CZ2020457A3 - Mobile system for shooting and tactics training in enclosed spaces - Google Patents

Abstract

The mobile system for training shooting and tactics in enclosed spaces (15) comprises ballistic posts (2) formed by a ballistic plate (9) and provided with at least one vertical row of hooks (13) for hanging eyes (7) placed on ballistic panels (1). The upper ballistic panels (1) are suspended in their lower part relative to the lower ballistic panels (1). Ballistic panels (1) are formed by a layer of high-strength steel (5), on which an absorbing layer (4) covered with rubber (3) is placed on the inside of the ballistic panel (1), which is terminated on the upper horizontal side of the ballistic panel (1). up to 20 mm below the edge of the high-strength steel layer (5).

Description

Mobile system for training shooting and tactics in enclosed spaces

Field of technology

The present solution relates to a mobile system for training shooting and tactics in enclosed spaces, comprising ballistic panels, ie flexible construction with a sufficient degree of ballistic protection and at the same time the ability to absorb the projectile so that no impact angle can hit the system or bounce the projectile.

State of the art

Shooting and tactics training is a vital means for the security forces of the state to maintain acceleration and combat capability in various intervention operations. Existing indoor shooting grounds are either very expensive kits made of modern composite materials, which are placed in one place, usually in the hall, or simple kits made of wooden or plasterboard, which, however, have no ballistic protection.

Existing systems are either based on expensive composite materials, which are usually located in halls to protect against rain and are firmly attached to the ground. These systems tend to be very expensive and are largely inaccessible to security forces in the Czech Republic. The second existing approach is to create essentially single-use plywood systems that allow only one person to train, as it does not guarantee others coverage in the other rooms of the system. This approach can be relatively light, modular and at the same time very cheap, but it does not allow tactical training of multiple shooters at the same time.

From the field of ballistic resistant panels, the solution of a ballistic protective panel according to the utility model CZ 33406 is known. The mixture for the production of the front plate of the ballistic protection panel according to the technical solution contains 35 to 55% by weight of coarse corundum aggregate with a diameter of up to 3 mm, 5 to 15% by weight of medium corundum aggregate with a diameter of up to 1 mm, 10 to 20% by weight of fine corundum. aggregates with a diameter of 0.1 mm, 10 to 20% by weight of Portland cement, for example CEM I 52.5 R, 3 to 5% by weight of pozzolanic active additives, 4 to 6% by weight of 40 micro fillers, 0 to 1% by weight chemically modifiers, 3 to 6% by weight of water and 4 to 9% by weight of steel fibers. The back plate of the ballistic protection panel according to the technical solution is made of a glass laminate consisting of 30 to 40 layers interconnected by epoxy resin. The disadvantage of this solution is that in the case of joining multiple panels in the horizontal and vertical directions, eg into the wall, it does not reach the described parameters and does not provide sufficient ballistic resistance. Another disadvantage of the described solution is that it does not have an absorbing component of the system, which would result in the rebound of incident projectiles and the risk of serious injury to persons near the panel. At the same time, it also does not allow the creation of a mobile system for sharp shooting training with individual rooms, passages and openings.

The solution of a mobile ballistic wall according to the utility model CZ 33078 is also known. The ballast bag is fastened to the supporting structure which surrounds it from the outside and is formed by inflatable hollow sections in the form of hoses made of rubber-textile material, the cavities of which are interconnected to form at least one enclosed space connected to the filling gas valve and the gas outlet valve. The disadvantage of this solution is the need to fill it with a large amount of water or similar fluid, thanks to which each part is anchored to the ground. The proposed solution also provides ballistic resistance only in the area of the ballistic panel. Thanks

- 1 CZ 2020 - 457 A3 it is not possible to place individual parts on top of each other and in case of joining two parts next to each other the area of their connection does not provide any ballistic resistance, and therefore this solution cannot be used to create linear ballistic resistant wall and adjoining dividing ballistic resistant partitions, penetrations and windows. Another disadvantage of the described solution is that it does not have an absorbing component of the panels, which would result in the rebound of incident projectiles and fragments and risk serious injury to persons near the panel.

