, 2 - explosive charge, 3 - cumulative funnel, 4 - detonating device, 5 - fuse, 6 - wooden grenade rod, 7 - barrel, 8 - expelling charge , 9 – trigger mechanism
In 1943, the Wehrmacht also received a very effective weapon - the Panzerfaust dynamo-reactive device, referred to in the literature as the "faustpatrone". The name "panzerfaust" ("armoured fist") is associated with the popular German medieval legend of a knight with an "arm of steel". Several samples of "Panzerfausts" were adopted, designated as F-1 and F-2 ("system 43"), F-3 ("44"), F-4, of fundamentally the same design.
"Panzerfaust" was a disposable grenade launcher, built according to the simplest recoilless rifle design developed by G. Langweier. The basis was an open steel tube-barrel with a propellant charge and a firing mechanism. An over-caliber grenade (mine) was inserted into the pipe at the front. The propellant charge of black gunpowder was placed in a cardboard case and separated from the grenade with a plastic wad. A percussion mechanism tube was welded to the front of the pipe, which included a firing pin with a mainspring, a release button, a retractable stem with a screw, a return spring and a sleeve with an igniter primer. To cock the percussion mechanism, the stem was pushed forward, bringing the primer to the ignition hole, then pulled back and turned, removing the mechanism from safety. The descent was carried out by pressing a button. The firing mechanism could be safely de-cocked. The sight was a folding bar with a hole, and the front sight was the top of the rim of the grenade. In the stowed position, the bar was secured with a pin behind the eye of the grenade. In this case, it was impossible to cock the striking mechanism. To fire a weapon, the weapon was usually taken under the arm; they fired from the shoulder only at short range.
The grenade consisted of a body with a shaped charge (TNT/RDX), covered with a ballistic tip, and a tail section. The latter, when equipped, included a metal cup with an inertial fuse and a bottom detonator and a wooden rod with a 4-blade stabilizer. The folded stabilizer blades opened after leaving the barrel. The caliber of the F-1 grenade is 100 mm, the F-2 is 150 mm, the weight is 1.65 and 2.8 kg, respectively (charge -0.73 and 1.66 kg), normal armor penetration is 140 and 200 mm. The shape of the tip of the F-1 grenade was supposed to improve the formation of a cumulative jet. The total weight of F-1 is 3.25 kg, F-2 is 5.35 kg, length is 1010 and 1048 mm, respectively. The initial speed of the grenade is 40 m/s, sighting range firing F-1 and F-2 - up to 30 m, hence the names of the models "Panzerfaust-30 Klein" and "Panzerfaust-30 Gross". The F-3 (“Panzerfaust-60”) had a firing range of up to 60 m. The F-4 (“Panzerfaust-100”) model used a two-beam propellant charge with an air gap, providing a firing range of up to 100 m. The weapon was painted dark green or dirty yellow color. When fired, a sheaf of flame 1.5-4 m long burst out behind the pipe, as warned by the inscription "Achtung! Feuerstral!" ("Attention! Beam of fire!"). A long, hot gas jet made it difficult to shoot from tight spaces.
The first batch of "Panzerfaust" of 8000 pieces. released in August 1943, their widespread use began in the spring, and the most widespread - at the end of 1944. In 1945. a third model appeared (F-3) with a 150-mm grenade, an increased propellant charge, an elongated barrel and a longer sighting range. The F-3 sighting bar had three holes - at 30, 50 and 75 m.
Anti-tank rifle "Bazooka" and a grenade for it: 1 – ballistic ring of packs, 2 – body, 3 – explosive charge, 4 – fuse, 5 – stabilizer, 6 – electric igniter, 7 – propellant charge, 8 – cumulative funnel, 9 – contact ring.
"Panzerfausts" were easy to manufacture and master. In October 1944 400,000 of them were produced, in November - 1.1 million, December - 1.3 million, in 1945. – 2.8 million. Only short training in aiming, shooting and position selection was required. January 26, 1945 Hitler even gave the order to form a “tank destroyer division” from scooter companies with Panzerfausts. In addition to the troops, Panzerfausts were issued in large numbers to Volkssturm fighters and boys from the Hitler Youth. "Faustniks" were a dangerous enemy, especially in urban battles, where Soviet troops widely used tanks. It was necessary to allocate special groups of riflemen and machine gunners to fight the Faustians. Captured Panzerfausts were readily used in the Red Army. Colonel General Chuikov, noting the interest of Soviet soldiers in “Panzerfausts” (“Faustpatrons”), half-jokingly even suggested introducing them into the troops under the name “Ivan-patrons”.
"Panzerfaust", according to British experts, was "the best hand-held infantry anti-tank weapon of the war." Former Wehrmacht Lieutenant General E. Schneider wrote that “only shaped charges connected to a recoilless system... or in combination with a rocket engine... were a fairly successful means of short-range anti-tank defense.” But, in his opinion, they did not solve the problem: “The infantry needs an anti-tank weapon to be operated by one person and to be able to hit a tank and disable it from a distance of 150, and if possible, 400 m.” He was echoed by E. Middeldorf: “The creation of the Ofenror rocket-propelled anti-tank rifle and the Panzerfaust dynamo-reactive grenade launcher can only be considered as a temporary measure in solving the problem of infantry anti-tank defense.” Most experts already saw the “solution to the problem” in light recoilless rifles (such as the American 57 mm M18 and 75 mm M20 or the German LG-40) and guided anti-tank shells. The experience of local wars, however, showed the important importance of light RPGs, and recoilless rifles gradually faded into the background.
