The radio waves of the new stations are capable of blocking Russia from the sky, sea and land.

The Ministry of Defense has begun replacing the RSDN-10 ground-based long-range navigation radar systems with new Scorpion complexes. In case of war, these ground-based coordinate determination systems will replace space-based ones - GPS and GLONASS. The renewal program is designed until 2020 and began this year with three systems of the Transbaikal chain.

“During military operations, all satellite signals traveling through space will be actively jammed by so-called “white noise,” Yuri Kupin, a representative of the Russian Institute of Radio Navigation and Time, told Izvestia. — Russia, the USA and a number of other countries are armed with aircraft with special equipment that are capable of blocking the entire near-Earth radio space with noise. In such a situation, Scorpions are called upon to become a kind of backup to GLONASS.

The current long-range navigation systems were developed back in the 40-50s of the last century and partially performed the functions of determining coordinates (with an error of 150-800 m), which are now assigned to GLONASS and GPS. Now, due to the deterioration of the equipment and the complexity of maintenance, the RSDN-10s are practically not used, most of the stations have been destroyed. The replacement of ground-based systems is primarily due to the need to ensure national security in terms of radio navigation.

Scientific developments of past years were used in the creation of the new RSDN. Scorpios are able to provide large area actions (1 thousand km versus 600). In addition, RSDN-10 do not have LKKS - the so-called local control correction stations, which are located at a great distance, which does not allow radio waves to penetrate into the territory of a potential enemy and makes radio navigation systems invisible.

“The main “consumers” of these stations, which are in service with the air defense and air force forces, are also long-range aviation and the navy,” said Kupin. “They receive precise time signals and synchronize equipment through such networks.

“Scorpions”, unlike outdated stations, are capable of automatically maintaining the parameters of the emitted signal, can be controlled from a single remote control and are able to suppress residual radio pulses. The system's receivers can be installed on aviation, land, sea and river vehicles. Another advantage of Scorpions is the ability to synchronize stations with the GLONASS system, which significantly increases their efficiency.

“Crews of long-range aviation aircraft are never guided by data from only one system to determine their location,” former Air Force Commander-in-Chief Pyotr Deinekin told Izvestia. “We are always engaged in the comprehensive use of means of determining the exact location of an airship. There must also be an autonomous navigation system so that the crew does not depend on radio engineering and space equipment, which may be subject to interference. By the way, the question of navigation accuracy is one of the important problems of war and peace.

In addition to commissioning the latest radar developments, modernization of old systems is also planned. The Rosoboronpostavka agency ordered repair and restoration work on the RSDN-10 complexes and the RSDN-20 Alpha system. The modernization is carried out within the framework of the federal target program “Global Navigation Systems” and in accordance with the “Russian Radio Navigation Plan for 2008-2015”. About 50 million rubles have been allocated for these purposes from the budget of the Ministry of Defense.

The Scorpion will be commissioned in four stages. In 2013-2015, three systems of the Transbaikal chain will be replaced, in 2016-2017 - four systems of the North Caucasus chain, in 2017-2019 - four to Far East, in 2019-2020 three systems of the South Ural chain will be replaced. In addition to new long-range navigation systems, equipment Russian army PPA-S/V noise-resistant aircraft receivers will arrive, operating on signals from GLONASS, GPS, the entire arsenal of ground-based RSDN and Scorpio.

System "Scorpio" in war time will replace GLONASS

The Ministry of Defense has begun replacing the RSDN-10 ground-based long-range navigation radar systems with new Scorpion complexes. In the event of war, these ground-based coordinate determination systems will replace space systems - GPS and GLONASS. The renewal program is designed until 2020, Izvestia writes.

As Yuri Kupin, a representative of the Russian Institute of Radio Navigation and Time, noted, “during combat operations, all satellite signals traveling through space will be actively jammed by the so-called “white noise.” Russia, the USA and a number of other countries are armed with aircraft with special equipment that are capable of blocking the entire near-Earth radio space with noise.

The Scorpion system is intended to become a kind of backup to GLONASS in such a situation.

The Scorpion system is capable of providing a larger coverage area (1 thousand km versus 600 for the RSDN-10). The system is capable of automatically maintaining the parameters of the emitted signal and can be controlled from a single remote control. The system’s receivers can be installed on aviation, ground, sea and river equipment.”

