RU2547282C1 - Method of armour insert manufacturing for thermal protection container out of polymer composite materials, and armour inserts for thermal protection container out of polymer composite materials - Google Patents

Abstract

FIELD: weapons and ammunition.SUBSTANCE: method of armour insert 1 manufacturing involves winding of ballistic spiral plait layers 7 out of hollow glass fibre impregnated with elastic synthetic binding agent in both directions within work area 4 on mandrel 3 with two symmetrical longitudinal grooves 5 extended beyond the mandrel work area 4 and filled with easy destructible material 6. Compensating fabric layers 8 are laid. Bars 9 out of easy destructible material are mounted above grooves 5. Bars are attached to the mandrel outside of work area 4. Ceramic armour screen shell rings 11 are laid with their flat side edges close to bars 9, and splinter-proof layers 13 are bound on the shell rings to press shell rings 11 to bars 9 and compensating layers 8. The blank undergoes thermal processing and cutting along bars 9, weld burrs are cut off in flush, and edges are modelled by U-profile out of material. Armour inserts 1 include ballistic layers 7 of semispiral plaits of both directions out of hollow glass fibre impregnated with elastic synthetic binding agent, compensating fabric layers 8 out of hollow glass fibre impregnated with similar binding agent, ceramic armour screen shell rings 11, splinter-proof layers 13 placed over the shell rings and similar to ballistic layers 7. Side edges are formed with high precision for gapless contact of flat edges during armour insert 1 alignment by the external surface.EFFECT: enhanced processability and quality of armour inserts.4 cl, 9 dwg

Description

The invention relates to the field of armaments, to the development of protective equipment and can be used for the manufacture of body armor of a thermal protective container for storage and transportation of mainly explosive products.

A known method of manufacturing an armored insert from polymer composite materials and an armored insert from polymer composite materials according to patent RU 2499220 of 05.10.2012, MCP ⁷ F41H 1/02.

Known armored plate according to patent RU No. 2165583 dated 04/12/1999, IPC F41H 5/04, containing layers of a polymer composite and tiles of carbide material, for example ceramic.

Known armored barrier and the method of its manufacture according to the patent of Germany No. 2334941 from 10.31.72, MKI ⁷ F41H 1/04. An armored barrier contains layers of a polymer composite.

Known ballistic armor according to US patent No. 4664967, NKI 428-220, MCP ⁷ B32B 3/12, publ. 05/05/12.

Known armor containing layers of a polymer composite material (PCM) from aramid fibers according to PCT (WO) No. 9206840, MCP ⁷ F41H 5/04 from 02.28.91.

Known armored panel and method of its manufacture according to the application of Great Britain No. 2148185, dated 05/30/1985, MKI ⁷ B32B 7/08.

Known armored according to the patent RU 2190823 from 05.07.2001, MCP ⁷ F41H 1/02.

Known devices and a known method determine the general level of technology and are not particularly relevant, therefore, the proposed solutions eliminate the disadvantages of the general prior art.

The disadvantages of the general prior art for the method of manufacturing armored inserts is the low manufacturability due to the lack of a visible base for accurate installation and low reliability of fastening of technological elements (racks), as well as the loose fit of the armor screen to the wound layers with the possibility of its sliding during winding, also the disadvantage is low the quality of the device, due to low heat resistance, high thermal conductivity of the material and low accuracy of fit of the lateral edges of the armored inserts in the presence of gaps between and, as a consequence, the penetration of, for example, hot gases into the container cavity during a fire, and also due to the low fire resistance of the material, in addition, the disadvantage is the low armor-protecting properties of the armored inserts when the material is exposed to high-energy indenters, as well as the high mass of the armored inserts .

The disadvantages of the general prior art for the device are its low heat resistance due to the possibility of penetration of, for example, hot gases into the container cavity during a fire with low accuracy of the side edges of the armor inserts and the presence of gaps between them, low heat resistance due to the high thermal conductivity of the material, low fire resistance due to the high combustibility of the binder, as well as low armor-protecting properties during the wave action of high-energy indenters on continuous media of ballistic layers, Moreover, the disadvantage is the high mass of armored inserts.

The technical problem, the solution of which the claimed invention is directed, is the creation of more technologically advanced and high-quality armored vehicles.

