The first flight and production of the KUB-10E attack drone were shown in Russia. The KUB-10E UAV belongs to the KUB series of drones, but as can be seen from the video, the drone has become completely different. The KUB-10E drone is designed to destroy unarmored military equipment and other objects. The manufacturer does not report the flight range of the KUB-10E drone and its combat capabilities, but it is known that they have increased significantly. The previous version of the KUB drone could fly 50 km, technical information on it is on the channel, it has positive reviews from military personnel. The body of the KUB-10E drone is similar to the Granat-4 UAV, information about it is on the channel. Like the basic model, the new KUB-10E drone is launched from a catapult and reaches a speed of 100 km / h, at a flight altitude of 100 to 2.5 thousand meters. The weight of the warhead is not specified, in the basic version it was about 3 kg. The KUB-10E drone is guided by GPS coordinates or using an optical-electronic system. The drone is equipped with an internal combustion engine.
Mil News Russian Military News & Discussion
- Thread starter BravoZulu
- Start date
S-500 (NATO Codename: SA -?)
armyrecognition.com
Breaking News: Russia Forms First Regiment Equipped with New S-500 Prometheus Air Defense Missile System
Breaking News: Russia Forms First Regiment Equipped with New S-500 'Prometheus' Air Defense Missile System
armyrecognition.com
Another video with the new Gibka-S air defense system. The Gibka-S system is used by air defense personnel of the 30th motorized rifle brigade of the "Central" group of forces. The servicemen accompany military columns of the Russian army. The Gibka-S mobile air defense group includes two combat vehicles created on the basis of the Tigr vehicle: one is equipped with a radar station, the second is equipped with a launcher with four Verba MANPADS missiles. Technical information about the Verba MANPADS and the Gibka-S air defense system is in the links in the comments to the video. The Gibka-S air defense system can hit targets on the move, at speeds up to 30 km / h. The estimated cost of the Tigr armored car with the Verba MANPADS launcher is about 400 thousand dollars. Details of the Gibka-S air defense crew in the video.
The long-awaited set of factory equipment for remote control of the Konkurs-M ATGM is shown in Russia. It is worth noting that the military personnel have been waiting for several years for the creation of this equipment for the ATGM. The remote control for the Konkurs-M ATGM was developed by the Russian company Kirov Plant Mayak. The remote control allows you to safely control the ATGM from cover. One set of remote control allows the operator to remotely, in turn, control three Konkurs-M ATGMs. Currently, remote control has been developed only for the Russian Konkurs-M ATGM. The set allows you to remotely control the ATGM at a distance of up to 100 meters using a cable. The time it takes to prepare the ATGM for combat, taking into account the installation of attachments, is no more than 20 minutes. The weight of the remote control equipment is no more than 10 kg, the operating time is up to 8 hours.
Footage of the new Russian 152-mm Malva self-propelled howitzer, equipped with a different long-range artillery weapon. In this version, the 2S43 Malva self-propelled howitzer is additionally equipped with anti-drone shields, a camouflage net, and has a standard electronic warfare system to protect against drones. Previously, the Malva self-propelled howitzer was criticized for its low firing range, after which the developers promised to replace the weapon. In this version of the Malva self-propelled howitzer, there is already a new weapon. Previously, the Malva self-propelled howitzer used a 2A64 gun with a barrel length of 47 calibers. According to the serviceman, the Malva self-propelled howitzer can now fire at a range of up to 50 kilometers. The self-propelled howitzer uses the Krasnopol-M guided projectile. Previously, the charges for the Krasnopol-M projectile were improved and prepared for use in the Koalitsiya-SV self-propelled howitzer, and they may have also helped increase the firing range. This version of the Malva self-propelled howitzer is presumably armed with a modified version of the 2A36 Giatsint-B artillery gun. The use of this gun and modified Krasnopol shells equalized the combat capabilities of the Malva self-propelled howitzer and Western-style howitzers. Technical information about the Malva self-propelled howitzer and Krasnopol-M shells are in the comments to the video.
