RU180859U1 - ANTI-SHIELD KOZYREK - Google Patents

Abstract

The utility model relates to the field of military affairs, and more specifically to open-type military fortifications used in the engineering equipment of positions and areas of location of troops to protect personnel and weapons from being hit by fragments when conducting surveillance and shooting from various types of small arms. The technical solution is that in it the device is made in the form of two hollow half-cylinders assembled from four separate curvilinear elements, a composite construction and including a supporting rigid base, a cushioning layer and an external sliding layer, the lock for connecting the elements is made in the form of docking nodes with installation pins, while on the sides of the two hollow half-cylinders there are support clamps for attaching to the ground, and on the entrance side a protective fabric-armor curtain. The calculations found that the proposed anti-splinter visor according to the main criterion for assessing "application efficiency - cost and feasibility" has indicators that are about 2 times higher with equal to known analogues.

Description

The utility model relates to the field of military affairs, and more specifically to open-type military fortifications used in the engineering equipment of positions and areas of location of troops to protect personnel and weapons from being hit by fragments when conducting surveillance and shooting from various types of small arms.

There is a device known as “A trench with a splinter-proof canopy for machine-gun firing”, an analogue (Manual “Troop Fortifications”, Voenizdat, Moscow, 1984, p. 18), consisting of walls made of turf or dredging bags, overlapping timber and soil debris.

The disadvantage of this structure is the high complexity of the construction due to the necessity of harvesting elements from the timber of the desired product range, which is practically absent in the conditions of desert-steppe.

There is also known the device “Overlap of the CNIM paired trench”, a prototype (Textbook “Military Fortifications of the Main Foreign Countries and Their Development Prospects”, VIA Edition, M, 1998, p. 13), consisting of two elements of thin-sheet corrugated fiberglass , curved in the upper part, a lock for connecting elements, six spacers and soil sprinkling.

The disadvantages of this structure are the complexity of its construction (dismantling), the inconvenience of carrying and transportation due to large-sized elements, as well as the difficulty of using it to increase the protective properties of trenches of a different design.

The objectives of the proposed technical device are to increase the tactical and technical characteristics by reducing the overall parameters and the complexity of the assembly of the anti-splinter visor, achieving the possibility of a quick change of the firing position, reducing the cost, as well as providing the possibility of using various types of fortification shelters to enhance protection.

The solution of the tasks is achieved by the fact that the proposed device is made in the form of two hollow half cylinders assembled from four separate curvilinear elements, a composite structure comprising a rigid supporting base, a cushioning layer and an external sliding layer, and the lock for connecting the elements is made in the form of docking nodes with installation pins , while on the sides of the two hollow half-cylinders, support clamps are provided for fastening to the ground, and on the entrance side a protective fabric armor curtain.

The essence of the proposed utility model is illustrated by drawings, which depict: in FIG. 1 - shows a General view of the anti-splinter visor in the assembled position; in FIG. 2 - shows general views of individual curved elements prepared for assembly; in FIG. 3 - shows a section of the lock for connecting elements; in FIG. 4 - shows a top view of a trench with an anti-splinter visor for firing from a machine gun while standing; in FIG. 5 and 6 — longitudinal sections of trenches with splinter shields are shown, respectively, for firing from a machine gun while standing and from a knee; in FIG. 7 and 8 show, respectively, a longitudinal section of a trench with an anti-splinter visor for firing from a machine gun lying down and a cross section of an overlapped slit (trench or course of communication); in FIG. 9 - shows a General view of a set of anti-splinter visor in transport position.

The claimed anti-splinter visor 1 (Fig. 1-9), consisting of separate curved elements 2, a lock for connecting elements 3, characterized in that it is made in the form of two hollow half-cylinders 4, assembled from four separate curved elements 2, of a composite structure including a bearing the rigid base 5, the cushioning layer 6 and the outer sliding layer 7, wherein the lock for connecting the elements is made in the form of docking nodes 8 with the mounting pins 9, while on the sides of the two hollow half-cylinders supporting clamps are provided 10 ry fixing to the ground, and the input side - tkanebronevaya protective curtain 11.