The technical result for the method, which can be obtained by solving the technical problem, consists in increasing manufacturability due to the presence of a visible base for accurate installation and improving the reliability of fixing technological elements by simplifying the precise installation of technological elements without adjustment and adjustment, due to more reliable fastening of the armored screen when winding with a more snug fit to the compensating layers, in improving the quality of the device by increasing the heat resistance while reducing heat conductivity the hollow material, increasing the accuracy of the fit of the lateral edges of the armored inserts and the absence of gaps between them and, as a result, increasing heat resistance while excluding the penetration of, for example, hot gases into the cavity of the container during a fire, and by increasing fire resistance in the presence of urethane modified with chlorine paraffins in the composition that inhibit intense oxidation (combustion) at a temperature close to fire, in addition, the technical result is to increase the armor-protecting properties by reducing Nia indenters wave action in the quench waves destructive stresses in the flooring material, as well as in reducing bronevstavok mass.

The technical result for the device, which can be obtained by solving the technical problem, is to increase the heat resistance while eliminating the penetration of, for example, hot gases into the cavity of the container during a fire by improving the accuracy of the fit of the side edges of the armored inserts and the absence of gaps between them, in increasing the heat resistance due to reducing the thermal conductivity of the hollow material, in increasing fire resistance due to the use of chlorine paraffins modified in the composition of the urethane binder, which inhibit nsivnoe oxidation (combustion) at a temperature close to the fire, but also in enhancing bronezaschitnyh properties by reducing wave action in the quench indenters waves destructive stresses in the flooring material, furthermore, the technical result is to reduce the weight bronevstavok.

For the method, the task with the achievement of the technical result is solved due to the fact that the method of manufacturing the armored inserts of a thermoprotective container from polymer composite materials, in which winding is wound on a mandrel with two longitudinal grooves symmetrically located and protruding beyond its working area, such as gypsum, is wound within the working zone, ballistic layers of spiral strands of both directions from hollow glass fibers impregnated with an elastic synthetic bond and compensating layers of fabric of hollow glass fibers impregnated with a similar binder are laid, then rails of easily destructible material, for example, wooden, are installed over the grooves, they are fixed on the mandrel outside the working area, wrapped around the mandrel with ring turns, for example, glass fiber, then prefabricated the shells of the ceramic armor screen are laid with their flat side edges close to the rails and wrap on the shells shatterproof layers similar to ballistic, pressing the shell yards to the rails and compensating layers, the resulting preform is heat treated, after heat treatment the preform is cut into rails, the flush is removed flush with the edges of the armor screen and the edges are molded with a channel-like profile from a fabric similar to compensating layers.

For spiral strands, glass filaments of hollow fibers ESP11 18.8x3z100 are used, the material of the compensating layers and the forming of the edges is fiberglass based on fabric from hollow fibers of the T-45 (P) -76 grade, and as a binder, a composition based on urethane UR-70B is used while ballistic layers are made of 20-24 layers of material, anti-shatter - from 2-4 layers, and compensating - from 1-3 layers of fabric.

The problem with the achievement of the technical result for the device is solved due to the fact that the armor inserts of a heat-protective container made of polymer composite materials, including ballistic layers of half-spiral both directions of strands of hollow glass fibers impregnated with an elastic synthetic binder, compensating layers of fabric made of hollow glass fibers impregnated with a similar binder , shells of a ceramic armor screen located on top of the last anti-shatter layers similar to ballistic moreover, the edges of the armored inserts are formed by a channel-shaped profile made of fabric similar to the compensating layers, and the side edges are made with increased accuracy for the gapless mutual joining of these flat edges when centering the cast-in inserts on their outer surface.

Glass filaments of hollow fibers ESP11 18.8x3z100 were used for spiral strands, fiberglass based on fabric from hollow fibers of the T-45 (P) -76 grade was used for the material of the compensating layers and forming edges, and a composition based on urethane UR- was used as a binder 70B, while the ballistic layers are made of 20-24 layers of material, anti-shatter - from 2-4 layers, and compensating - from 1-3 layers of fabric.