Another advantage of Scorpions is the ability to synchronize stations with the GLONASS system, which significantly increases their efficiency.

In addition to commissioning new systems, modernization of old ones is also planned. In particular, Rosoboronpostavka ordered repair and restoration work on the RSDN-10 complexes and the RSDN-20 Alpha system.

Commissioning of the Scorpion systems is planned in four stages. In 2013-2015 three systems will be replaced in Transbaikalia, in 2016-2017 - four systems in the North Caucasus region, in 2017-2019. - four in the Far East, in 2019-2020. will replace three systems in the South Ural region.

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And now general information about radio engineering long-range navigation systems.

In order to ensure traffic safety in air, land and sea transport, as well as to solve a number of special tasks on the basis of Government Decrees, a long-range radio navigation support system (DRNS) was created in the Soviet Union. DRNO is intended to create conditions for the combat use of aviation in theaters of military operations, operational directions and in military-geographical areas, as well as aircraft navigation during all types of flights.

RSDN are designed to determine the location of an aircraft at a distance of 1500 km or more.

RSDN consists of ground radio transmitting devices - reference stations (OS) and on-board receiving equipment. Reference stations are located on the Earth's surface at points, the geographic coordinates of which are stored in the memory of the on-board equipment.

On-board equipment receives signals and measures the range to reference stations (in rangefinder RSDN) or the difference in ranges (in difference-rangefinder RSDN). Based on the measured ranges or range differences, the computing device of the on-board equipment receiver builds position lines. Position lines (LP) - the geometric locus of points characterized by the same range value or range difference, are either circles (in rangefinder RSDN) (Fig. 1.1, a) or hyperbolas (in difference rangefinder RSDN) (Fig. 1.1, b). Several OS are determined by several LPs and by their intersection the computing device determines the location (geographical coordinates) of the aircraft.

Fig.1.1 Position lines in RSDN:

A) rangefinder RSDN;

B) difference-rangefinder RSDN. Three aircraft (No. 1, No. 2, No. 3) are located on position lines 2, 3, 4. The distance between stations OS1 and OS2 is called the base one.

In rangefinder RSDN, to determine the distance to the reference station, the delay time is measured T signal along the propagation path from the OS to the aircraft, i.e. T=D/With, Where WITH-speed of propagation of radio waves, and D-range to OS.

The emission of signals by reference stations is carried out at strictly defined times, known on the aircraft, i.e., there must be time standards on the aircraft and on the OS. Using the OS time standard, the moment the signal is emitted is specified, and using the aircraft time standard, the moment this signal is received is noted. But, due to the presence of discrepancies between the time standards on the OS and on the aircraft, an error in measuring the range is possible, therefore the measured range is called pseudo-range, and this measurement method is called pseudo-rangefinder. If the time standard on an airplane is corrected (for example, according to the unified time system), then the error in the measurement will be determined by the time scale drifting beyond the time interval between corrections.

The main tasks of DRNO are:

ensuring the solution of combat missions by aviation in the tactical, operational and strategic depth of the enemy;
ensuring the solution of combat training tasks by aviation associations, formations and units;
ensuring flights of aircraft along optimal routes, over directionless terrain, waters of seas and oceans;
ensuring flight safety of aircraft.
The use of long-range radio navigation means allows aircraft to solve the following tasks:
use of aviation weapons;
landing;
conducting aerial reconnaissance;
overcoming the enemy's air defense zone;
interaction ground forces and naval forces.

Currently, the main means of DRNO aviation of the RF Armed Forces are long-range navigation radio systems (RLNS). RSDN are designed to determine the location of moving objects at any time of the day and year with unlimited throughput in a given coverage area.

The high efficiency of these systems has been confirmed by more than 30 years of experience in their operation, including in conditions of local armed conflicts in Afghanistan and the North Caucasus, where, in mountainous and directionless terrain, RSDN were often the only means of correcting flight navigation systems to solve problems air navigation and combat use.

RSDN consumers are all branches of the Russian Armed Forces. In addition to the Ministry of Defense, consumers of navigation information generated by the RSDN are the Ministry of Emergency Situations, the Ministry of Internal Affairs, the Federal Border Guard Service, and the Ministry of Transport of Russia. In addition, DRN stations operate in State system uniform time and reference frequencies.

