Cruz Sagittarius description. Tactical level complex "Strelets" for communications and reconnaissance control. Survival fashion

Quite recently, the fifth motorized rifle brigade near Moscow began to develop the Strelets complex for communications and reconnaissance control. The complex is produced at the domestic enterprise Radioavionics. The tested individual complex is a kind of mobile computer. Almost any device can be connected to it. When creating a network from the data of individual complexes, the unit commander’s computer will display the necessary information about his subordinates, as well as information about the enemy coming from them. To do this, an ordinary soldier only needs to press a couple of buttons and the coordinates of his location or the location of the enemy will appear on the commander’s computer. The head of the department will be able to easily combine the received data with electronic card area, or with a photograph of a given area received from a satellite. First, such complexes will be received and mastered by military intelligence officers. According to the designers, the Sagittarius complex is practically a mobile personal BIUS

The Radioavionics enterprise at one time introduced the Strelets KRUS as a means of solving a wide range of information support problems. Sagittarius provides:
- combat control;
- identification of detected objects and calculation of their coordinates;
- target designation;
- generation of data for effective application personal weapons and means for close combat;
The Strelets complex is interfaced with all Soviet and by Russian means intelligence. In addition, the complex interacts with inclinometers, radars, target designation devices, aiming devices and UAVs.

The complex was put into service in 2007 and is supplied serially. It goes primarily to ground reconnaissance units. The first samples of the complex, after passing various field and combat tests, are sent for revision. Our intelligence officers, having experience in operating foreign analogues “FELIN”, “IdZ-ES” and “Normans”, asked the developers to improve the existing model of the Strelets complex. First, the base of the first samples was made on the basis of elements from 2000. The designers responded with understanding to the military’s request and the modernized KRUS “Strelets” is being tested. After successful tests, the complex began to be massively provided to ground units. More than one thousand units of the Strelets complex have already entered the Russian Armed Forces. General designer of the Radioavionics enterprise A. Kaplin, speaking about the Strelets complex, noted that the first samples of KRUS were somewhat inconvenient for soldiers - they had a fairly decent weight of 5.4 kilograms, interfered with the serviceman when passing the assault strip, covered access to pouches and a first aid kit . Now, after the modernization, the complex began to weigh 2.4 kilograms, received smaller overall characteristics, and large blocks are attached so as not to interfere with other tasks. On this moment There are no significant comments on the use of the Strelets complex from military personnel of the ground units, where the complexes are mainly supplied.

KRUS "Sagittarius" can have several configuration levels. The simplest configuration option is intended for military personnel of squads, up to the squad commander. The next level of equipment is intended for the platoon commander; the package includes a powerful computer complex with a multifunctional console. The third, most complete level of equipment is for the unit commander - battalion commander, brigade commander.

The interaction range of the complex as part of a squad is about one and a half kilometers, but any of the individual Strelets complexes works as a repeater, which significantly increases the range and information control of a given area. In addition to voice messages, built-in standard commands can be transmitted via radio, and the recipient can view or listen to them after receiving them. This innovation was introduced specifically to ensure that scouts were not distracted from completing the mission and did not lose visual control. KRUS includes an autonomous navigation module, which is provided with an inertial system. It makes it possible for a serviceman to know exactly his coordinates, even if he has left the satellite navigation coverage area. Switching between navigation systems occurs automatically in the complex. The complex can be equipped with a helmet-mounted display subsystem for producing fire from cover. For example, when interacting with the Shahin thermal imager, information from it is sent to the serviceman’s indicator, which allows him to conduct accurate and targeted fire without leaving cover. The complex also includes a “friend or foe” identification subsystem. The range of the subsystem depends on the characteristics of the mating sighting devices. The subsystem sends a request to an unidentified object, and if the object is “its own,” the serviceman will hear an audio alert in the earpiece. If, after sending the request, the subsystem is “silent”, then the object is defined by the “Sagittarius” complex as “alien”.

Complex aerial reconnaissance"Tipchak" was developed by OJSC "Design Bureau Luch" in the city of Rybinsk. Work on its creation began in the late 80s. At the end of 2006 - beginning of 2007, the complex successfully passed the first stage of state tests. The Tipchak aerial reconnaissance complex with UAV-05 (formerly 9M62) is designed to detect various objects from the air, identify them, determine and transmit the coordinates of their location in real time to consumers at any time of the day at a distance of up to 40 km from the ground control point . If necessary, it can be replaced with equipment for radio engineering or chemical reconnaissance, relaying and other purposes.