In 1942 The Ml "Bazooka" anti-tank rocket launcher was adopted by the US Army musical instrument). According to some reports, during the development, the Americans used information about the German Schulder 75 jet device. The RPG consisted of an open smooth-walled tube, an electric ignition device, a safety box with a contact rod, sighting devices, a pistol grip and a shoulder rest. A wire ring was attached to the rear section of the pipe to protect the pipe from contamination and to facilitate insertion of a grenade; on the front section there was a round shield (eccentric) to protect the shooter from powder gases. On top of the rear section there was a spring latch to hold the grenade. The electric ignition device included two dry batteries, a signal light, electrical wiring, and a contact contactor (trigger in front of the pistol grip). The wiring is made according to a single-wire scheme, the second wire is the pipe itself. The red light of the light bulb (on the left side of the shoulder rest) when pressing the contact contactor indicated the serviceability of the batteries and wiring. The safety box was attached to the top in front of the latch. To turn on the safety (before loading), its lever was lowered to "SAFE", to turn it off (before firing) it was raised to "FIRE". Sights were attached to the left side of the tube and included a rear sight-slot and a front sight - a frame with four front sights at fixed ranges. A shoulder strap was used for carrying. The M9 rocket-propelled grenade consisted of a streamlined body with a shaped charge, a ballistic tip and a bottom inertial fuse with a safety pin, a powder jet engine with an electric igniter and a 6-blade stabilizer. Contact between the grenade engine's electric igniter and the RPG's electric igniter was ensured by a contact ring on the ballistic tip (from the pipe) and a contact behind the body. Grenade body diameter - 60 mm (2.36 inches), weight - 1.54 kg, length - 536 mm, initial speed - 81 m/s, maximum - 90 m/s, armor penetration - 90 mm normal.
Weight Ml "Bazooka" - 5.7 kg, length - 1550 mm, sighting range against tanks - up to 200 m, against defensive structures - up to 365 m (400 yards), rate of fire - 4 rounds/min, crew - 2 people. The shooting was carried out from the shoulder. The Ml Bazooka was easy to use, but the grenade's armor penetration was insufficient. The design of the Ml "Bazooka" determined the development path of RPGs for a long time; the word "bazooka" became a household word.
The Ml Bazooka was first used in 1942 in North Africa. The Bazooka RPG has become the main weapon of the American Army infantry platoon for combating enemy tanks and firing points. Each company of the infantry battalion had 5 RPGs, another 6 were in the company heavy weapons. In total, about 460,000 of these RPGs were produced. At the end of the 40s, they were replaced by the 88.9-mm RPG M20 "Bazooka", created at the end of the war, but entered service during the battles in Korea. During the war, a single-barrel 115-mm M12 Bazooka rocket launcher was also used - the launch tube was suspended between the supports of a tripod. The accuracy of all shooting was extremely low.
In 1943, a 57-mm recoilless rifle was successfully tested in the USA. It reached the front only in March 1945. The gun weighed 20 kg with a projectile weight of 1.2 kg, and was fired from the shoulder or a light tripod using an optical sight. But the 75 mm gun weighing 52 kg turned out to be more successful.
In 1941, in Great Britain, under the leadership of Colonel Blakker, a “semi-automatic” anti-tank grenade launcher was created, adopted in 1942. into service under the designation "PIAT Mk.G ("Projektor Infantry Ami Tank, Mark I"). The design consisted of a steel pipe with a tray welded to the front, a massive bolt-striker, a recoil spring, a trigger mechanism, a bipod, a shoulder rest with a cushion and sighting devices.When loaded, the grenade (mine) was placed on the tray and covered the tube.
Anti-tank rifle "PIAT" Mk.l and grenade for it
The semi-automatic system operated due to the recoil of the bolt-striker: after the shot, it rolled back and stood on the sear of the trigger mechanism. When you press the trigger lever, the sear releases the bolt-striker, under the action of the recoil spring it rushes forward and breaks the primer of the grenade propellant charge, and the shot is fired “from the roll-out”, i.e. until the shutter reaches its extreme forward position. At this time, the sear came off the trigger lever and could have caught the bolt during rollback. Before the first shot, the bolt was cocked manually. The trigger mechanism had a safety lever on the right, which locked it when the flag was turned forward. The guide rod and limiter of the movement of the shutter was the rod of the shoulder stop, which covered the pipe from behind. Sights were attached to the left side of the tube and included a front sight and a folding diopter sight with two diopters - at ranges of 70 and 100 yards (64 and 91 m), an arc sight with a level was attached next to the diopter - for shooting at long ranges. The bipod was attached to the pipe behind the tray with a clip with a wing. In front of the shoulder rest there was a casing for holding the grenade launcher when firing with the left hand.