To the structure ground station RSDN includes:

Control and synchronization equipment;
- radio transmitting device with a power of 0.65-3.0 million watts (per pulse);
- general industrial equipment (autonomous diesel power plant with a capacity of 600-1000 kW, air conditioning, communications, etc.);
- center of the high-precision unified time service - SEV VT. It is equipped with a set of equipment that creates, stores and transmits time-second marks to a transmitting device for broadcasting. The basis of SEV VT is the atomic frequency standard, which generates highly stable electromagnetic oscillations with a relative instability of 1x10-12. Time sequences are formed in time keepers: seconds, minutes. five minutes, etc. Station timestamps are "locked" to the national time scale. These signals are used when launching spacecraft, in navigation, geology, geodesy, etc.

The following long-range navigation radio systems are currently deployed and in operation:

1.Phase RSDN-20 “Route”.
2. RSDN “Chaika” systems:
- European RSDN-3/10;
- Far Eastern RSDN-4;
- Northern RSDN-5.
3. Mobile systems RSDN-10 (North Caucasus, South Ural, Transbaikal, Far Eastern).

The first radio engineering long-range navigation system, on the territory former USSR, RSDN-3/10, was created after the modernization of the Meridian and Normal RNS. It was put into operation as part of the Air Force in the early 70s of the last century.

RSDN-3/10 includes 5 long-range radio navigation stations (DRN): three stations are located on the territory Russian Federation(Karachev settlement, Petrozavodsk settlement, Syzran settlement), one station on the territory of Belarus (Slonim settlement) and one station on the territory of Ukraine (Simferopol settlement).
After the collapse of the USSR, RSDN-3/10 operates in accordance with the intergovernmental Agreement on long-range radio navigation support in the Commonwealth Independent States dated March 12, 1993. According to Article 2 of this Agreement, its participants recognized the need to preserve the radio navigation systems operating on their territory, as well as the existing order of their activities.

The analogue of domestic RSDN (Chaika) abroad is the radio navigation systems (RNS) Loran-C (USA).

Early 90s The last century was marked by the rapid development of satellite navigation systems (SNS). The Global Positioning System (GPS Navstar) was created in the USA. In the Soviet Union, the global navigation satellite system (GLONASS) called “Hurricane” was widely developed. SNS were distinguished by high accuracy in determining the coordinates of moving objects (tens, and in some cases units of meters), the creation of a global radio navigation field, and the ability to obtain three-dimensional coordinates on board a moving object. The parameters of the RSDN were more modest: the accuracy was 0.2 -2.0 km, they had a limited working area. For example, the working area of ​​the European RSDN-3/10: water area Barents Sea- the Black Sea and the Ural Mountains - Germany. SNS, thanks to its unique parameters, created the impression that the time of ground-based RSDNs has passed. However, after testing the SNS for noise immunity and stability, disappointing results were obtained. The fact is that in determining the location of objects in CNNs, noise-like signals are used. Suppressing such a signal in the aviation coverage area does not present much technical difficulty. It seemed that the exit to integrated use these two types of navigation: European specialists followed this path. We created the control and correction technology “Eurofix” - a system for joint use of RSDN and SNS. We are going our own way. And so, in the area of ​​the village of Taimylyr, a unique structure was destroyed, a transmitting antenna 460 m high... almost an Ostankino tower beyond the Arctic Circle. Equipment and equipment were simply abandoned. 175.2 million (Soviet) rubles were spent on the creation of the exploded facility.

As it became known, the depths of the Arctic Ocean conceal huge reserves of natural resources. One can foresee the struggle of the circumpolar states (and not only them) for these riches. It is clear that navigation aids in this region will play a role in the future decisive role. Therefore, radio navigation support facilities in the Arctic region must be preserved.

RSDN-20:

Phase radio navigation system "Alpha" (also known as Radio-technical long-range navigation system or RSDN-20) - Russian system long-range radio navigation. It operates on the same principles as the decommissioned Omega Navigation System in the very low frequency range. The Alpha system consists of 3 transmitters, which are located in the area of ​​Novosibirsk, Krasnodar, Komsomolsk-on-Amur. These transmitters emit 3.6 second signal sequences at frequencies of 11.905 kHz, 12.649 kHz and 14.881 kHz. Radio waves at these frequencies are reflected from the lowest layers of the ionosphere and are therefore less susceptible to ionospheric attenuation (3 dB attenuation per 1000 km), but the phase of the wave is very sensitive to the height of the reflection.