Footage of the assembly and preparation for takeoff of the Russian drone "Lancet-51". The loitering munition "Lancet-51", officially called "Product 51", is produced by the Russian company "Aeroskan", part of the ZALA AERO group of companies.
The drone "Lancet-51" is currently the most advanced and effective drone of the Russian army, technical information on the drone "Lancet-51" in the link in the comments.
The drone "Lancet-51" is currently the most advanced and effective drone of the Russian army, technical information on the drone "Lancet-51" in the link in the comments.
Footage of the evacuation to the rear by Russian servicemen of a Ukrainian M113 armored personnel carrier. The M113 armored personnel carriers were developed in the United States in 1957 and began to be used by the American army in 1960. The M113 armored personnel carrier was used by the Ukrainian army to evacuate the wounded, transfer infantry to the front lines and rotate personnel. The Ukrainian M113 IFV ran over a mine in the Kursk region and was abandoned by the crew. After repairs, the M113 IFV may be used by the Russian army
Footage of the preparation for takeoff of the Russian Su-34 frontline bomber. The video shows the assembly and installation of UMPK modules on Russian FAB aerial bombs and their installation on the aircraft. Refueling the aircraft with kerosene and nitrogen.
The New Year's batch of T-90M and T-72B3M tanks has entered service with the Russian Armed Forces. The tanks were manufactured at the Russian tank plant Uralvagonzavod. Over the past few years, over a hundred changes have been made to the design of Russian tanks. The tanks are now equipped with anti-FVP drone nets and rubber-reinforced protection, the "Mangal" type of protection. The rear, engine, and engine-transmission compartment of the tanks have received additional protection. In addition, the equipment is equipped with means of reducing visibility and electronic warfare systems to counter drones.
Rare footage of combat work of the Russian ZRPK 2K22M Tunguska-M and ZRPK 2K22M1 Tunguska-M1, as it turned out, this air defense is still actively used, but it is shown very rarely. The anti-aircraft gun and missile system 2K22 Tunguska or 2S6, was adopted by the USSR in 1982, it replaced the ZSU-23-4 Shilka air defense. Currently, the 2K22 Tunguska air defense system is used by eight countries, and the Ukrainian army also uses it. Russia has 250 Tunguska-M air defense systems of different versions, some of them are not in the best condition.
The developer of the Tunguska-M1 air defense system is the State Unitary Enterprise Instrument Design Bureau, and the Ulyanovsk Mechanical Plant is engaged in its production. The development of the 2K22 Tunguska air defense system was difficult, since the Osa-AK short-range air defense system appeared in the USSR in 1975. In some respects, the Osa-AK was better than the Tunguska air defense system, but the reaction time to some targets was better for the Tunguska air defense system. The Tunguska air defense system is designed to destroy air and ground targets, and it cannot shoot down some small drones and FPV, but there are exceptions. In 1990, the 2K22M Tunguska-M system was adopted for service. In 2003, it was upgraded to the 2K22M1 Tunguska-M1 level.
The Tunguska-M1 air defense missile and gun system is mounted on a GM-5975 or GM-352 tracked chassis. The system can be distinguished by its oval-shaped radar. The Tunguska-M1 air defense system is up to 1.5 times more effective than the previous version of the Tunguska-M system. The Tunguska-M1 modification features a fully automated process of missile targeting and information exchange with the battery command post, as well as other improvements. The Tunguska-M1 is equipped with a 1RL144 target detection radar and a target tracking radar, an optical sight, a digital computing system, and navigation equipment. The radar can detect targets at a distance of up to 18 km and track them from 16 km.
The system includes equipment for receiving and implementing external automated target designation. The 2S6M1 Tunguska-M1 combat vehicle is equipped with two 30-mm 2A38 automatic cannons, which are also installed on the Pantsir-S air defense missile system. The range of destruction of air targets is up to 3,000 meters at altitude and up to 4,000 meters at range. The Tunguska-M1 air defense missile system's missile armament consists of 8 9M311-M1 missiles. The 9M311-M1 missile has radio command guidance with an optical communication line. The missile can destroy targets moving at speeds of up to 500 m/s. The missile has a radar fuse with a response radius of up to 5 meters, and the warhead of the missile weighs 9 kg. The range of destruction of air targets by 9M311-M1 missiles is up to 10 km, and up to 3.5 km at altitude. The Tunguska-M1 air defense system weighs about 34 tons, has a speed of up to 60 km/h and is serviced by 4 operators. The estimated export price of the 2K22M1 Tunguska-M1 system is $7 million for a battery of 6 units, with support vehicles.