The proposed anti-splinter visor 1 (Fig. 1-9) can also be used in special climatic conditions, not only as a shelter from bad weather (rain, snow, wind, cold or heat), but also primarily to create amenities in a short time monitoring and firing from various types of small arms and ensuring increased protection of soldiers and weapons on the battlefield from fragments of calculated weapons due to their rebound. To this end, in its design, on the supporting rigid base 5, an amortization layer 6 is made, for example, of carbon fiber, on top of which an outer sliding layer 7 of Kevlar with a mirror surface is fixed. In addition, the individual curved elements 2 are interconnected by a docking unit 8 (Fig. 3), which is a figured groove made about half the thickness of the element with a locating pin 9 in the form of a hook on one side and an ellipsoidal hole 12 on the opposite side. for reliable fastening (anchoring) to the ground, the individual curved elements 2 have two support clamps 10.

In order to increase the protection, concealment and comfort of the personnel of the fire installations equipped with anti-shatter visors, they are additionally, if necessary, bunded with soil up to 60 cm thick, and also disguised as the surrounding area with the help of service tools and improvised materials. In addition, a protective tissue-armor curtain 11 is installed at the input device into separate firing structures.

In the transport position, the individual curvilinear elements 2 of the anti-splinter visor 1 are folded into a compact package (Fig. 9) and fastened together by wire strands 13 of soft knitting wire. The individual curved elements 2 of the anti-splinter visor 1 are carried manually by one person. Carrying the kit (Fig. 9) is a calculation of two people. At the same time, transportation of anti-splinter visor sets is carried out by any type of transport, at any distance without restrictions. Delivery of the kit to distant points can also be carried out by the airborne method using landing cargo platforms. Handling and installation work is carried out manually.

To assemble the proposed device and erect a firing structure, first choose a place convenient for placing a firing position, which selects the main, most dangerous direction of fire. A breakdown and designation of the contours of the structure is carried out. After extracting the pit, the anti-splinter visor 1 is assembled. To do this, wire twists 13 are removed from the visor kit. Separate curved elements 2 are laid out in a line. Then sequentially using the docking nodes 8 with the mounting pins 9, the individual curved elements 2 are connected to each other (Fig. 1-3). The assembled anti-splinter visor is installed on the foundation pit of the firing structure and bunded, if necessary, with soil. After that, one or two loopholes are equipped and the structure is masked under the background of the surrounding area with an official camouflage coating, improvised means and local material.

Dismantling the anti-splinter visor 1 and its packaging (Fig. 9) for transportation to a warehouse or installation in a new place is carried out in the reverse order.

The advantage of the proposed device in comparison with the known technical solutions is the simplicity of design, optimal weight and size characteristics, high transportability, ease of assembly and the possibility of erection in any climatic conditions, in a short time, with minimal financial and material costs, as well as in the convenience of disassembling reuse in a new area. In addition, this device provides increased protection for personnel and weapons from damage from their fragments.

The readiness of the proposed technical device for pilot testing is confirmed by the presence of drawings, high-strength multilayer composite structures made by innovative technology at domestic industrial enterprises.

Theoretical studies and calculations show that the proposed anti-splinter visor according to the main criterion for assessing "application efficiency - cost and feasibility" has indicators that are approximately 2 times higher than the known analogues.

Claims (1)

An anti-splinter visor consisting of separate curved elements, a lock for connecting the elements, characterized in that it is made in the form of two hollow half cylinders assembled from four separate curved elements, a composite structure comprising a rigid supporting base, a cushioning layer and an external sliding layer, the lock for the connection of the elements is made in the form of docking assemblies with installation pins, while on the sides of the two hollow half-cylinders, support clamps are provided for fastening to the ground, and from the side ony entrance - protective tissue armor curtain.

Images