Distinctive features of the method are the following features:

- ballistic layers of spiral strands of both directions from hollow glass fibers impregnated with an elastic synthetic binder are wound within the working zone and compensating layers of fabric of hollow glass fibers impregnated with a similar binder are laid - the signs are significant, they require new operations and their new execution, aimed at solving the task with the achievement of a technical result, which consists in improving manufacturability due to more reliable fastening of the armored screen when winding ke with a more snug fit to the compensating layers, to improve the quality of the device - to reduce the thermal conductivity of the hollow material, as well as to increase the armor-protecting properties by reducing the wave action of the indenters when damping the waves of destructive stresses in the hollow material, in addition, the technical result is to reduce the weight of the armor inserts ;

- rails are installed above the grooves, they are fixed on the mandrel outside the working area, winding to the mandrel with circular turns - the signs are significant, they require new operations and their new execution, they are aimed at solving the problem with achieving a technical result, which consists in improving manufacturability due to the availability a visible base for accurate installation and increase the reliability of fixing technological elements;

- the shells of the ceramic armor screen are laid with their flat side edges close to the rails, pressing the shells to the racks - the signs are significant, they include the presence of new operations, a new sequence of operations and their new execution, aimed at solving the problem with achieving a technical result, which consists in improving manufacturability due to simplify the accurate installation of technological elements without adjustment and adjustment, in addition, the technical result is to improve the quality of devices by increasing the accuracy of fit of the side edges bronevstavok, the absence of gaps between them and, consequently, improve the heat resistance while avoiding the penetration of, for example, hot gases into the cavity of the container in a fire;

- remove the flush flush with the edges of the armor screen - the signs are significant, they include the presence of new operations, a new sequence of operations and their new execution, aimed at solving the problem with the achievement of the technical result, which is to improve manufacturability by simplifying the cutting of the flake when sliding the cutting tool on a solid ceramic edge , as well as to increase heat resistance by increasing the accuracy of the fit of the lateral edges of the armored inserts;

- for spiral strands, glass filaments of hollow fibers ESP11 18.8x3z100 are used, the material of the compensating layers and the edges are formed of fiberglass based on fabric from hollow fibers of the T-45 (P) -76 grade, and a composition based on urethane modified with chlorine paraffins is used as a binder UR-70V, while ballistic layers are made of 20-24 layers of material, anti-shatter layers are made of 2-4 layers, and front layers are made of 1-3 layers of fabric - the signs are significant, they require new operations with the justified use of new materials, they are aimed at and the solution of the problem with the achievement of a technical result, which consists in improving the quality of the device by reducing its mass, increasing heat resistance, as well as increasing fire resistance due to the use of urethane modified with chlorine paraffins in the composition of the binder, which inhibit intense oxidation (combustion) at a temperature close to a fire.

Distinctive features of the device are the following features:

- including ballistic layers of half-spiral both directions of hollow glass fiber tows impregnated with an elastic synthetic binder, compensating fabric layers of hollow glass fibers impregnated with a similar binder - the signs are significant, they provide a new form of elements aimed at solving the problem with achieving a technical result, consisting in reducing the thermal conductivity of the hollow material, as well as increasing the armor-protecting properties by reducing the wave effect of the indenter s when damping waves of destructive stresses in the hollow material, in addition, the technical result is to reduce the mass of armored inserts;

- shatterproof layers, similar to ballistic ones - significant features, provide for a new version of the elements, aimed at solving the problem with the achievement of the technical result, which consists in reducing the thermal conductivity of the hollow material, in reducing its mass;

- the lateral edges are made with increased accuracy for gapless mutual docking with these flat edges when centering the armored inserts on their outer surface - the signs are significant, provide for a new mutual arrangement of the elements and their new design, aimed at solving the problem with achieving a technical result, which is to increase heat resistance at eliminating the penetration of, for example, hot gases into the cavity of the container during a fire by increasing the accuracy of the fit of the side edges of the armor rates and the absence of gaps between them;

- for spiral strands, glass filaments of hollow fibers ESP11 18.8x3z100 were used, for the material of the compensating layers and forming edges, fiberglass based on fabric from hollow fibers of the T-45 (P) -76 brand, and a composition based on urethane UR was used as a binder -70V, while ballistic layers are made of 20-24 layers of material, anti-shatter - from 2-4 layers, and front - from 1-3 layers of fabric - the signs are significant, provide for the sound use of new materials, aimed at solving the problem with achieving technical one result consisting in improving heat resistance and fire resistance due to the increasing use in the binder a urethane-modified chlorinated paraffin which inhibit intensive oxidation (combustion) at a temperature close to the fire.

These distinctive features are significant, since each individually and all together are aimed at solving the problem with the achievement of a technical result. The use of a single set of essential distinguishing features in the known solutions was not found, which characterizes the conformity of the technical solution to the criterion of "novelty."