The receiver measures the phase difference of signals from navigation transmitters and constructs a family of hyperbolas. A moving object can always determine its location if it does not lose the ability to track signals from navigation transmitters. The phase of the wave depends on the height of the reflecting layers of the ionosphere, and therefore seasonal and diurnal variations can be compensated. Position accuracy is at least 2 nautical miles, but at high latitudes and polar regions where sudden phase anomalies may occur, the accuracy drops to 7 nautical miles.

And I’ll remind you that there existed, and maybe still exists Perimeter guaranteed nuclear retaliatory strike system, and also what it is

The system of uninterrupted supply of the Scorpion machine gun belt changes combat tactics, allowing the machine gunner to solve the problem with the amount of ammunition and the need for frequent reloading, without affecting mobility. This solution is a long-standing need of special forces, which has finally found its real embodiment.

The Scorpion is equipped with an easy-to-handle non-scattered metal belt feed sleeve, allowing continuous fire from the weapon in any position. The system holds 475 rounds in the main compartment, and another 75 rounds directly in the feed sleeve. The cartridges are packed in a special box located in the backpack (equipping a machine gunner with such ammunition would previously have required 6 bulky machine gun boxes).

The main system, together with the backpack base, is equipped with an adjustable waist belt and straps. The flexible hose is made of durable steel and coated with a corrosion-resistant chemical coating.

Advantages

The total ammunition capacity of the system is 550 rounds. The ability to achieve a fire advantage without changing boxes and without reloading. Creating a high density of fire to completely suppress the enemy. Lightening the machine gun by transferring the weight of the ammunition. The ability to quickly fasten the sleeve when moving from the traveling to the combat position. The box with a sleeve can fit into any backpack (if necessary, or if the backpack included in the kit is damaged).

Peculiarities

The Scorpion system is designed and manufactured for the 7.62 x 54 R cartridge of various GRAU indices (manufacturing for other calibers is possible). Suitable for operators with any anthropometric data. The backpack base with adjustable straps and belt (in the appropriate configuration) can be made in different colors (the main color is olive).

The sleeve is equipped with a soft cover to protect against external environment. High-strength chemical coating of some elements. Full maintainability - the ability to replace individual elements of the system without the help of tools and appropriate qualifications in any conditions.

Simple and reliable fastening of a flexible sleeve to the machine gun body on standard mounting points for boxes. Quickly installed and removed. Spontaneous opening during movement and shooting is excluded. The tensile force of the flexible feeder in the extended position is no less than 90 kg (static weight).

The product is suitable for: PC-based airsoft models, 6P41 “PECHENEG”, 6P6M PKM.

The system is available upon request. It is possible to manufacture with various parameters - portable (MAX 1000 rounds, due to considerations of the weight load on the operator) any capacity, stationary - any capacity. Production time - 14 working days. We will contact you after placing your order.

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THE PRODUCT IS NOT SUPPLIED FOR TESTING OR EXPERT EVALUATION.

Ammunition systems small arms represent a separate design task, without the successful solution of which it is impossible to create effective weapons. In particular, in the context of machine gun weapons, various systems are of great interest that allow increasing the size of ready-to-use ammunition and thereby ensuring long-term firing without reloading. Relatively recently, an interesting project of such a system was presented by domestic designers.

A domestic device, designed to improve the combat qualities of existing machine guns, was developed by the FRONT-tactical systems company. The creation of a new product, designated “Scorpion,” was carried out on its own initiative, without an order from the military department or law enforcement agencies. In order to increase the ammunition capacity of the machine gun, ready for use, it was decided to abandon the standard boxes for tapes, replacing them with a larger container and a special device for feeding the cartridge belt to the receiving window of the machine gun.

IN existing form The Scorpio system consists of several main parts. To store the belt with cartridges, a metal container box of appropriate dimensions is intended. Connected to it is a special flexible hose for supplying cartridges, at the other end of which there is a bracket for mounting on a machine gun. This architecture of the kit allows the production of various variants, both stationary and portable.

General view of the Scorpio system.

It should be noted that the idea of ​​using flexible metal sleeves to feed tapes is not new. Similar designs were developed back in the first half of the last century and even found application in practice in various fields. The use of a flexible sleeve allows you to connect the weapon with the cartridge box, as well as ensure the correct interaction of the cartridge belt, box and weapon when their position in space changes. As a result, such designs are the optimal solution to existing problems.