The grenade (mine) consisted of a streamlined body with a cumulative warhead, a head impact fuse, a bottom detonator capsule and a tail tube with a ring stabilizer. The fuse's fire beam was transmitted to the detonator capsule through a "fire transfer" tube. The propellant charge with a primer was placed in the tail tube. The diameter of the grenade body is 88 mm, weight is 1.18 kg, combat charge is 0.34 kg, initial speed is 77 m/s, armor penetration is up to 120 mm. “PIAT” weight (without grenade) – 15.75 kg, length – 973 mm, firing range at tanks – up to 91 m, at structures – 200-300 m, rate of fire – 4-5 rounds/min, crew – 2 people , standard ammunition - 18 grenades (min). Transferred U PIAT" on the shoulder strap.
The attribution of "PIAT" to reactive or "dynamo-reactive" systems seems erroneous: the propellant charge burned until the grenade completely left the tray, and the recoil was absorbed not by the reaction of the gas jet, but by a massive bolt with a "roll-out", a spring and a shoulder pad. "PIAT" was rather a transitional model between rifle and rocket AT systems. The absence of a gas jet made it possible - unlike rocket systems - to fire from enclosed spaces. The disadvantage of "PIAT" was its heavy weight. "PIAT" was considered as the main infantry anti-tank weapon in terrain where the use of anti-tank guns is difficult. The PIAT crews were part of the infantry battalion support company, the battalion headquarters company. "PIAT" were supplied to resistance units: in particular, the Home Army used them during the Warsaw Uprising of 1944. In the summer of 1947, PIAT's own production was established in Israel. In service with the British Army, the "PIAT" was replaced only in 1951. RPG "British Bazooka".
During the war, such “positional” weapons as heavy mounted grenade launchers appeared. So, in 1944 On the Soviet-German front, 88-mm grenade launchers "Puppchen" ("Puppchen" - doll) appeared, outwardly resembling an artillery gun. "Pupchen" operated on an active-reactive principle: the smooth barrel was locked with a bolt-door, and the powder gases from the grenade engine were used to push it out of the barrel. The grenade differed from the Ofenror in that it was slightly shorter in length and had a different engine ignition device.
The barrel was a 1600 mm long pipe with a socket at the end. A counterweight on the breech made aiming easier. The bolt was locked using a handle and crank. The bolt assembled the ejection, impact and safety mechanisms. The descent was carried out using a special lever. Sighting devices included a front sight and an open sight, notched from 180 to 700 m. The barrel with the breech and bolt was placed on trunnions in the upper carriage machine, welded from stamped parts. A 3 mm thick shield with inwardly curved edges and a window for aiming was attached to the upper machine. The lower machine consisted of a single-beam frame with a constant coulter, a pivot foot and a rule. Skids or stamped wheels with rubber tires were attached to the frame. In a traveling manner, the barrel was attached to the frame by a counterweight. There were no lifting or turning mechanisms. Vertical aiming angles range from – 20 to + 25 degrees, horizontal – +-30 on wheels and 360 on skids. The grenade's flight speed is up to 200 m/s, armor penetration is up to 150 mm. The most effective fire is at a distance of 180-200 m. A sign for firing at tanks was attached to the shield. Weight "Pupchen"
– 152 kg. It could be disassembled into 6 parts: barrel (19 kg), counterweight (23 kg), upper machine (12 kg), lower machine (43 kg), wheels (22 kg each). Calculation – 4 people. "Pupchen" was distinguished by its simplicity of design. The quantitative ratio of hand-held and mounted grenade launchers can be judged by the following figures: on March 1, 1945, the Wehrmacht had 139,700 Panzerschreck and 1,649 Pupchen. A 105-mm anti-tank rocket launcher was also developed - a tube about 2 m long on a tripod. The firing range was 400 m, the crew was 2 people.
Easel reusable grenade launchers with caliber and over-caliber grenades were also created in the USSR: in SKB-36 of the People's Commissariat oil industry under the leadership of A.P. Ostrovsky - SPG-82, in the Design Bureau of the Moscow Mechanical Institute - SPG-122 (head - A.D. Nadiradze). Ostrovsky presented the prototype of the LNG-82 in May 1942. Nadiradze's model was a continuation of the theme he began at TsAGI - a launcher for firing from the shoulder or a machine gun (code name "System"). To increase accuracy, the projectile was given rotation due to tangential nozzles (turbojet projectile). But the accuracy increased slightly, and the armor penetration of the cumulative warhead decreased during rotation. 408 82 mm "rocket guns" with 80 mm armor penetration were manufactured at the beginning of 1944, but the tests were not successful. Development work on LNG-82 and the same type LNG-122 were completed only in 1948, and in 1950. The SG-82 was put into service.
In 1945 near Budapest was captured from Hungarian units easel grenade launcher, designed for shooting at especially protected targets. It had a single-beam wheeled carriage with a coulter and wheels folding up. A light frame with two 60-mm launch tubes and a shield protecting the gunner from grenade engine gases was mounted on the rotating device. The grenades were launched simultaneously. Sighting firing range - up to 240 m. Reactive over-caliber grenade - so-called. “Sawashi’s Needle” consisted of a streamlined body, a powder jet engine and a turbine that provided rotation in flight. Two shaped charges were placed in series in the housing. The first (smaller in diameter) was triggered by an impact fuse and detonator and pierced the screen protecting the target, the second detonated with some delay from the explosion of the first. Characteristically, by the end of the war, weapons for hitting shielded targets appeared, although Soviet troops made little use of shielding vehicles with additional sheets or mesh.
