DE2659727A1 - Energy absorbing bullet proof flexible plate - has fabric support layer with polyurethane bonded and embedded core plates - Google Patents

Abstract

The energy absorbing and distributing plate is made of several bonded layers of different materials. The plate is flexible and follows the contours of the object to be protected from bullets and fragments, e.g., as a protective jacket. The support layer is made from triaxially stable material. An adhesive bonding layer is placed on the first plate receiving a core layer consisting of several plates of energy absorbing material. On these plates is placed another adhesive bonding layer on which is placed another core layer. The first support layer is made of polyester or nylon fabric. Polyurethane coating is used as adhesive bonding layer material and the core plates are embedded into the bonding material so that each plate is enclosed on all sides by the polyurethane coating.

Description

"Process for the production of an energy reduction and energy

Distribution section "Applicant: Thyssen Industrie AG The invention relates to a method of making a power dissipation and power distribution section that consists of several superimposed layers of different materials.

It is known for the partial or complete dissipation of energy from projectiles and splinters parts and plates made of high-strength heat-treated steel with one or more walls, made of laminated steel, ceramic and combinations of the aforementioned materials to use.

It is also known to use materials that are destructive by welding or by passing shaped charge projectiles through a shaped charge beam impede.

The above-mentioned sections are attached to the common guard, that they are not flexible and therefore do not adapt to the body shape of the person to be protected Can customize the object.

Armored vests are also known, which are made up of several by means of Rings or the like. Interconnected small pallets exist. With these vests is disadvantageous that when a projectile or the like hits the shot Force acting on the plate is transferred to an area of the body of the same size of the wearer of the vest.

This force can only be distributed over a relatively small area unbearable for the person concerned.

To avoid this Nacteiles, it is known that the steel plates to overlap each other. This inevitably makes the vests thick and schw @ e @, carrying more obstructive.

From DT-OS 23 62 390 a vest is known in which several side by side lying steel sheets are inserted into pockets of a flexible cushion. About the Separating joints de @ steel sheets, cover sheets are placed. The whole package of sheets will wrapped with an adhesive tape. But these packages are also very heavy and obstructive the wearer of the vest is considerable. In addition, these plates can only be nl1r ? adapt to one direction of the body shape.

Protective vests are also known which are made from a synthetic textile fiber fabric exist. To protect against hard core ammunition, however, bags for Steel inserts may be provided. It is also known to have several juxtaposed Embed steel plates in rubber by vulcanizing or foaming. At after The embedding material takes over the sections produced in the aforementioned process both the support function that is supposed to hold the steel plates in place, as well as the adhesion function that binds Gurnni and steel plates together should.

For this it is necessary that the plates in the known sections be provided with holes. There are also special devices for each shape of the section necessary. So that the above-mentioned materials take on the support function can, they must have a relatively large wall thickness.

From this and from the relatively large specific weight of Rubber gives the section a high weight with little flexibility and Elasticity.

The invention is based on the object of finding a method according to which energy dissipation and energy distribution sections of the aforementioned Genus are to be produced, which are easy to adjust to the body shape to adapt to the property to be protected in days are economical to manufacture and at the same time provide reliable protection against projectiles from handguns and handguns and offer their splinters.

This object is achieved according to the invention in that a carrier function Adopting carrier layer made of three-axis stable material with an adhesive function Adopting, adhesive, connecting layer made of material with high adhesion, flexibility and elasticity is coated, which during the duration of their adhesion with a Core layer is connected, which is made up of several adjacent panels energy-consuming material is formed.

By the method according to the invention, the after the known Sections produced by the method of embedding assumed support and adhesive function divided: The support function is taken over by an elastic, flexible material, which is made from a tightly woven fabric. The liability function takes over a connection material with great adhesive force. By the proposed method a low section weight and high flexibility and elasticity is achieved, which changed by the composition of the plastic components and the respective Can be adapted to requirements. Another adjustment to requirements takes place in that a flexible, non-detachable, but inherently stable section in one, two three- or multi-layer arrangement is formed.

In order to achieve this, the invention proposes that on the of the panels of energy-absorbing material formed a core layer first another adhesive connecting layer and then another core layer applied will.

According to a further advantageous embodiment of the invention as the last layer another carrier layer on top of each of the outermost core layers surrounding or enclosing connecting layer applied.

According to the invention, the carrier layer can consist of a polyester, nylon, Silk or rayon fabrics are formed.

The adhesion function is provided by a connecting layer between the Carrier layer and the core layer of a material with great adhesion, flexibility and elasticity is formed. This material can be polyurethane coating, it must be its reaction to be neutral and physiologically harmless. It is used when needed also as a spacer for the inserted parts. The space between two neighboring ones Plates should be about 1/4 the caliber of the projectile against which the section is bulletproof should be. The connection between the carrier layer and the layer of panels atla Energy-consuming material or between two layers of such panels can also be formed by a special adhesive or by adhesive films coated on both sides, A section produced according to the aforementioned method has the following properties on: three-axis stability, low section weight, great flexibility and elasticity, because the carrier layer and the adhesive layer have great inherent elasticity and the position of the panels in size, shape, e.g. triangular - and arrangement of the respective requirement are designed accordingly, e.g. by adapting to the body shape of the wearer. The steel plates are arranged in such a way that the bulletproof safety is maintained over the entire area of the section a section is guaranteed, i.e. there is a Triaxial stability because the steel plates are shifted and misaligned the carrier layer is prevented.