The complex ensures high accuracy of the UAV following the route and the ability to install various payloads on it, use the device autonomously (according to the program) and in direct radio control mode. Reconnaissance of ground objects can be carried out simultaneously by two aircraft. The range of the complex is determined by the range of the radio link and can be increased by installing a new one with increased capabilities.

The Tipchak complex includes 4 vehicles and up to 6 UAV-05:

— The UAV-05 “Tipchak” unmanned aerial vehicle is designed to transport reconnaissance and transceiver equipment in order to receive and transmit to a ground control station visual information in real time, both during autonomous (according to the program) and radio command flight along a given route. High technology ensures quick assembly of the UAV, stored disassembled, and its preparation (no more than 15 minutes) for flight immediately before its use. A piston engine is used as a propulsion system in a remotely piloted reusable aircraft.

— The antenna machine is used to transmit control commands simultaneously to two UAVs, determine their coordinates using the radar method, and receive telemetry, navigation and view information. It houses equipment for controlling two UAVs and a 12-meter antenna-mast device, which provides reliable control and exchange of information with low-flying UAVs. Power supply is supplied from a three-phase AC network 380/22 V (50 Hz) or from built-in diesel generators.

— The operator machine is designed to control the complex and ensures registration, processing and display of telemetric and visual information, its correction, binding to a digital map of the area, identification of reconnaissance objects and their coordinates, as well as interaction with control authorities and consumers of intelligence information.
The issuance of a formalized report after the end of reconnaissance does not exceed 30 seconds.

— The transport-launch vehicle (TLM) is designed for storing and transporting 6 containers with UAVs, preparing them and launching them using a pneumatic catapult. When preparing the UAV for launch, the vehicle takes a position. Simultaneously with the assembly of the aircraft, the pneumatic system is also prepared, with the help of which, after installing the UAV on the catapult, it is launched.
The vehicle is a wheeled chassis based on a KamAZ vehicle with a platform with an ejection device, a control panel, six containers for UAVs, a diesel electric unit and performance monitoring equipment placed on it.
The TPM catapult ensures the take-off of a UAV weighing up to 70 kg with an acceleration of up to 12 units at the moment of lift-off. The time for deploying and collapsing the machine does not exceed 20 minutes, power consumption is 14 kW. The fuel supply for the UAV engine provides at least 30 launches.

- Car technical support serves to carry out routine maintenance on UAVs, search and select landed aircraft, carry out minor repairs if necessary, monitor the performance of the UAV and deliver it to the TBM for reuse, as well as transportation of supplies of consumables and spare parts.

The existing configuration of the complex ensures ease of use and meets customer requirements. If necessary, taking into account the weight and dimensions of the equipment, the complex can be placed on one vehicle with a trailer and supplied in a reduced configuration. In this case, the total cost of the complex is reduced, its mobility is increased, but the working conditions of the operators are significantly worsened.

In 2007, the UAV-05 as part of the complex successfully passed state and military tests and is in trial operation. The complex can significantly increase the efficiency of cannon and rocket artillery. This is ensured by providing detailed reconnaissance information about the terrain and enemy targets, conducting reconnaissance deep in the combat area with minimal risk to personnel, reducing ammunition consumption during strikes, and improving the quality and efficiency of exchange of information between units when interacting with command and control authorities.

The main advantages of the complex are the presence of a digital noise-resistant radio link for control and transmission of broadband information, a reliable flight navigation system, and a small-sized optical-electronic system high resolution, an information and software complex for automated processing of intelligence information in real time and a modern element base.

According to information from KB Luch, a phased modernization of the Tipchak complex is currently underway in order to improve its basic tactical and technical characteristics- range up to 100:120 km, UAV flight time up to 6:8 hours, as well as in the direction of reducing the number of escort vehicles and reducing cost. The Tipchak complex is considered in the future as a base for further development— using its unified elements and technologies, it is planned to create a number of new complexes with short- and medium-range UAVs for various purposes, which are extremely necessary for the modernization of the Armed Forces of the Russian Federation, as well as for providing security forces and industrial structures.