On the left is the Pupchen anti-tank grenade launcher; on the right is the launcher for the Igla Sawashi rocket-propelled grenade.
Table 3 Anti-tank grenade launchers
* Data 854 "Ofenror" will be added in brackets
Work on guided weapons
The Second World War gave impetus to the development of various types of guided (high-precision) weapons. Anti-tank guided weapons were not then developed to practical application, however, some interesting experiments have been made.
The first suitable anti-tank system appeared in Germany. Here in 1943 under the leadership of Dr. M. Kramer, the X-7 "Rotkaphen" guided missile ("Rotk-appchen" - Little Red Riding Hood) was developed. The projectile was cruise missile small sizes - body diameter 140 mm, length 790 mm - weighing 9.2 kg with a forward-swept wing. The WASAG powder jet engine developed a force of 676 N during the first 2.6 s, and then 49 N for 8.5 s, providing the projectile with a speed of up to 98-100 m/s and a flight range of up to 1200 m. Control system, created on the basis of the X-4 aircraft projectile, included a stabilization unit, a switch, rudder drives, command and receiving units, and two cable reels. Stabilization of the flight position was ensured by a powder gyroscope, the signals from which were sent through a switch to the control relays. Signals from the control unit were transmitted through two wires with a diameter of 0.18 mm, wound on inertia-free coils (“views”) at the ends of the wings. The steering wheel was mounted eccentrically on an arcuate rotary rod and included a gas flow interrupter and stabilizing washers with deflectable plates (trimmers) at the ends. It served simultaneously as an elevator and a rudder. The armor penetration of a cumulative warhead with a contact fuse reached 200 mm. The launcher was a tray mounted on a tripod with contacts for the projectile wires. The installation was connected by cable to a remote command unit. The operator visually accompanied the projectile in flight, controlling it using handles in height and direction. Thus, the principles of the first generation ATGM were laid down in the X-7 Rotkaphen. By the spring of 1945 The Ruhrstal Brekwede company fired about 300 X-7 shells, but reports of attempts to use them in combat are very vague.
The groundwork in this area was created on the eve of the war in the USSR and France. According to some reports, after the war the French received from the Americans a significant part of the information on German developments. In any case, it is no coincidence that in the 50s it was the French who led the development of ATGMs.
Often among anti-tank weapons they mention "remote-controlled wedges" like the wire-controlled German "Goliath" (Sd Kfz 302, "device 302" or Motor-E, explosive charge 60 kg) and "Goliath" B-V (Sd Kfz 303, "device 671" or Motor-V, explosive charge 75 or 100 kg). Indeed, the fight against tanks was named among the tasks of these vehicles, but their main purpose (like similar Soviet developments) was considered to be the demolition of fortifications, reconnaissance of the anti-tank fire system and clearing of minefields. "Goliaths" were in service with special engineering companies as part of the 600th engineering battalion "Typhoon", an assault engineering brigade and cannot be considered among the "infantry close combat anti-tank weapons." The chassis of the controlled "heavy charge carriers" B-IV and "Shprnnger" was planned to be used for small-sized anti-tank self-propelled guns with launch tubes for anti-tank rocket-propelled grenades or recoilless rifles.
Among the Soviet developments during the war, we mention the “electric torpedo” ET-1-627, developed in August 1941 on the initiative of 3rd rank military engineer A.P. Kazantsev with the participation of the director of plant N 627 of the People's Commissariat of Electrical Industry (VNIIEM) A.G. .- Iosifyan. The wedge was assembled on a wooden frame, had elements of the chassis of a small tractor, a caterpillar with a rubber-fabric base and wooden track shoes, and an asynchronous electric motor driving the rear drive wheels. Movement and detonation were controlled via three wires. Already in September 1941. The newly formed plant N 627 received the task of producing the first batch of 30 wedges within a month. According to Kazantsev, the ET wedges were planned to be used on the streets of Moscow, and after the counter-offensive near Moscow they were used in battles on the Kerch Peninsula, where, in particular, they destroyed 9 enemy tanks. In this case, power and signals were supplied from a specially converted light tank. Then the ETs appeared on the Volkhov Front, during the breaking of the blockade of Leningrad. Models of tanks like the MT-34 were built on the ET chassis.