A solution of a ballistic multilayer arrangement according to EP 2748556 is also known. It is a combination of an absorbent layer of expanded glass and several layers formed of aramid or similar fibers usually bonded with a resin, polyurethane or similar polymer. The absorbent layer consists of sintered expanded glass granules with small pores filled with gas and with a grain size of 0.01 mm to 5 mm, which is able to absorb a large amount of energy. These layers can also be combined and bonded with ceramic and metal layers to improve durability. The disadvantage of this solution is the high brittleness of expanded glass and other ceramic layers. Such materials are able to absorb large amounts of energy, but are completely unsuitable for regular shooting into a single area, as they fragment and no longer provide any ballistic protection after several hits. Another disadvantage is the considerable degradation of the polymer and aramid layers in outdoor conditions. These materials are unsuitable for outdoor use, as the weather effects significantly worsen their properties and thus the ballistic resistance decreases very rapidly. Therefore, it cannot be used for the construction of outdoor training shooting areas and buildings. Another disadvantage is the absence of an absorbing layer, which would prevent flying fragments of missiles and ballistic material, which could very seriously injure people near the ballistic layer. The patent discloses an absorbent layer, but in terms of materials, which is able to absorb and dissipate large amounts of energy. However, this large absorption is caused by the considerable fragmentation of the expanded glass, and said fragments can have a large wounding effect.

A mobile protective wall solution is also known according to EP 2712962. It is a mobile protective wall consisting of two pieces, one serving as a base for mounting on a substrate, a rail element, and the other part serving as an impact surface, i.e. a protective wall. Both parts are connected with the help of connecting material and can also be anchored to the foundation. This solution is intended as a line barrier for detaining vehicles on roads and highways. By connecting several elements in a row, energy is transferred and decomposed into several elements in the event of an impact, thus achieving the required stopping effect. The disadvantage of this solution is that it does not have ballistic resistance, and therefore cannot be used for the construction of training and handling areas, where sharp shooting from small arms is performed. Another disadvantage of this solution is that it can only be assembled in the horizontal direction as a barrier for vehicles. It cannot be layered on top of each other and create walls, buildings and similar training areas.

WO 2017100093 discloses a wall system comprising a plurality of wall assemblies. The wall assembly includes a post and a wall that is rotatably supported within the post to allow controlled extension and retraction of the wall. This solution uses large panels that are not intended for ballistic purposes, because in addition to their unsuitable material, there are also significant gaps between the posts and the wall.

US 2015354926 discloses a ballistic wall construction using a base wall panel formed of a bulletproof material, the base wall panel having a bottom edge adjacent to the floor surface and extending to the top edge above head level provided with a removable secondary wall panel formed of the bulletproof material. The disadvantage of this solution is the difficult handling of the panels and their attachment to the floor.

US 2012118135 describes a solution providing protection against ballistic threats by means of a treated fabric. Embodiments include multiple layers of fabric, each of which includes an inner core made of a substantially rigid material and outer surfaces. Several layers of fabric are hot-pressed into a ballistic panel. Embodiments further include a number of connections they provide

-2 EN 2020 - 457 A3 additional mechanical connections that hold multiple layers of fabric together to improve the level of protection against ballistic threats. The ballistic panel can be cut to a size suitable for a variety of applications, such as a ballistic shield for use in a vehicle or a briefcase or backpack for personal use. This solution is not suitable for simulating the walls in a building for army and police training.

A mobile wall solution for flood protection is also known from the utility model CZ 12467. It is a mobile flood protection for residential and commercial buildings and areas, which consists of at least two reinforcing beams, between which is fixed lower base part of reinforcement beams. The reinforcing beams are formed by longitudinal semi-closed profiles into which the foil is pressed and secured against sliding out. This solution is intended as a protective structure against floods and similar situations where it is necessary to stop the spread of water or similar liquids.

The disadvantage of this solution is that it does not provide ballistic resistance, and therefore cannot be used for the construction of training and handling areas, where sharp shooting from small arms is performed. Another disadvantage of this solution is that the construction system is designed so that the individual fields can be connected only in the horizontal direction. The proposed solution does not allow the construction of higher walls, enclosed buildings with partitions, openings and windows.

The essence of the invention

The above drawbacks are largely overcome by the mobile indoor shooting and tactics training system of the present invention. Its essence is that it comprises ballistic posts provided with at least one vertical row of hooks for hanging meshes placed on the ballistic panels, the ballistic panels being formed by a layer of high-strength steel on which an absorbing layer covered with rubber is placed on the inside of the ballistic panel. The upper ballistic panels are offset from the lower ballistic panels in their lower part. The rubber-covered absorbent layer is terminated 10 to 20 mm below the edge of the high-strength steel layer on the upper horizontal side of the ballistic panel.

The absorbent layer preferably has a thickness of 15 to 28 mm and is selected from the group of laminate, OSB board, wood, plastic. In a preferred embodiment, the ballistic column is formed by a ballistic plate provided with a base foot and a top cover. Furthermore, the ballistic column may be provided with a pair of continuous plates placed perpendicular to the ballistic plate to prevent the bullet from penetrating between the ballistic column and the ballistic panel. The ballistic plate is preferably chamfered at an angle of 40 to 50 ° on its longer sides for precise assembly and protection of the ballistic support column. In a preferred embodiment, the base foot and the top cover are provided with a shoulder for precise positioning of the ballistic plates.