A single set of new essential features with common known provides a solution to the problem with the achievement of the technical result and characterizes the proposed technical solution with significant differences compared with the prior art and analogues. This technical solution is the result of research and experimental work to improve the manufacturability and quality of armored vehicles without the use of well-known design solutions, recommendations, materials and has non-obviousness, which indicates its compliance with the criterion of "inventive step".

The invention is illustrated by drawings, where in FIG. 1 shows a general view of a method for manufacturing armored inserts; FIG. 2 is a cross section along the annular turns of the winding of the rails, in FIG. 3 is a cross-sectional view of the preform, FIG. 4 is a longitudinal section of the edge of the workpiece; FIG. 5 is a cross-sectional view of a longitudinal section of a workpiece; FIG. 6 is a general view of docked armored inserts as part of a heat-shielding container; FIG. 7 is a cross section of the docking point of the armored inserts, in FIG. 8 is a longitudinal section of the lower end of the armored insert; FIG. 9 - work armored when interacting with the indenter.

A method of manufacturing armored inserts 1 of a heat-protective container 2 from polymer composite materials, in which ballistic layers 7 are wound around the working area 4 with two longitudinal grooves 5, which are symmetrically located and protruding beyond its working area 4, filled with easily destructible material 6 spiral strands of both directions from hollow glass fibers impregnated with an elastic synthetic binder, and compensating layers of 8 fabric of hollow glass fibers impregnated with anal are laid with a binder, then over the grooves 5, rails 9 are made of easily destructible material, for example, wooden, they are fixed on the mandrel outside the working area 4, wrapped around the mandrel 3 by ring turns 10, for example, a fiberglass, then the pre-fabricated shells 11 of the ceramic armor screen are laid flat side edges 12 close to the rails 9 and windproof shells 13 similar to ballistic 7 are wound onto the shells, pressing the shell 11 against the rails 9 and compensating layers 8, the resulting heat treatment blank They are cured, after heat treatment, the workpiece is cut 14 along rails 9, the flake 15 is removed flush with the edges 12 of the armor screen, and the edges are formed with a channel-shaped profile 16 from a material similar to compensating layers 8.

For spiral braids, glass threads from hollow fibers ESP11 18.8x3z100 TU 48-106-94, compensating layers 8 and molding 16 edges are used - fiberglass based on fabric from hollow fibers of the brand T-45 (P) -76 TU 6-48-107 -94, and as a binder use a composition based on urethane UR-70V TU 2253-201-07507802-2004, while the ballistic layers 7 are made of 20-24 layers of material, anti-shatter 13 - from 2-4 layers, and compensating 8 - from 1-3 layers of fabric.

Armored inserts 1 of a heat-protective container 2 made of polymer composite materials, including ballistic layers 7 of semi-helical both directions of strands of hollow glass fibers impregnated with an elastic synthetic binder, compensating layers of 8 fabric of hollow glass fibers impregnated with a similar binder, shells 11 of ceramic armor screen located on top of the last anti-shatter layers 13, similar to ballistic 7, and the edges 12 of the armored inserts 1 are formed by a channel-shaped profile 16 of fabric, anal -tech compensating layers and the side edges formed with increased accuracy for gapless mutual joining plane 17 these edges 12, with alignment brosnevstavok 1 at their outer surface 18.

For spiral strands, glass threads from hollow fibers ESP11 18.8x3z100 TU 48-106-94 were used, for the material of the compensating layers 8 and forming 16 edges - fiberglass based on fabric from hollow fibers of the brand T-45 (P) -76 TU 6-48 -107-94, and as a binder, a composition based on urethane UR-70V TU 2253- 201-07507802-2004 was used, while the ballistic layers 7 are made of 20-24 layers of material, the anti-shatter layers 13 are made of 2-4 layers, and the compensating 8 - from 1-3 layers of fabric.

An example of a specific embodiment of the method is that the first spiral of ballistic layers 7 begins (see Fig. 4) with one or two ring turns of the bundle, tying the bundle to these turns at the edge of the working area 4, with each subsequent spiral at the edges of the working area 4 in order to prevent it from slipping during a turn of the winding, they end with two or four ring turns, pressing the end of the spiral, obtaining a thickening 19 in the allowance zone 20. The harnesses with the turn of the winding can also be hooked with pins 21. Similarly, wrap shaving layers 13.