Guided anti-tank projectile "Rotkapfchen"
In a way, dogs were also “controlled”, or rather “living weapons”. The tactics of using demolition dogs were developed throughout the 30s and were tested in 1939 at Khalkhin Gol. The formation of tank-destroying dog squads in the Red Army began in August 1941 in Central Military school service dog breeding. The detachment included four companies of 126 dogs each. After the use of the 1st detachment near Moscow in the Klin direction, the commander of the 30th Army, Major General D.D. Lelyushenko reported that “the army needs anti-tank dogs and it is necessary to train more of them.” In July 1942, the composition of individual detachments was reduced to two companies, which made it possible to increase their number and make it easier to manage. In June 1943, the detachments were reorganized into separate battalions of mine-detecting dogs and tank destroyers (OBSMIT) consisting of two companies - a mine-detecting company and a fighter company. Tank destroyer dogs were specially trained to throw themselves under the bottom of tanks, and were taught not to be afraid of explosions and the sounds of gunfire. A pack containing 2-4 kg of explosives with a simple sensitive pin fuse was attached to the dog’s back. The dog was launched under the tank from a distance of 75-100 m. The positions for launching the dogs were prepared next to the riflemen. The dog handlers were armed with machine guns and grenades to destroy enemy tanks and manpower and fought like infantrymen. Tank destroyer dog units were abolished in the Red Army only in October 1943. In total, during the Great Patriotic War, dogs destroyed more than 300 tanks, self-propelled guns and armored vehicles. Discussions about the “humanity” or “inhumanity” of this method of fighting tanks are hardly appropriate in relation to the difficult conditions of war. Among the disadvantages of this method is the need to shoot “missed” dogs (which also involved regular snipers), since they already posed a danger to their own troops.
Incendiaries in the VET system
Various incendiary agents were widely used to combat tanks and armored vehicles during the Second World War. The effectiveness of their use in the anti-tank defense system was explained by the fire hazard of the tanks themselves; American and many British vehicles, whose engines ran on high-quality gasoline, as well as Soviet light tanks, were especially sensitive in this regard.
Incendiary weapons are considered the property of chemical troops, but during the war, “chemists” operated in combat formations of infantry units, so we are considering samples of incendiary weapons among “close-combat infantry weapons.” For the needs of anti-tank weapons, the units used incendiary grenades and bombs, portable and stationary (positional) flamethrowers.
Thus, the US Army had an ANM-14 incendiary grenade with a metal cylindrical body and a standard M200-A1 remote ignition fuse. Soviet tank destroyers used the so-called. “Thermite balls” are small balls of thermite (iron oxide with aluminum) weighing 300 g, with a grating igniter. The ball ignited almost instantly, the burning time reached 1 minute, the temperature was -2000-3000 degrees C. Having no shell, the ball was wrapped in paper to be carried in a pocket or bag.
This type of “grenade” has also become widespread, such as Molotov cocktails - a cheap and easily made improvisation that has proven its effectiveness during civil war in Spain. "Incendiary bottles" were widely used by Soviet troops in the initial period of the war - with an acute shortage of other anti-tank weapons. Already July 7, 1941 The State Defense Committee adopted a special resolution “On anti-tank incendiary grenades (bottles).” To produce them, beer and vodka bottles were used, filled with self-igniting liquids "KS", "BGS" or flammable mixtures N1 and N3 based on aviation gasoline. To prepare the latter, they used gasoline, kerosene, naphtha, thickened with oils or special OP-2 powder, developed in 1939 under the leadership of A.P. Ionov. The burning time of such mixtures (usually having a dark brown color) was 40-60 seconds, the temperature developed was 700-800°C, the mixtures adhered well to metal surfaces, like napalm that appeared later. The simplest “fire bottles” were plugged with a cork. Before throwing, the fighter had to replace it with a rag plug soaked in gasoline and set the plug on fire - the operation took a lot of time and made the “bottle” ineffective and dangerous. Two matches secured to the neck with an elastic band could also serve as a fuse. They were set on fire with a grater or box. In August 1941, a more reliable chemical fuse was adopted for the “bottles” by A.T. Kuchin, M.A. Shcheglov and P.S. Maltster: an ampoule with sulfuric acid, Berthollet salt and powdered sugar was attached to the bottle with a rubber band. The “fuse” ignited as soon as the ampoule broke along with the bottle. Self-igniting liquids “KS” and “BGS” containing phosphorus and sulfur (nicknamed the “Molotov cocktail” by the Germans) were a yellow-green solution with a burning time of 2-3 minutes, and a burning temperature of 800-1000 ° C. To protect the liquid from contact with air, a layer of water and kerosene was poured on top, the plug was secured with electrical tape or wire, and in winter a substance that was flammable even at -40°C was added. Instructions for use were stuck on the bottle. The bottle should have been thrown onto the roof of the tank's engine compartment. Experienced fighters spent 2-3 bottles to destroy a tank. Throwing range - 15-20 m. Bottles were a common weapon of partisans. The “combat count” of bottles is impressive: according to official data, during the war years, only 2,429 tanks, self-propelled guns and armored vehicles, 1,189 bunkers and bunkers, 2,547 other fortified structures, 738 vehicles and 65 military warehouses were destroyed with their help. Since the middle of the war, incendiary bottles have been widely used in the system of anti-tank mines and anti-personnel enclosures to create “fire explosives” - about 20 bottles were placed around a radius of anti-tank mines.
Incendiary bottles - "breakable grenades" - were used by most armies. Thus, the Americans used the MZ “glass grenade” with a breakable fuse on the rim; bottles with a phosphorus-containing mixture were used by the British. Polish Home Army during the Warsaw Uprising in 1944. used “bottle launchers” in the form of spring catapults and easel crossbows.