Thus, recently, in addition to the land version, a sea (coastal) version of the functioning of the Tipchak complex was created, which provides full cycle reconnaissance and observation of the sea surface in given coordinates at any time of the day with the simultaneous use of two UAVs. The complex ensures the receipt and processing of species information in real time, and the delivery of information based on observation results to the control point.

To expand the UAV model range, capabilities and scope of application of the complex, in 2005 work began on the creation of two more aircraft - UAV-07 and UAV-08:

— the BLA-07 device, a small-sized reusable tactical UAV with a piston engine, was created to provide reconnaissance of naval targets. This is a 35-kilogram drone, the payload of which includes a combined TV/IR camera and digital camera high resolution.

— the BLA-08 device of a normal aircraft design with a reverse V-shaped tail (90-kilogram, low-speed with a long flight time), is the largest and most functional of the entire Tipchakov line. Its payload may include a digital dual-spectrum camera, a gyro-stabilized optical-electronic system, a side-view radar, relay equipment, electronic reconnaissance equipment, electronic warfare and radiation-chemical reconnaissance.

Modification: BLA-05 / BLA-07 / BLA-08
Wingspan, m: 3.40 / 2.40 / 4.1
Length, m: 2.40 / 1.65 / 2.7
Weight, kg
-empty: —
-Max. takeoff: 70 / 35 / 90
Motor type: 1 x PD
-power, hp: 1 x
Launch: ejection/ejection/ejection or runway
Landing: parachute / parachute / parachute or runway
Flight speed range, km/h: 90-190 / 120-190 / 80-180
Range, km: 70 / 30-50 / 120
Flight duration, hours: 2 / 3 / 8
Static ceiling, m: 3000 / 3000 / 4500

Prototype UAV-05 "Timchak".

Installation of the UAV-05 "Timchak" on the lift of the transport-launch vehicle.

UAV-05 "Timchak" on a transport launcher.

UAV-05 "Timchak" on a transport launcher.

UAV-05 "Timchak" on a transport launcher.

UAV-05 "Timchak" in transport position.

UAV-05 "Timchak" in stowed position on TPM.

Prototype of the UAV-07 complex "Timchak".

UAV-07 of the Timchak complex.

UAV-08 on the TPM of the Timchak complex. MAKS-2009, photo by Dmitry Derevyankin.

UAV-08 on the TPM of the Timchak complex. MAKS-2009, photo by Dmitry Derevyankin.

Scheme of interaction of the Tipchak complex.

.
List of sources:
Website of JSC Radio Engineering Concern VEGA. Complex with UAV "Tipchak".
Website "Missiles.ru". Rybinsk Design Bureau "Luch" shows at MAKS-2005 a serial reconnaissance complex with a Tipchak UAV.
Website "Missiles.ru". "Tipchak" is being modernized.

SCIENCE AND MILITARY SECURITY No. 2/2006, pp. 46-49

S.R.GEISTER,

Chief Researcher

Research Institute

Armed Forces of the Republic of Belarus,

Doctor of Technical Sciences, Associate Professor

Basic requirements for modern means ground reconnaissance

The main combat properties that characterize the capabilities of a potential enemy include:

Mobility and maneuverability;

Availability of intelligence information received almost in real time from space and air-based assets ( radar equipment, radio-technical reconnaissance and radio reconnaissance equipment, optical-electronic equipment);

Accuracy of destruction by land-based (sea-based) and air-based weapons.

Targets in troop groups can be classified as follows:

Class 1 - tracked vehicles;

Class 2 - wheeled vehicles;

Class 3 - people;

Class 4 - aviation equipment on the ground (helicopters (anywhere) and airplanes (at airfields)).

Based on their quantitative composition, these classes can be divided into large groups(for example, columns of troops, aviation at airfields), medium groups (for example, battle formations divisions) and small groups (units).

The main factors determining effectiveness of fire control and strikes against enemy ground targets are:

Location reconnaissance (including direction of movement), classification and identification quantitative composition object in real time at ranges that provide the possibility of using fire weapons;

The efficiency of fire impact, determined by the reaction time of combat systems, relative position fire weapons and targets, maneuverability and range of weapons;

Accuracy of targeting of striking elements and their radius of destruction;

Assessing the effectiveness of a strike.