The basic requirements for the mobile training system are its ballistic durability, the ability to absorb the projectile so that it does not bounce into the training area at any impact angle and, last but not least, the flexibility of the whole system guaranteeing a quick and easy change of layout. So far, there is no sophisticated solution that can adequately meet all these requirements. This is mainly due to the overall variability of the entire system, the weight of the individual elements, which must be easy to handle without heavy equipment and easily replaceable with excessive wear. The mobile system for training shooting and tactics in enclosed spaces is a flexible construction system that can be easily assembled into the required layout. The mobile system for training shooting and tactics in enclosed spaces consists of two basic parts, which are the ballistic panel and the ballistic column.

The ballistic panel is a sandwich construction consisting of three layers. The first layer is made of rubber and this is used to absorb the projectile and prevent its reflection. The second layer is a layer of laminate, OSB, or similar material with a thickness of about 18 mm, which is to support the absorption of the projectile and

-3 CZ 2020 - 457 A3 prevention of its reflection. The third layer is made of high-strength ballistic sheet with a thickness of 8 mm. The purpose of this layer is primarily ballistic protection and prevention of the passage of the projectile through the sandwich panel, secondarily high-strength ballistic sheet gives the sandwich panel sufficient rigidity and resistance to human or other object and ensures sufficient rigidity of the entire modular system. The ballistic panel is provided with several holes for connecting the individual layers of the sandwich panel to each other. It is also equipped with four meshes, which are used to hang individual sandwich panels to the ballistic post.

The ballistic column is a structure consisting of a steel column, ballistic sheets, a lower foot for anchoring the column and an upper plug for a firm interaction of the steel column with the ballistic sheets. The steel post is a square cross-section that is firmly attached, for example by welding, to the base foot. The floor plan of the base foot has the shape of a square with dimensions exceeding the floor plan of the column, which is further provided with a niche for inserting ballistic plates. Ballistic plates can be attached to the ballistic column from one, two, three or four sides and can have different shapes and functions. The basic functions are the load-bearing function and the covering function. For the load-bearing function, the column is equipped with twelve hooks for hanging six ballistic sandwich sheets to the ballistic column. Furthermore, the ballistic plate is provided with a pair of continuous plates, which run around the suspension hooks along the entire length of the ballistic plate. In this way, the entire mobile system provides sufficient resistance to missile penetration even through detail at the interface between the ballistic panel and the ballistic column. In the second embodiment for the covering function, the sheet metal is applied to the steel column without any further modifications and centered in its position by means of the lower niche and the upper lid. In both cases, the ballistic plate is provided with bevelled edges on its longer side for reasons of precise assembly. The ballistic cover plate is further provided with a layer of rubber, which is glued along the entire length of the ballistic plate and prevents the projectile from bouncing.

In a preferred embodiment, the entire system is designed to minimize the number of vulnerabilities at which the system could be perforated. These places are the contact of the ballistic panel and the ballistic column and the contact between two adjacent ballistic panels. While the contact of the ballistic panel and the ballistic column is solved by a pair of continuous plates that run around the suspension hooks along the entire length of the ballistic plate, the contact of two adjacent ballistic panels is solved by overlapping each other. For this reason, the spacing of the hooks with which the ballistic plate is provided is reduced by 10 to 25 mm with respect to the vertical axial distance of the individual panels so that in a preferred embodiment these sandwich panels overlap and ensure sufficient ballistic resistance. For this reason, the dimension of the first two absorbing layers of the sandwich panel in the vertical direction relative to the high-strength sheet is shortened by 10 to 25 mm in order to avoid an excessive tilting of the entire panel.

The mobile system for training shooting and tactics in enclosed spaces is a system that is not expensive to acquire and operate and at the same time will provide sufficient ballistic protection and guarantee sufficient safety against the projectile's bounce by its users. The future users of the system include mainly state protection forces, such as the army and police, as well as shooting ranges and shooting clubs, even outside the Czech Republic. The mobile indoor shooting and tactics training system is a system that allows training with sharp ammunition indoors without the risk of serious injuries. The mobile system is based on a ballistic composite kit, which is sufficiently resistant to bulletproof, relatively easy to handle and affordable. At the same time, it is sufficiently resistant to weather conditions and can therefore be built on any outdoor shooting range. This system can thus satisfy the demand not only of the security forces, but also of some larger shooting ranges, which will be able to expand their training portfolio.

Clarification of drawings

The mobile indoor shooting and tactics training system of the present invention will be described in more detail by way of specific embodiments. The ballistic panel is shown in axonometry in Fig. 1 and in Fig. 2 in a rear view. The ballistic column is in axonometry

-4 CZ 2020 - 457 A3 shown in Fig. 3. Fig. 4 is a ballistic panel. Fig. 5 is another embodiment of a ballistic column. The ballistic column with the attached ballistic plates is shown in Fig. 6. Mounting of the ballistic panel and the composition of the mounted ballistic panels is shown in the rear view in Fig. 7 and vaxonometry in Fig. 8. The mobile system for training shooting and tactics in confined spaces is shown schematically in axonometry in Figs. 9 to 12. In Figs. 13 shows a corner connection.