Another advantage - those produced by the process according to the invention Section consists in the fact that it acts as an inertial mass. This distributes the Pressure during energy dissipation on an area that is larger than that of a single one Steel plate. If a section is carried by one person, the Impact force caused by projectile impact not only on the small area a steel plate, but a larger area around it. The specific As a result, the stress on the body is reduced.

Five energy dissipation and energy distribution sections are in the drawing shown. Their manufacturing process is described below. It shows Fig. 1-5 in different numbers of layers mountain energy reduction and energy distribution sections, Fig. 6 shows a detail according to an enlarged scale.

Point x in Fig.5, the 7 the all-round flexibility of a section.

The production of the sections according to the 5 exemplary embodiments is described below.

According to FIG. 1, a polyester fabric forming the carrier layer 1 is applied a polyurethane coating forming the adhesive connecting layer 2 is applied, in which a core layer 3 is formed from several layers lying next to one another Steel plates 4 made of high-strength tempered special steel during the foaming time of the Polyurethane coatings is embedded.

In the section according to the embodiment of FIG. 2 is a another carrier layer 1 made of polyester fabric applied so that the two carrier layers 1 include the adhesive layer 2 and core layer 3.

The embodiment according to FIG. 3 differs from that according to Fig. 2 in that several core layers 3 lie one above the other, all of which in an adhesive layer 2 made of polyurethane coating are embedded.

In the embodiment according to FIG. 4, the section consists of several Core layers, one of which consists of adjacent ceramic plates 5 and two further core layers 3 enclosing this core layer of ceramic plates 5 Steel plates 4 consists, all of which are embedded in Polyurethancoa ting. The The outer closure of this section is again formed by carrier layers arranged on both sides 1 as polyester fabric.

The section according to FIG. 6 consists of several layers 6 of the thinnest, extremely hard materials, which are mutually interconnected by an adhesive film 7 are connected.

Xn Fig. 7 is a section according to the invention and its flexibility pictured.

According to the invention, the individual layers can also be made of other materials be made. However, they must have the following properties: The carrier layer must be flexible, elastic and close-meshed, fabric-like processed. It must be three-axis stable and be physiologically harmless. In addition to polyester fabrics, they are also suitable for this Nylon, silk and rayon fabrics.

The adhesive layer must have great adhesion, flexibility and elasticity exhibit. In the case of a two-component adhesive, this material must also be used its reaction to be neutral and physiologically harmless. It serves if necessary also as spacers for the individual plates of the core layers.

The core layer must partially or completely dissipate energy take over. In addition to high-strength heat-treatable steel, layered steel parts are suitable for this with different hardnesses and toughness, ceramic parts, ceramic parts in Combination with steel, glass or crystal glass parts, single-layer or in a composite multilayered panels formed from granular materials, as well as combinations of the above-mentioned materials or those with the same properties.

Expectations:

Claims (6)

Claims: 1. A method for producing an energy reduction and energy distribution section consisting of several layers arranged one on top of the other consists of different material, characterized in that one is the carrier function Take-over carrier layer (1) made of three-axis stable material with an adhesion function absorbing adhesive connecting layer (2) made of material with high adhesion, Flexibility and resilience is coated during the duration of its adhesiveness is connected to a core layer (3), di.e of several adjacent ones Plates (4) is formed from energy-absorbing material. 2. The method according to claim 1, characterized in that on the Core layer (3) formed by the plates (4) of energy-absorbing material at least first of all another adhesive connecting layer (2) and then another Core layer (3) are applied. 3t method according to claim 1 or 2, characterized in that as the last layer a further backing layer (1) on each of the outermost core layers (3) surrounding or enclosing connection layer (2) is applied. 4. The method according to claim 1 to 3, characterized in that the daf3 Carrier layer (1) formed from a polyester, nylon, silk or rayon fabric will. 5. The method according to claim 1 to 4, characterized in that between the carrier layer (1) and the core layer (3) and between each two core layers (3) the adhesive connecting layer (2-) is formed by polyurethane coating, in which the plates (4) are embedded during the curing time that each Plate (4) is surrounded on all sides by the polyurethane coating and by each adjacent one plate has a gap which is about 1/4 the caliber of the bullet against that the section should be bulletproof. 6. The method according to claim 1 to 4, characterized in that between the carrier layer (1) and the core layer (3) and between two core layers (3) the adhesive connecting layer (2) by a special adhesive or coated on both sides Adhesive film is formed on each of the sides of the panels (4) from energy-absorbing Material are applied with a carrier layer (1) and / or another Core layer (3) are connected.