The key element in ensuring the effectiveness of fire destruction is ground reconnaissance means, information from which must meet the following requirements:

Timeliness;

Credibility;

Completeness and accuracy of data.

In addition, when conducting defense in a limited area reconnaissance assets must meet the following requirements:

Stealth;

Low vulnerability;

Ability to operate in enemy-occupied territory.

brief analysis of the state and prospects for the development of existing ground reconnaissance means

The main means of conducting ground reconnaissance at present are:

Radar stations ground artillery reconnaissance(SNAR), located on self-propelled chassis(for example, SNAR-10);

Artillery radar systems (ARC) detecting firing positions (for example, ARK-1, “Zoo”);

Sound-metric complexes (ZMK) for artillery reconnaissance (for example, 1B19, AZK-5);

Portable ground reconnaissance stations (for example, PSNR-5). At the same time, the first three classes of tools provide information

only artillery, and the fourth class - ground forces units in a limited sector.

Ground artillery reconnaissance radar stations. Such stations are designed to conduct reconnaissance of moving ground (surface) targets, as well as serve artillery fire. The main advantages of the SNAR are high mobility, the ability to reconnaissance moving targets and adjust artillery fire in the presence of direct visibility in difficult weather conditions, with smoke and dust. The main disadvantages of the SNAR are its low search capabilities in difficult terrain and wooded areas, the inability to detect (and adjust fire) using stationary (stopped) equipment, as well as low stealth due to the emission of powerful probing signals. The presence of powerful radiation leads to the detection and direction finding of the SNAR by the enemy within a few seconds from the moment the work begins, which entails fire suppression of the SNAR and a nearby artillery unit within a few minutes from the moment the work begins.

Artillery radar systems marking firing positions. These complexes are designed to determine the coordinates of enemy artillery positions by measuring the parameters of the ballistic trajectory of a projectile. The main advantage of the ARC is the speed of obtaining enemy coordinates directly from the position of the artillery unit. The main disadvantage of the ARK (without taking into account the cost and complexity of working in conditions of massive enemy fire) is the emission of powerful sounding signals, which provides the enemy with operational fire suppression of the ARK and artillery unit.

Sound-metric systems for artillery reconnaissance. The main advantage of the ZMK is the absolute secrecy of its operation, which ensures continuous reconnaissance in close proximity to the line of contact between troops. Along with this, ZMK developed before the 80s of the last century have the following disadvantages:

Low efficiency of operation in conditions of combined arms combat (reflected signals, small arms shots, shots from enemy guns and mortars from flank areas, shots from friendly artillery units), in the presence of wind, as well as when the enemy simultaneously uses fire weapons from several points and rapid fire;

Low efficiency of preparing initial data for firing, which allows the enemy (self-propelled artillery installations and multiple launch rocket systems) to move away from a retaliatory strike to new firing positions;

Low mobility big time deployment that does not meet the conditions of transience and high maneuverability of modern combat operations.

At the same time, with deep modernization, sound measuring systems can become one of the ideal means passive reconnaissance, since the main part of the shortcomings is due to outdated structures for constructing base points and the lack of equipment that implements effective signal processing algorithms in conditions of interference and real-time information a large number goals.

Thus, taking into account the shortcomings inherent in radar equipment, sound-based reconnaissance is practically the only type of reconnaissance to a depth of 10 - 20 kilometers that meets the requirements for secrecy, all-weather capability and continuity of operation in difficult terrain and wooded areas. The priority of this type of exploration, taking into account the rapid development precision weapons operating on radiation sources will only increase in the next decade.

Portable ground reconnaissance stations. These stations are designed to monitor the movements of troops and military equipment, provide adjustments to the firing of fire weapons, protect borders and facilities, and combat crime and terrorism. PSNR of various classes perform their tasks at short (up to 3 km), short (up to 10 km) and medium (up to 40 km) ranges. The impetus for the development of PSNR was the American-Vietnamese War, during which these stations showed themselves to be an effective means of detecting single and group moving targets in conditions of limited optical visibility. The main disadvantages of the PSNR are the low efficiency of operation in difficult terrain and wooded areas, as well as the inability to detect stationary (stopped) equipment. In addition, in PSNR developed 30 - 40 years ago, there is no possibility of viewing space with automatic detection, tracking and recognition of targets. Currently, more than a hundred types of PSNR and their modifications have been created and put into service, and work on creating new and modernizing existing stations does not stop.