The Scorpio kit includes several basic elements. A metal container box is used to store and carry the belt with cartridges. In its basic configuration it measures 40x10x30 cm and holds 475 rounds in one belt. To carry the box, it is proposed to use a special backpack, adjustable in accordance with the anatomy of the shooter.

A special cover with fastenings for a flexible hose is installed on the cartridge box. The sleeve itself is a construction made of large quantity metal segments capable of changing position relative to each other within certain sectors. The length of the sleeve is 160 cm, width 10 cm, thickness -2.5 cm, which allows it to hold up to 75 rounds. If necessary, the sleeve is equipped with a protective cover. The sleeve is equipped with a bracket that allows it to be connected to a weapon. The kit without cartridges weighs about 4.1 kg.

According to the manufacturer, in the basic configuration the Scorpion kit is intended for use with 7.62x54 mm R rifle cartridges and loose metal belts. In preparation for shooting, a single belt for 550 rounds is placed in the box and sleeve. The end of the tape is brought to the receiving window of the weapon. According to available data, the design of the Scorpion kit is designed for use with machine guns of the Kalashnikov design, but the possibility of creating modifications for other weapons is mentioned.

Ammo box and flexible sleeve.

The main feature of the Scorpion system is the use of a common belt for all wearable ammunition, which gives it a range of characteristic features, and also provides certain advantages over other methods of ammunition supply. According to the development company, Scorpio compares favorably with existing tape boxes for a number of reasons. First of all, a certain reduction in the weight of the entire complex in the form of a machine gun, cartridges and ammunition systems is achieved. So, to carry 550 rounds of ammunition you need six standard metal boxes. With an empty box weighing about 1-1.5 kg, only due to the means of storing and carrying ammunition, the total mass of the complex is reduced by several kilograms.

No need to reload the weapon after using up a 100-round belt (as when using standard boxes) allows you to provide a fire advantage and create a high density of fire. In addition, the Scorpion elements do not interfere with the shooter’s movement across the battlefield and do not impose serious restrictions on his mobility. Firing from various positions is possible, during which the sleeve or backpack does not interfere with the machine gunner.

The existence of the Scorpio project was announced quite a long time ago. Over the past period of time, the development company has carried out all the necessary tests and completed the development of the system. In particular, during 2015 the system was tested in test sites. Thanks to this, it was possible to get rid of all the shortcomings and ensure high reliability of the operation of all elements of the kit.

Machine gunner with the Scorpion system.

To date, the FRONT-Tactical Systems company has mastered the serial production of the Scorpion system in a configuration chambered for the 7.62x54 mm R cartridge and Kalashnikov machine guns of the PK, PKM and Pecheneg modifications. Products are assembled to order within two weeks after receiving the application. At the request of the customer, some changes can be made to the system regarding the backpack and its belt system. In particular, you can choose the color of the textile elements of the set.

According to the manufacturer, the selected architecture of the complex allows you to change its basic parameters. Thus, in accordance with the customer’s wishes, the design of the container box for carrying the tape can be changed. In the wearable version of the Scorpion, the box can hold up to 1000 rounds of ammunition, and this limitation is primarily related to the physical capabilities of the shooter and the weight of the ammunition. When manufacturing a stationary version intended for installation on equipment, etc., there are no such restrictions. In this case, the kit can be equipped with boxes of any capacity.

According to available data, Scorpion ammunition kits are produced in small batches and supplied to individual customers. There are references to the ordering of such equipment by representatives of Russian law enforcement agencies and armed forces. Thus, the original proposal attracted the interest of its “target audience” and reached the point of application in practice.

Flexible hose section chambered for 12.7x108 mm cartridge.

Using the accumulated experience of its own and others, the development company is currently working on several options for the development of the Scorpio system. Thus, last summer there were reports about the development of a flexible hose for supplying 12.7x108 mm cartridges, which could be used to supply ammunition to the NSV-12.7 Utes machine gun or other similar systems. For obvious reasons, this version of the kit will not become a direct analogue of the Scorpion for PC/PKM, but it may well find application in weapons of various equipment. At the same time, it will completely “inherit” all the characteristic advantages of the base model.