The armored screen 11 is glued from ceramic cells in special forms to ensure high accuracy of the geometric parameters of the edges 12. The blank 14 is cut with a diamond blade 22 with a cut thickness and deviation of its direction from the nominal, providing a flake size of 15 and the exclusion of notches of the edges 12, which, in turn, are provided by the thickness of the rail 23 and the accuracy of its installation 24 relative to the visible edge 25 of the groove 5. Moreover, all of the listed accuracy parameters when executing the inventive method provide a docking density of 17 to Omoko bronevstavok and thus improved heat resistance composed bronevstavok container.

Work armored 1 as follows. When exposed to high temperatures on the armor 1 due to the low thermal conductivity of the anti-fragmentation 13, compensating 8 and 7 ballistic layers, as well as the density of the joint 17, the temperature of the explosive product 26 does not reach a critical value for a time sufficient to eliminate the causes of high temperatures.

When exposed to a high-energy indenter 27, it breaks through the anti-fragmentation layer 13 (see FIG. 9), splits into fragments 28 on the armor screen 11, breaks its cell into fragments 29 of the armor screen, and initiates waves of destructive stresses in the destruction conoid 30. Due to the presence of cavities in the fibers of the compensating 8 and 7 ballistic layers, the waves are intensively quenched, the fragments 28 and 29 lose energy and stop in the ballistic layers 7 with the formation of a protruding protrusion 31. Part of the fragments 29 of the armor screen is delayed from flying out GOVERNMENTAL layers 13.

Thus, the use of inventions will allow you to create an armored car with increased reliability, which confirms its intended use. The feasibility of the invention is confirmed by the positive test results of the armored vehicles, the development and manufacture of which are fully based on the description provided. In this regard, the new technical solution also meets the criterion of "industrial applicability", i.e. level of invention.

Claims (4)

1. A method of manufacturing an armored insert of a thermoprotective container made of polymer composite materials, in which ballistic layers of spiral bundles of both directions from hollow are wound on a mandrel with two longitudinal grooves symmetrically located and protruding beyond its working area, filled with easily destructible material, such as gypsum glass fibers impregnated with an elastic synthetic binder, and lay the compensating fabric layers of hollow glass fibers impregnated with a similar binder, then over the grooves install rails of easily destructible material, for example wooden, fix them on the mandrel outside the working area, winding them to the mandrel with circular coils, for example, glass wire, then the pre-made shell shells of the ceramic armor screen are laid with their flat side edges close to the rails and wound anti-shatter layers similar to ballistic layers on the shells, pressing the shells to the rails and compensating layers, the resulting workpiece is heat treated, after heat treatment ki workpiece is cut by rails, removed burr flush edges and broneekrana obformovyvayut shvelleroobraznym edge profile of a fabric similar to the compensating layers. 2. The method according to claim 1, characterized in that glass filaments of hollow fibers ESP11 18.8x3z100 are used for spiral strands, the material of the compensating layers and the molding of the edges is fiberglass based on fabric from hollow fibers of the brand T-45 (P) -76, and as a binder, a composition based on urethane UR-70B is used, while ballistic layers are made of 20-24 layers of material, anti-shatter layers are made of 2-4 layers, and compensating ones are made of 1-3 fabric layers. 3. Armored inserts of a heat-protective container made of polymer composite materials manufactured by the method according to claim 1, including ballistic layers of half-helical both directions of strands of hollow glass fibers impregnated with an elastic synthetic binder, compensating layers of fabric made of hollow glass fibers impregnated with a similar binder, shells of a ceramic armor screen, anti-shatter layers located on top of the latter, similar to ballistic, and the edges of the armored inserts are formed by a channel-shaped pro cm from the tissue, similar to the compensating layers, and the side edges formed with increased accuracy for gapless mutually joining these flat edges with centering bronevstavok on their outer surface. 4. Armored inserts according to claim 3, characterized in that glass strands made of hollow fibers ESP11 18.8x3z100 were used for spiral bundles, fiberglass based on fabric made of hollow fibers of the T-45 (P) -76 grade was used for the material of the compensating layers and edge moldings and as a binder, a composition based on urethane UR-70B was used, while the ballistic layers were made of 20-24 layers of material, the anti-shatter layers were made of 2-4 layers, and the compensating ones were made of 1-3 fabric layers.

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