Analysis of existing ground reconnaissance means allows us to do the following: conclusions regarding their development and prospects for application. Firstly, radar reconnaissance means will be developed in the direction of increasing the secrecy of operation and information capabilities, as well as integration with other means. Taking into account the steady growth in the capabilities of electronic reconnaissance means, priority among ground-based radar stations(radar) will occupy PSNR near and short range millimeter range. The main means of reconnaissance of the ground situation (primarily in the interests of the attacking side) to great depths with low optical visibility and in conditions of difficult terrain and wooded areas will be unmanned (low-speed and high-speed) aircrafts, carrying on-board small-sized radars with antenna aperture synthesis. Secondly, when organizing ground defense of territories, important areas and objects, there will be an increase in the use of passive detection means, integrated into network systems at various levels to increase information content.

Eventually, The requirements for modern and especially promising ground reconnaissance means when supporting combat operations of ground forces are most fully met by:

- reconnaissance and signaling devices (RSD), used locally or in the form of network systems and deployed in the operational-tactical zone, in territory occupied by the enemy, or in the contact zone;

Portable small-sized sound-metric systems, used locally or in the form of network systems and deployed in tactical combat zones of friendly and enemy troops, as well as on enemy territory;

Small-sized reconnaissance unmanned aerial vehicles (UAVs) with on-board small-sized radars and optical systems, launched from unprepared positions.

Next, let us turn our attention to the RSP as a means of building a passive ground reconnaissance system that has high secrecy while providing sufficiently complete intelligence information about the location and nature of the actions of enemy troops.

brief analysis of the application and state of development of reconnaissance and signaling devices

Reconnaissance and signaling devices (RSD) began to be developed in the early 50s of the last century ground forces USA. In 1954, RSPs were tested during combat operations in Korea, but were not widely used.

During the Vietnam War in mid-1968, the US Institute of Defense Studies recommended that the Department of Defense prevent the transfer of troops and weapons from Northern Vietnam in Yuzhny to create a system of barriers, called the “McNamara Line” in the press. To install and maintain the McNamara Line, the 728th Joint Task Force and a special secret group were formed, which was engaged in the development of the RSP and had practically unlimited possibilities in spending funds. In the course of the work, several types of RSP were created: seismic, seismoacoustic, magnetic, electromagnetic, passive infrared (IR) and gas analyzing. First combat use The RSP took place in January 1968 in the area of ​​the base Marine Corps Khe Sanh, where for the first time RSPs proved their high efficiency. Based on the results of the application, it was argued that the majority of strikes on the attacking forces of North Vietnam (over 500 artillery, several hundred air strikes, including 16 strikes by B-52 aircraft) were carried out according to the detection of RSP. After this, the widespread use of RSP in ground operations began.

American experts believe that a battalion equipped with RSP can monitor an area twice as large in area as the observation area of ​​a battalion that does not have RSP, and their use can reduce losses by 2 to 4 times.

The high efficiency of the RSP gave impetus to equipping US allies with them and the development of similar devices in many developed countries. Currently, there are more than 100 types of radar sensors with different principles for target detection, two thirds of which were developed in the USA. Based on the type of physical field used, these devices are divided into seismic, acoustic, magnetic, electromagnetic, radar, television, thermal imaging, laser, capacitive, gradiometric, hydroacoustic, and contact RSP. To increase the efficiency of exploration, combined RSPs are used (seismomagnetic, seismoelectromagnetic, seismoacoustic, magnetoseismoacoustic).

Control of the enemy's location using reconnaissance and signaling devices

Ground reconnaissance systems built on the basis of RSP can be used to solve the following tasks:

Reconnaissance in areas of expected concentration (movement) of enemy troops;

Reconnaissance of the most likely routes of movement of enemy troops, directions and intensity of their movement;

Control of the most important enemy targets (airfields, commanding heights, bridges, road forks, bases, etc.);

Control of areas of possible landings and areas of river crossings;

Protection of places of deployment of one’s forces, minefields, approaches to bridges, etc.;

Issuing target designations to other reconnaissance forces and assets with greater capabilities;

Security (in combination with other means) of military and important civilian facilities to prevent reconnaissance and sabotage groups and terrorists from entering their territory;

Protection of sections of the state border and separation lines of opposing forces.