Examples of embodiments of the invention

The mobile system 15 for indoor shooting and tactics training consists of two basic parts: ballistic panel 1 and ballistic column 2.

Ballistic panel 1 is a sandwich construction consisting of three layers. The front layer of the sandwich panel is made of rubber 3 and is used to absorb the projectile and prevent its reflection. The intermediate absorbing layer 4 of the sandwich panel is a layer of laminate, OSB, or similar material with a thickness of approximately 18 mm, which has the purpose of absorbing the projectile and preventing its reflection. The back layer of the sandwich panel is formed by a layer of high strength steel 5 and is primarily used as a ballistic protection to prevent the projectile from passing through the sandwich ballistic panel 1. Second, the layer of high strength steel 5 provides the sandwich ballistic panel 1 with sufficient rigidity and impact resistance. sufficient rigidity of the whole modular mobile system 15. The ballistic panel 1 is provided with several openings 6 for connecting the individual layers of the sandwich panel 1 to each other. Furthermore, it is provided with four eyelets 7, which serve to hang the individual sandwich ballistic panels 1 to the ballistic post 2.

The ballistic post 2 is a structure consisting of a steel post, ballistic plates 9, a lower foot 10 for anchoring the post and an upper plug 11 for firmly securing and interacting the steel post with the ballistic sheets 9. The steel post is a square or rectangular cross-section which is fixed The floor plan of the base foot 10 has a square shape with dimensions exceeding the floor plan of the column, which is further provided with a niche 12 for inserting ballistic plates 9. The ballistic plates 9 can be applied to the ballistic column 2 from one to four sides and they can take different forms and functions. The basic functions are the load-bearing function and the covering function. For carrier function, the column is provided with twelve hooks 13 for hanging the ballistic sandwich panels 1 to the ballistic column 2. Furthermore, the ballistic plate 9 is provided with a pair of continuous plates 14 which run around the suspension hooks 13 along the entire length of the ballistic plate 9. 15 in connection ballistic column 2 - ballistic panel 1 sufficient resistance to the penetration of the projectile through the contact at the interface between the ballistic panel 1 and the ballistic column 2.

In the second embodiment for the covering function, the ballistic plate 9 is applied to the steel column without any further modifications and centered in position by means of the lower niche 12 of the base 10 and the upper lid 11. In both cases the ballistic plate 9 is provided with bevelled edges along its longer edges. sides for precise assembly around the steel column.

Industrial applicability

The mobile system for training shooting and tactics in enclosed spaces, according to this technical solution, will find application mainly in the training units of the armed forces of the state, as well as security forces of the state, such as police, army, secret services, security agencies. they use firearms and military and civilian shooting ranges, which want to expand their portfolio of services with indoor shooting training.

Claims (6)

PATENT CLAIMS A mobile system for training shooting and tactics in enclosed spaces (15), comprising ballistic panels (1), characterized in that it comprises ballistic posts (2) provided with at least one vertical row of hooks (13) for hanging eyelets (7) located on ballistic panels (1), wherein the above-mentioned ballistic panels (1) are projected in relation to the lower-placed ballistic panels (1) in their lower part and the ballistic panels (1) are formed by a layer of high-strength steel (5) the absorbent layer (4) covered with rubber (3) is placed on the ballistic panel (1), the absorbing layer (4) covered with rubber (3) ending 10 to 20 mm below the edge of the high-strength steel layer (5) on the upper horizontal side of the ballistic panel (1). ). Mobile system according to claim 1, characterized in that the absorbing layer (4) has a thickness of 15 to 28 mm and is selected from the group consisting of laminate, OSB board, wood, plastic. Mobile system according to either of Claims 1 and 2, characterized in that the ballistic column (2) is formed by a ballistic plate (9) and is provided with a base foot (10) and an upper cover (Π). Mobile system according to claim 3, characterized in that the ballistic column (2) is provided on both sides of the hooks (13) with a pair of continuous plates (14) arranged perpendicular to the ballistic plate (9) to prevent bullet penetration between the ballistic column (2) and a ballistic panel (1). Mobile system according to claim 3 or 4, characterized in that the ballistic plate (9) is bevelled at an angle of 40 to 50 ° on its longer sides for precise assembly and protection of the supporting ballistic column (2). Mobile system according to any one of claims 3 to 5, characterized in that the base foot (10) and the upper cover (11) are provided with a shoulder (12).