At the beginning of the war, a special rifle mortar appeared in the Red Army for firing (using a wooden wad and a blank cartridge) Molotov cocktails. Bottles were used with thicker and more durable glass. The target range of throwing a bottle with such a mortar was 80 m, the maximum was 180 m, the rate of fire with 2 people was 6-8 rounds/min. Near Moscow, a rifle squad was usually assigned two such mortars, and a platoon had 6-8 mortars. Shooting was carried out with the butt resting on a pound. The shooting accuracy turned out to be low, and the bottles often broke, so the mortar did not find wide use. At the fronts, it was adapted for throwing delayed-action thermite bombs of the “TZSh” type or smoke bombs when shelling bunkers or bunkers. During the battles in Stalingrad, the “Barricades” plant produced a “bottle launcher” designed by worker I.P. Inochkin.
The original incendiary weapon of the Red Army was the so-called. "Amullomet", used to combat manpower, destroy or blind enemy tanks and armored vehicles, shelling fortified buildings, etc. The ampulomet consisted of a barrel with a chamber, a bolt, a firing device, sighting devices and a carriage with a fork. The barrel is a pipe rolled from 2 mm iron sheet. Sights included a front sight and a folding sight post. The barrel was attached with pins to the fork of a carriage - a tripod, a wooden block or a frame on skis. The projectile was a metal ampoule AZh-2 or a glass ball with 1 liter of the “KS” mixture, fired with a 12-gauge blank hunting cartridge. The weight of the ampoule gun was 10 kg, the carriage - from 5 to 18 kg, the target firing range - 100-120 m, the maximum -240-250 m, crew - 3 people, rate of fire - 6-8 rounds/min, ammunition - 10 ampoules and 12 knockout rounds. Ampulometres were very simple and cheap “flame-throwing mortars”; special ampulette platoons were armed with them. In battle, the ampoule gun often served as the core of a group of tank destroyers. Its use in defense generally justified itself, but attempts to use it offensively led to large losses of crews due to short range shooting. At the end of 1942 ampoule guns were removed from service.
Table 4 Flamethrowers
Attempts made in the USSR at the beginning of the war to create “armor-burning” warheads based on a thermite charge accelerated by powder gases were unsuccessful and stopped with the transition to cumulative warheads.
The possibility of using flamethrowers in the fight against tanks was considered back in the First World War, but only theoretically. It was emphasized in a number of works and manuals on VET in the 1920s, with the caveat that this could occur “in the event of a lack of other means.” But in World War II, armies used flamethrowers quite widely as an anti-tank weapon in a variety of conditions.
Soviet troops used backpack pneumatic and "positional" high-explosive flamethrowers. The flamethrowers were equipped with viscous fire mixtures of A.P. Ionov. The ROKS-2 backpack flamethrowers had a capacity of 10-11 liters of fire mixture, designed for 6-8 shots, and a flame-throwing range of up to 30-35 m. Introduced in 1942. ROKS-3 had a weight of 23 kg, 8.5 liters of fire mixture were designed for 6-8 short (about 1 s) or 2-3 long shots, the flame-throwing range of the viscous mixture was up to 40 m. Separate companies (orro) and even battalions were formed (new) backpack flamethrowers. Companies were usually assigned in battle rifle regiment, were introduced into the engineering assault battalions. High-explosive flamethrowers of the FOG type (the fire mixture was ejected by the powder gases of the expelling charge) were less maneuverable, but had a more powerful jet; charging was designed for one shot (up to 2 s). FOG-2 (1942), for example, had a weight of 55 kg, a capacity of 25 liters of fire mixture, a flamethrowing range with a viscous mixture from 25 to 100-110 m. At the position, a high-explosive flamethrower was installed in a hole, fixed with pegs and camouflaged. The flamethrower squad (16 FOG) was located in the defense in three “bushes”. In the first winter of the war, the FOG was sometimes mounted on sleds or drags and used as a “mobile” in offensive battles. In 1943 Separate motorized anti-tank flamethrower battalions (omptb, in service -540 FOG) and separate flamethrower battalions (oob, 576 FOG) were formed, the main task of which in the offensive was to repel counterattacks of enemy tanks and infantry, and in defense - to fight tanks and manpower in the most important tank-hazardous directions.
In defensive battles, improvised flamethrowers were also used to repel enemy tank attacks. In besieged Odessa, for example, at the suggestion of engineer A.I. Leshchenko, trench flamethrowers were produced based on gas cylinders with a fire hose and a flamethrowing range of up to 35 m.
The German infantry had light and medium flamethrowers. Light backpack "kl.Fm.W." 1939 models weighed 36 kg, included a cylinder for 10 liters of fire mixture and 5 liters of nitrogen, a cylinder for 1 liter of hydrogen, a fitting with a fire hose, and could fire up to 15 shots at a distance of 25-30 m. It was supplied to chemical units of infantry units, and was also supplied to parachute units. landing units. He was replaced in 1944. came "F.W.-1" weighing 2^> kg, with 7 liters of mixture, with the same flame-throwing range. Note that in the “infantry armament program” the F.W.-1 appeared primarily as an anti-tank weapon. Medium flamethrower "m.Fm.W." (1940) weighing 102 kg, with a capacity of 30 liters of fire mixture and 10 liters of nitrogen, could fire up to 50 shots at a distance of up to 30 m, was transported by a crew of 2 people on a two-wheeled cart, and was used in defense.