An example of controlling an enemy zone using RSP is shown in Fig. 1.

Tinted triangles indicate information cells built on the basis of RSP and having secret radio channels for transmitting data about detected objects. Data from information cells is transmitted to receiving and processing devices located behind the contact line.

Structure of an integrated system for remote ground reconnaissance

The requirements for reconnaissance equipment intended for reconnaissance and information support of combat operations of troops determine the principles for constructing promising remote surveillance systems, the main of which are:

Principle 1 - “secrecy”;

Principle 2 - “completeness of primary sources of information”;

Principle 3 - “distribution in space”.

First principle requires visual and electromagnetic secrecy of system elements. This requirement is best met by small-sized passive RSPs, which are located in the ground or on the surface (in grass, bushes, etc.).

Second principle requires solving problems of detection, coordinate measurement and recognition at the level of primary sources of information (information cell based on RSP, portable
ZMK, reconnaissance UAV). The implementation of this principle allows:

Radically reduce the requirements for data transmission speed in communication lines and, accordingly, increase their secrecy and noise immunity by reducing peak power and increasing the length of the information bit modulation code;

Use the information received at the level of the unit in whose sector of responsibility the primary source of information is located.

Third principle requires the construction of a system based on autonomous primary sources of information (information cells), distributed in space and ensuring the collection of information in the most important local areas that are inaccessible to constant observation. An example of the structure of an information cell based on RSP, intended for use in a ground reconnaissance system, is presented in Fig. 2.

In an information cell that provides surveillance of a ground enemy within a radius of hundreds of meters to several kilometers, it is most advisable to use seismic, acoustic, seismoacoustic, infrared and radar sensors, which autonomously solve enemy location problems and transmit data to a device for receiving and processing information via radio channels, wired or optical channels. Data on targets detected by the information cell:

Broadcast embedded VHF transmitter to the device for receiving and processing information of the 1st level;

They are transmitted to the receiver of a special group, which can be located in close proximity (at a distance of up to several kilometers).

Information cells from RSP sets, sets of small-sized ZMK and small-sized reconnaissance UAVs are combined into a comprehensive system for remote ground reconnaissance, an example of which is presented in Fig. 3.

Such a complex system has the following properties:

- continuity of operation in the combat zone (including enemy territory) at any time of the day;

Availability of information in real time and on various levels consumption (special group, unit, unit, etc.);

Non-criticality to failure of individual primary sources of information.

Information from such a system ensures in real time the delivery of targeted strikes against a detected enemy using attack aircraft, helicopters, missile systems volley fire, artillery, as well as special groups and special forces.

Based on the above, the following conclusions can be drawn:

1. The main requirements for modern means of remote ground reconnaissance intended for organizing ground defense are timeliness, reliability, completeness and accuracy of the information received, as well as secrecy, low vulnerability and the ability to operate in territory occupied by the enemy. These requirements are most fully met by reconnaissance and signaling devices and portable small-sized sound-metric systems, used autonomously or in the form of networked systems, as well as small-sized reconnaissance unmanned aerial vehicles with on-board small-sized radars and optical systems, launched from unprepared positions.

2. The greatest efficiency of remote ground reconnaissance is achieved when building a reconnaissance system in the form of autonomous sources of information, combined into a real-time system with access to information at any level. This approach ensures minimization of the time of receipt and use of information both at the unit level and at the level of command and control of ground forces and aviation. This makes it possible to ensure timely strikes against ground enemies.

3. The creation of promising remote ground reconnaissance systems is based on the development of information elements (smart sensors, small-sized sound-metric complexes, small-sized airborne radars with antenna aperture synthesis) and small-sized data transmission devices that meet the requirements of stealth and noise immunity. The real basis for the creation of domestic information elements is the results of the Demeres enterprise, achieved in the development of acoustic and seismo-acoustic sensors for automatic detection and recognition, radar detection sensors, coordinate measurement and recognition with antenna aperture synthesis, and small-sized sound-metric ground reconnaissance complexes.

LITERATURE

1. Barabanov A.D. Improving intelligence in the interests of using high-precision weapons / Military Thought. -2003. -No. 11. -WITH. 28-31.