The developer of the Tunguska-M1 air defense system is the State Unitary Enterprise Instrument Design Bureau, and the Ulyanovsk Mechanical Plant is engaged in its production. The development of the 2K22 Tunguska air defense system was difficult, since the Osa-AK short-range air defense system appeared in the USSR in 1975. In some respects, the Osa-AK was better than the Tunguska air defense system, but the reaction time to some targets was better for the Tunguska air defense system. The Tunguska air defense system is designed to destroy air and ground targets, and it cannot shoot down some small drones and FPV, but there are exceptions. In 1990, the 2K22M Tunguska-M system was adopted for service. In 2003, it was upgraded to the 2K22M1 Tunguska-M1 level.
The Tunguska-M1 air defense missile and gun system is mounted on a GM-5975 or GM-352 tracked chassis. The system can be distinguished by its oval-shaped radar. The Tunguska-M1 air defense system is up to 1.5 times more effective than the previous version of the Tunguska-M system. The Tunguska-M1 modification features a fully automated process of missile targeting and information exchange with the battery command post, as well as other improvements. The Tunguska-M1 is equipped with a 1RL144 target detection radar and a target tracking radar, an optical sight, a digital computing system, and navigation equipment. The radar can detect targets at a distance of up to 18 km and track them from 16 km.
The system includes equipment for receiving and implementing external automated target designation. The 2S6M1 Tunguska-M1 combat vehicle is equipped with two 30-mm 2A38 automatic cannons, which are also installed on the Pantsir-S air defense missile system. The range of destruction of air targets is up to 3,000 meters at altitude and up to 4,000 meters at range. The Tunguska-M1 air defense missile system's missile armament consists of 8 9M311-M1 missiles. The 9M311-M1 missile has radio command guidance with an optical communication line. The missile can destroy targets moving at speeds of up to 500 m/s. The missile has a radar fuse with a response radius of up to 5 meters, and the warhead of the missile weighs 9 kg. The range of destruction of air targets by 9M311-M1 missiles is up to 10 km, and up to 3.5 km at altitude. The Tunguska-M1 air defense system weighs about 34 tons, has a speed of up to 60 km/h and is serviced by 4 operators. The estimated export price of the 2K22M1 Tunguska-M1 system is $7 million for a battery of 6 units, with support vehicles.
UAV carriers of two FPV drones, the Russian army began to use, tests are ending. There is no technical data on the UAV yet. This aircraft-type drone provides the ability to use two FPV drones, at a distance of approximately 20 - 25 km. The Russian UAV is also used as a communication repeater, it allows to increase the range of use of FPV drones.
Kalashnikov Unveils New Remote-Control System For Konkurs M Anti-tank Missile Tested In Ukraine
Kalashnikov Unveils New Remote-Control System For Konkurs M Anti-tank Missile Tested In Ukraine
armyrecognition.com
Specialists from the repair and restoration units of the Russian army showed homemade buggies they created. Now such buggies are in great demand in the Russian troops. To create buggies, servicemen use decommissioned Russian GAZ-66 trucks. The first prototypes of the GAZ-66 were created in the USSR in 1957, the cars were produced until 1999. The buggies are assembled from a steel profile pipe and an engine, transmission and suspension are installed on it. The steering wheel, seats, pedals and dashboard are also removed from the GAZ-66. To protect servicemen from shrapnel and bullets, sheets of metal are welded onto the buggies.