An original thermite mine (land mine) was also designed in Germany: due to the shape and uneven strength of its body, a directed jet of high-temperature flame was formed during the explosion. Documentation on these developments was transferred to Japan, where, based on them, they created a heavy device supposedly capable of hitting a medium tank at 300 m. Soon, however, the device was converted into the Sakuradan bomb for kamikaze aircraft.
Tank destroyer tactics
Any weapon is effective only with appropriate tactics. Naturally, the VET system developed during the Second World War not only in “technical” but also in “tactical” terms. A new specialty was identified in the infantry - “tank destroyer”. Tank destroyers were respectively armed, organized, and the order of their combat work within the unit and interaction with other units was determined. Let's briefly consider some tactical points.
In the USSR already on July 6, 1941. An order from the Supreme High Command Headquarters demanded the creation of “tank destruction teams,” added “packets of explosives and... flamethrowers for light tanks” to grenades and bottles, and also recommended “night attacks against tanks.” To combat tanks, the most experienced “grenade launchers” were assigned to rifle units. They were supplied with anti-tank grenades and incendiary bottles and were located in single trenches and crevices in tank-hazardous directions. Interaction with anti-tank artillery, even where it was available, was poorly organized - according to pre-war views, batteries of anti-tank guns should have been located behind natural obstacles, and not moved into tank-dangerous directions. In combination with the short - no more than 25 m - range of grenades and bottles, this reduced the effectiveness of the “tank destruction teams” and led to large losses of personnel.
In the autumn of 1941 tank destroyer groups began to be created in all rifle companies in the Red Army. The group included 9-11 people and, in addition to small arms, was armed with 14-16 anti-tank grenades, 15-20 fire bottles, and acted in battle together with armor-piercing units - it was assigned 1-2 anti-tank gun crews. This allowed the infantry “during a tank attack not only to cut off enemy infantry, but also to take an active part in the fight against the tanks themselves.” Japanese troops on the islands Pacific Ocean and in Manchuria, suicide fighters were widely used, throwing themselves under a tank with a powerful charge. Although cases of being thrown under a tank with a grenade at particularly tense moments of battle occurred in all armies, perhaps only the Japanese made them a permanent element of the anti-tank weapons.
Table 4 Development of individual performance characteristics of Soviet and German tanks in the period 1939-1945
Infantry anti-tank weapons closely interacted with artillery weapons in battle. In the initial period of the war, the Red Army practiced “anti-tank units” in defense, in which anti-tank guns and anti-tank guns were located, covering them with rifle or machine-gun units. During the Battle of Moscow, within the battalion defense areas, anti-tank strongholds (PTOP) were created in tank-hazardous directions, which included 2-4 guns and PTS of rifle units. In the defense zone of the 316th Infantry Division from October 12 to October 21, 1941. PTOP destroyed up to 80 tanks. During the Battle of Stalingrad, the PTOP already included 4-6 guns and a platoon of anti-tank guns. In 1942, the magazine "Military Thought" wrote: "Anti-tank artillery...it is better to place groups of 2-6 guns in so-called anti-tank strongholds, reliably covered by anti-tank obstacles...provided with armor-piercing troops and tank destroyers." In the order to all army commanders, division and regiment commanders Western Front in relation to anti-tank missiles it was stated: “Anti-tank missiles are also attached to strong points, and it must be taken into account that the greatest effectiveness of their fire is obtained when used in groups (3-4 guns) ... Tank destroyers with anti-tank grenades, bundles of ordinary grenades and bottles with flammable liquid are an effective means of close combat battle against tanks. Groups of tank destroyers must be prepared at each strong point...” The VET instruction, issued by the General Staff in the fall of 1942, distinguished company VET units and battalion AT units in the VET system of regiments and divisions. According to the draft Field Regulations of 1943, the basis of the PTO were PT strongholds and areas. The PTOP usually included 4-6 guns, 9-12 anti-tank guns, 2-4 mortars, 5-7 machine guns, up to a platoon of machine gunners and a squad of sappers, sometimes tanks and self-propelled guns. 2-3 company PTOP were united into battalion nodes (4-6 in the division zone), covered by PT barriers and obstacles. Such a system fully justified itself during the defensive battle of the Battle of Kursk. Groups of tank destroyer sappers also worked closely with the rifle units, setting up explosive barriers directly in front of the advancing enemy tanks. For this, standard TM-41 mines, “mine belts,” were used. In defense, fighter sappers often installed anti-tank mines on sleds or planks pulled up by ropes. The mobile anti-tank reserve units also included platoons of tank-destroying dogs - they were located in tank-hazardous directions not far from anti-tank artillery positions. Such platoons also included crews of anti-tank rifles and light machine guns.
Infantry and artillery anti-tank weapons were often brought together and organizationally. Soviet anti-tank division rifle division, according to the 1942 state, had 18 45-mm anti-tank guns and a company of anti-tank guns (36 guns). And the US Army infantry regiment at the end of the war had a standard anti-tank battery (company), armed with nine 57-mm anti-tank guns and nine Ml Bazooka RPGs.