2. Mosalev V. Remote monitoring systems for the battlefield based on reconnaissance and signaling devices / Foreign Military Review. - 2000. - No. 2. - P. 21 - 27.

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INTERESTING names of weapons in Russia! :)

Germany has the Leopard tank. Israel has the Merkava (War Chariot). America has the Abrams tank, France has the Leclerc, both in honor of famous generals. And we have the T-72B "Slingshot". In honor of the slingshot! It’s not clear why, but it’s clear that KVN could only have been born here! :)

Or, for example, the Americans take it and call their self-propelled howitzer “Paladin”. And the British call theirs “Archer” (Archer). All is well. Our guys come up and say: look here. Here self-propelled howitzers 2S1 "Carnation", 2S3 "Acacia", self-propelled mortar 2S4 "Tulip" and long-range self-propelled guns 2S5 "Gyacinth" and 2S7 "Pion", capable of firing nuclear shells. Please smell the bouquet.

So the Americans take and call their anti-tank guided missile “Dragon”. And the other is called "Shilleylah" (Budgeon). Everything is logical. Then our people come up and say: look at this. Here are the 9M14M "Malyutka" anti-tank missiles, the 9M123 "Chrysanthemum" anti-tank missiles and the "Metis" anti-tank missile (with the "Mulatto" night sight). And just to make it completely incomprehensible and scary for you, we also had a rocket called “Kromka”.

And to make you think even more, we called the heavy tank support combat vehicle “Frame”.

And to make your head spin, we called the newest coastal defense missile system “Bal”.

And so that the smile never leaves your face), our most powerful 30-barrel self-propelled flamethrower in the world is called TOS-1 “Buratino”, and our under-barrel grenade launcher GP-30 is called “Obuvka” :)!

If anything, then there is also an 82-mm automatic mortar 2B9 "Vasilek", company mortar 2B14 "Tray", mortar 2S12 "Sleigh", intercontinental ballistic missile"Courier" with a nuclear charge (receive the courier :)), intercontinental ballistic missile RT-23 UTTH "Molodets" with ten nuclear charges, Project 705 nuclear submarine "Lira", artillery fire control system "Kapustnik", containerized missile control system "Phantasmagoria" ", self-propelled gun"Capacitor" and grenade for the 7P24 "Foundling" grenade launcher.

weapon course support system on Project 667 nuclear submarines - "Tourmaline"
system for providing missiles with air and nitrogen - "Sova"
ship-based combat missile system nuclear submarine project 941 - "Fairy Tale"
jet deck depth bomber RGB-9000 - "Pikhta"
small anti-ship missile PKURS-30s - "Mol".....

"Vivarium" - ACS of a rocket artillery brigade
(ACS-automated control system)
"Grump" - aircraft satellite communications station
(Probably it constantly gives out: “they are chattering and chattering, there is no strength left, they are completely crazy, how much can you do, huh!?”, etc. :))
Woodpecker - aviation marker radio receiver MRP-48
Raccoon - torpedo SET-65
(this one is definitely not the slaughterer of the one that lives in the pond)
Corral - anti-submarine adjustable aerial bomb KAB-250-100
Brass knuckles - hand-held anti-personnel grenade launcher RGM-40
Capacitor - self-propelled gun of special power SM-54
(shows Kuzkin’s mother to the terminator)
Kochkar - ASU command post tactical formation of the country's air defense forces
(what kind of word is this anyway??? :))
...looked at Yandex "KOCHKAR Novoross. Kachkar Astrakh. unladen, breeding ram" - self-critical!!! :)
Courier - small-sized ICBM RSS-40
(We sent you a note of protest. By courier:))
Lyapis - HF radio receiver R-397LK
(Trubetskoy is not there, I checked. “Gavrila was sitting at the reception. Gavrila was receiving texts...”)
Maria - 30 kt tactical atomic bomb
Metis - ATGM + Mulat - thermal imaging sight for ATGM
(and all this was invented and controlled by a WHITE man :))
Natasha - tactical atomic bomb 8U49
Foundling - 7P24 shot for an under-barrel grenade launcher
(neighing)
Ros - aviation GAS
(Preved to Yarovrat)
Skosok - night vision goggles OVN-1
(for the cross-eyed???)
Traumatism - medical vehicle based on BMD-3