In the future, the creation of new systems of similar architecture for various ammunition cannot be ruled out. It is claimed that the flexible sleeve can even be used to feed 30mm grenades for the corresponding weapon. Whether potential customers will show interest in such offers - time will tell.

In parallel with the creation of new kits, the development of updated versions of existing equipment is underway. Last December, it was reported that work was being done on a modernized version of the sleeve attachments to the weapon. Using brackets of a new design, the developers are going to ensure compatibility of the Scorpion kit with new modifications of Kalashnikov machine guns, primarily with the Pecheneg machine gun in a bullpup configuration.

One of the foreign analogues of the Scorpion is the American-developed TYR Tactical MICO system.

Currently, in Russia and abroad, several options for small arms ammunition supply systems with cartridges supplied through a flexible metal sleeve are being developed and tested. All of these products have a similar architecture and should also have the same advantages over standard samples. However, none of these systems have yet been put into service. Flexible sleeves are actively used in the composition small arms various equipment, but kits for infantry-machine gunners have not yet reached mass use on practice.

The Scorpion ammunition system is of great interest from a technical and tactical point of view. Some publications devoted to this development claim that the original technical solutions of the project can make a real revolution in the field of small arms and methods of their combat use. In particular, it was proposed to develop a new automatic rifle chambered for 7.62x54 mm R, which could initially be used with a flexible sleeve for feeding cartridges, increasing its combat characteristics. In addition, certain advantages were mentioned associated with the abandonment of intermediate cartridges and the transfer of all infantry weapons to rifle ammunition.

Despite all the high praise and attempts to present the new domestic development as a revolution in the arms business, the Scorpion kit has not yet attracted the attention of the Russian military department and has not become the subject of contracts for mass supply. However, a number of such products are already used by representatives of various structures. The future prospects of the kit remain in doubt. Whether the Scorpion will become a standard element of equipment for Russian machine gunners is not yet entirely clear.

The domestic company Front Tactical Systems has developed a universal ammunition supply system designed to improve the combat qualities of existing machine guns.
The creation of a new product, designated “Scorpion,” was carried out on its own initiative, without an order from the military department or law enforcement agencies. In order to increase the ammunition capacity of the machine gun, ready for use, it was decided to abandon the standard boxes for tapes, replacing them with a larger container and a special device for feeding the cartridge belt to the receiving window of the machine gun.

In its current form, the Scorpio system consists of several main parts. To store the belt with cartridges, a metal container box of appropriate dimensions is intended. Connected to it is a special flexible hose for supplying cartridges, at the other end of which there is a bracket for mounting on a machine gun. This architecture of the kit allows the production of various variants, both stationary and portable.
The Scorpio kit includes several basic elements. A metal container box is used to store and carry the belt with cartridges. In its basic configuration, it measures 40x10x30 cm and holds 475 rounds in one belt.

To carry the box, it is proposed to use a special backpack, adjustable in accordance with the anatomy of the shooter. A special cover with fastenings for a flexible hose is installed on the cartridge box.
The sleeve itself is a structure made up of a large number of metal segments that can change position relative to each other within certain sectors. The length of the sleeve is 160 cm, width 10 cm, thickness – 2.5 cm, which allows it to hold up to 75 rounds. If necessary, the sleeve is equipped with a protective cover.
The sleeve is equipped with a bracket that allows it to be connected to a weapon. The kit without cartridges weighs about 4.1 kg.

According to the manufacturer, in the basic configuration the Scorpion kit is intended for use with 7.62x54 mm R rifle cartridges and loose metal belts. In preparation for shooting, a single belt for 550 rounds is placed in the box and sleeve. The end of the tape is brought to the receiving window of the weapon. The Scorpion system is designed for use with Kalashnikov machine guns: PK, PKM and Pecheneg using a 7.62x54 mm cartridge.
The Scorpion can be used for any task - be it patrolling in the forest, or targeted assault operations in urban areas. And here, it is also very important to mention that you can carry the ammunition system while equipped in different ways.

No piece of equipment will interfere with the use of a box with a flexible sleeve. So, for example, “Scorpion” can be worn in conjunction with any means of personal armor protection - a machine gunner can use a bulletproof vest, armored helmet or anti-fragmentation suit, if necessary.
The developer of the system, the Front company, has already come up with a proposal to put the Scorpion into service, including its inclusion in the Ratnik system. However, on this moment, the issue is being resolved. However, a number of such products are already used by representatives of various structures.