During the war, ideas of “enlargement” of tank destroyer units were repeatedly expressed. So, according to the memoirs of N.D. Yakovlev, in March 1943. The commander of the Volkhov Front, K.A. Meretskov, proposed introducing special “grenadier” units armed with anti-tank rifles and anti-tank grenades into the rifle troops. On the other hand, G. Guderian recalled that on January 26, 1945, Hitler gave the order to form a “tank destroyer division.” Given the formidable name, it was supposed to consist only of companies of scooter riders (cyclists) with “panzerfausts”, i.e. be another improvisation of the end of the war.
PTR, anti-tank grenades and mines were successfully used by the partisans. From June 20, 1942 to February 1, 1944 The Soviet Central Headquarters of the partisan movement handed over 2,556 anti-tank rifles, 75 thousand anti-tank missiles and 464,570 fragmentation hand grenades to the partisan detachments. The partisans made especially extensive use of incendiary bottles and homemade “moving” mines. Soviet partisans used PTRs to fire at enemy trains: steam locomotives or fuel tanks.
Some conclusions can be drawn regarding the development and combat use of anti-tank infantry weapons during the Second World War:
1. Combat experience has shown the urgent need to saturate infantry units (squad-platoon-company) with weapons capable of effectively hitting all types of tanks and armored vehicles at ranges up to 400 m.
2. During the war, the “range” of such weapons grew - both through the creation and improvement of special anti-tank weapons (PTR, RPG), and through the adaptation of “multi-purpose” weapons (flare pistol, rifle grenade launchers, flamethrowers). At the same time, anti-tank weapons differed: in the principle of the destructive action of ammunition (kinetic energy of a bullet, cumulative effect, high-explosive or incendiary effect), the principle of “throwing” action (small and rocket weapons, hand grenades), range (PTR - up to 500, RPG - up to 200 , hand grenades - up to 20 m). Some means were in service at the beginning of the war, others appeared during it and rapidly developed subsequently, while others (incendiary bottles, “sticky bombs”, ampulomet) were only “wartime improvisations”. Most fully developed new system Infantry anti-tank weapons were provided by German specialists in the middle of the war, but quickly depleted resources and the rapid actions of the Red Army did not give the Wehrmacht the opportunity to fully exploit this advantage. Regarding the anti-tank weapon system of the Red Army, it is worth noting that the rifle units at the end of the war, as at the beginning, had hand grenades as their main means, applicable at ranges of up to 20-25 m. The anti-tank guns were not replaced by new weapons with a range until the end of the war up to 500 m. The fight against enemy tanks was again entrusted entirely to the artillery, which received in 1942-43. new anti-tank guns (45-mm M-42 cannon, 57-mm ZIS-2, 76-mm ZIS-3), as well as cumulative shells for regimental guns and divisional howitzers. However, neither the growth of anti-tank artillery nor its closer interaction with the infantry relieved the latter of the need to fight enemy tanks in front of its positions with its own means.
3. The infantry anti-tank weapon system began to change dramatically from mid-1943. – the main role switched to models with a cumulative warhead, primarily to RPGs. The reason for this was a change in the armored armament system of the armies - the removal of light tanks from combat units, an increase in the thickness of the armor of medium tanks and self-propelled guns to 50-100 m, heavy ones - to 80-200 mm. The complex of anti-tank weapons that developed in the post-war period had already taken shape almost by the spring of 1945. (taking into account experiments with a guided anti-tank projectile).
4. The increase in the saturation of troops with light anti-tank weapons operating in infantry combat formations increased the survivability, independence and maneuverability of units and units, and strengthened the overall anti-tank system.
5. The effectiveness of anti-tank weapons in combat was determined not only by their performance characteristics, but also by the complex use of these weapons, the organization of close interaction between infantry, artillery and sappers in both defensive and offensive battles, and the degree of preparedness of unit personnel.
14.5 mm Degtyarev anti-tank rifle (PTRD) USSR 1941
14.5-mm automatic anti-tank rifle Simonov (PTRS) 1941 USSR
R reactive disposable anti-tank grenade launcher "Panzerfaust" F-2 Germany 1944
7.92 mm anti-tank rifle PzB 1939 Germany
7.92 mm anti-tank rifle "UR" Poland 1935
13.9 mm anti-tank rifle "Boyce" Mk I 1936 Great Britain
Rocket-propelled disposable anti-tank grenade launcher "Panzerfaust" F-1 Germany 1943
88-mm anti-tank rocket gun "Ofenror" 1943 Germany
88-mm projectile for anti-tank rifles
88-mm rocket anti-tank gun "Pantsershrek" 1944 Germany
60-mm M1 anti-tank rocket gun (Bazooka) USA 1943
88.9 mm M20 anti-tank rocket launcher (Super Bazooka) USA 1947
German anti-tank towed guns of the 2nd World War
50-mm anti-tank gun Rak-38
37-mm anti-tank gun Rak-35/36
75 mm anti-tank gun Rak-40
47-mm anti-tank gun Rak-37 (t)
88-mm anti-tank gun Rak-41/43
ABOUT main battle tank T-72
Main battle tank "Merkava" Mk2 Israel
Main battle tank "Challenger" Mk1 UK
Main battle tank M1A1 "Abrams" USA