Rare footage of Russian pilots training on the simulator complex of the Russian Tu-22M3 bomber. Officially it is reported about the Tu-22M3 simulator, but the cockpit is similar to the Tu-160, perhaps the simulator is universal. Pilots and navigators of the Russian long-range aviation practice tasks in emergency situations on the simulator complex of the Tu-22M3 aircraft. During the training, the pilots conducted training in adverse weather conditions, zero visibility, with various failures of onboard radio-electronic equipment, such as engine failure or loss of radio communication. In addition, while working on the simulators, the pilots practiced the tactical destruction of command posts, combat equipment and fire suppression of advancing forces of the imaginary enemy
The Russian coastal detachment "Tiger" received new T-80BVM tanks. The servicemen demonstrated one of the tanks. Russian T-80BVM tanks are equipped with a set of thermal and radar visibility reduction "Nakidka". Additional protection against drones is installed on the turret and engine-transmission compartment of the tank. The tank is also protected from drones by electronic warfare systems.
Rare footage of the Russian BTR-MRU-D air defense reconnaissance and control vehicle, based on the BTR-MDM Rakushka. The MRU-D is used by the Russian Airborne Forces and is equipped with the MRU-D (9S932-2) air defense reconnaissance and control module with the 1L122-1 Garmon radar. In this case, the MRU-D works together with the Russian Strela-10 air defense missile system. The MRU-D radar was first shown in 2018 and is designed to detect air targets at low and medium altitudes. The MRU-D air defense module operators transmit data via secure communication channels for target designation by the Strela-10MN air defense missile system or by crews with the Verba MANPADS. The MRU-D radar is capable of detecting targets at a range of up to 40 km, at target flight speeds of up to 700 m/s and flight altitudes of up to 10 km. The MRU-D radar can track up to 100 targets simultaneously. The radar is ready for operation for 5 minutes, and is controlled by two operators. Information about the BTR-MDM is available on the channel.
ZALA has presented a new compact launcher for the Russian drone "Lancet-51", officially called "Product 51". The new design of the launcher for the drone "Lancet" is a compact and lightweight device that the drone operator can carry manually. This allows the drone to be launched at a significant distance from the location of the ground control station. To prepare the launcher for the drone launch, one person and no more than 1 minute of time are enough. Disassembling the launcher after launch is not required. Thus, ZALA developers have simplified and made the process of launching the Lancet loitering munition faster and safer.
The Russian company "IRIT" from Ryazan presented the FPV drone "Ryazan", the company made a very detailed review of the drone. Even the operating frequencies of the drone are indicated. But the publication of frequencies is not critical, the drone is controlled via the "Fan" channel, with a random frequency tuning mode. The drone uses many components of Russian production. The body of the drone "Ryazan" consists of plastic, fiberglass and metal, which reduce the effective reflective surface of the drone to 0.05. The drone has a remote detonation function, it can also be used to drop ammunition, reconnaissance, it is equipped with a thermal imager. The drone has a brushless electric motor, power is provided by a battery with a capacity of 18,000 mAh. The drone's carrying capacity is up to 7 kg. The drone's flight duration is up to 20 minutes, at an altitude of up to 4 km at a speed of up to 100 km / h. Flight range is up to 15 km. The price of the Ryazan drone is still unknown.
Repair of Russian artillery in the field. In the video, a repair and restoration battalion of the Russian army is engaged in the repair of artillery systems of Russian production. The unit is engaged in the repair of 122-mm howitzers D-30, 152-mm towed guns 2A36 "Giatsint-B". As reported, the D-30 howitzers are repaired in 2-3 days. Guns 2A36 "Giatsint-B", 152mm self-propelled guns 2S5 "Giatsint-S" are repaired in 4-5 days. Details of the work in the video.
Russian servicemen demonstrated the launch of a 3D6 smoke munition from the 902 "Tucha" system from a T-80BVM tank; the 81-mm smoke munition is part of the standard equipment. But in this case, the launcher has been rearranged. It is assumed that the tank, having approached the enemy closely, will be able to smoke the enemy trenches, which will force him to retreat or will interfere with firing at the tank. Smoke munitions are fired at a distance of 10 to 350 meters, after falling to the ground they emit dark smoke. The smoke screen lasts up to 1.5 minutes, its length reaches 30 meters and the height up to 10 meters, depending on the wind and air temperature.
Similar threads
