RU41135U1 - MOBILE OBJECT PROTECTION DEVICE - Google Patents

Abstract

The utility model relates to defensive means, namely, to impenetrable barriers and can be used in the army and in other areas to protect moving objects from hitting low-flying striking elements with a cumulative warhead without the formation of a cumulative jet. The purpose of the claimed utility model is to increase the reliability of protection of a moving object due to inhibition of the striking element and damage (collapse, distortion of geometry) of the shell of the combat cumulative part of the striking element with the impossibility of forming a cumulative jet, which is the main striking and destructive source of the object. The protection device of the movable object 1 may consist of a network 2 made of protective elements - cables 3, attachment points of the protective elements 3 to the object 1 - racks 4 (figure 1). The protection device of the movable object 1 may consist of a network 2 made of protective elements - cables 3, attachment points of the protective elements 3 to the object 1 - a layer of material 5 in the example of the execution of foam plates uniformly laid out on the object (figure 2). The protection device of the movable object 1 may consist of a network 2 made of protective elements - flat tapes 6, attachment points of the protective elements 3 to the object 1 - racks 4 (figure 3). The protection device of the movable object 1 may consist of a network 2 made of protective elements - flat tapes b, attachment points of the protective elements 3 to the object 1 - a layer of material 5 in the example of the execution of foam plates uniformly distributed on the object (figure 4). The protection device of the movable object 1 may consist of a network 2 made of protective elements - fabric 7, attachment points of the protective elements 3 to the object 1 - racks 4 (figure 5). The protection device of the movable object 1 may consist of a network 2 made of protective elements - fabric 7, attachment points of the protective elements 3 to the object 1 - a layer of material 5 in the example of the execution of foam plates uniformly laid out on the object (Fig.6). The striking element 8 shown in Fig.1-6 is not included in the protection device of the movable object 1.

The inventive device of protection of a movable object provides a reliable level of protection due to its implementation from high-strength material in the form of a network located using attachment points of protective elements to the object at a distance of up to one meter from the protected object, which ensures braking of the striking element and damage (wrinkling, distortion of geometry) shell combat cumulative part of the striking element with the impossibility of the formation of a cumulative jet, which is the main damaging and destructive source of the object.

Description

The utility model relates to defensive means, namely, to impenetrable barriers and can be used in the army and in other areas to protect moving objects from hitting low-flying striking elements with a cumulative warhead without the formation of a cumulative jet.

The well-known "Protective structure of anti-fragmentation blankets with gas-filled material" described in the patent of the Russian Federation No. 2200293, class. F 41 H 1/02, op. 03/10/03., Consisting of layers of woven and non-woven materials with increased ballistic resistance, separated by layers of gas-filled material with closed pores

The disadvantages of this protective structure is that it relates to means of protecting people, equipment and building structures only from the fragmentation effects of explosive devices and its high cost due to the use of special gas-filled material from the isolon.

The well-known "Layered flexible armor" described in the utility model certificate for the patent of the Russian Federation No. 0002864, class. 6 F 41 H 1/02, op. 09.16.96., Consisting of sequentially arranged layers of fabric based on high modulus fiber, in which the thickness of the outer layers of the fabric and the number of weaves per unit length of warp and weft are less than the underlying layers, and all layers are connected by piercing threads.

The disadvantages of this armor is that with its help it is possible to stop and destroy striking objects (bullets) only in a short way and its inability to protect the object from the action of a cumulative jet.

The well-known "Engineering Protection System" described in the prospectus of the NGO "Special Materials", St. Petersburg, which is a rapidly deployable engineering fence in the form of metal frames with a mesh screen fastened together. For reliable operation of the fuse of the striking element, the screens are performed in two rows, with a distance from each other up to 2 m, located at certain angles relative to each other.

The disadvantage of this protection is the impossibility of its use on moving objects.

It is known "Protective fence of the vehicle body" described in the patent of the Russian Federation No. 2175614 class. B 60 R 25/00, op. 10.11.01 containing a rectangular

a base made with the possibility of installing over the vehicle roof and connecting with it, arched in cross section of the lining and two side, frontal and rear shutters of the vehicle windows. Each shutter is made three-section with a rectangular middle part and side sections pivotally attached to it. The middle part of each shutter is pivotally connected on the base side with the possibility of rotation by 270 ° relative to the horizontal axis, and the plates are attached to the corners of the base with the possibility of rotation in two mutually perpendicular planes. Fixation of the protective fence in a protective position is carried out by the lock nodes in the form of curved brackets, worn on the lower edges of adjacent side sections and overlays.

A disadvantage of the known device is that the protective fence is solid, located in the immediate vicinity of the object, in fact it fits the protected object and, when struck from the outside by the striking element, damages the protected object with the cumulative combat part of the striking element (with the formation of a cumulative jet).

The closest in technical essence to the claimed technical solution, selected as a prototype, is a "Security device to prevent the theft of a car or parts thereof" described in RF patent No. 2023610 class. 60 R 25/00, op. 30.11.94.

The known device contains cable or chain protective elements mounted on the object, with the possibility of tightening its nodes, and nodes attaching the protective elements to the object. In this case, the protective elements are interconnected with the formation of a grid, the dimensions of which are smaller than the dimensions of the protected parts. Protective equipment can also be made in the form of continuous casings.

A disadvantage of the known device lies in the fact that the protective elements of the device encircle the protected element (i.e., are located in close proximity) and when the object is struck, the blow directly falls on the body of the object, resulting in damage to the protected object by the combat cumulative part of the striking element (with the formation cumulative jet).

The purpose of the claimed utility model is to eliminate this drawback, in particular, to increase the reliability of the protection of a movable object by inhibiting the damaging element and damaging (collapsing, distorting the geometry) of the shell of the cumulative warhead of the damaging element with the impossibility of forming a cumulative jet, which is the main source of damage and destruction to the object.

This goal is achieved by the fact that in the protection device of a movable object, consisting of protective elements in the form of a network made of high-strength material, located on the protected object along its contour and fixedly attached to the object, the attachment points of the protective elements to the object, according to the utility model, material from which the network is made is highly modular, and the attachment points of the protective elements to the object are installed uniformly over the area of the object and are configured to accommodate these protective elements a distance of one meter from the protected object.

In this case, the protective elements of the network are made of cables, or of flat tapes, or of fabric with orthogonal filament weave, impregnated with an elastomer.

In addition, the attachment points of the protective elements to the object are made in the form of flexible racks, or in the form of a layer of material with a density of not more than 200 kg / cu m.

Due to the implementation of the device for protecting a movable object from high-strength material in the form of a network, the protective elements of which are made of cables, or of flat ribbons, or of fabric with orthogonal filament weave, impregnated with an elastomer, and located at a distance of one meter from the protected object on flexible racks , or on a layer of material, braking of the striking element is ensured, damage (crushing, distortion of geometry) by this network of the shell of the cumulative warhead of the striking element with the impossibility of formation umulyativnoy jet and reliable protection of the object.

Thus, the combination of the claimed features can improve the reliability of the protection of a moving object, due to its preservation from destruction.

The inventive device for protecting a movable object has a novelty in comparison with the prototype, differing from it by the above features, and ensures the achievement of the technical result perceived by the applicant.

The inventive device for protecting a movable object can be widely used in the army, in law enforcement agencies to protect against destruction by hand anti-tank grenade launchers with a cumulative warhead and therefore meets the criterion of "industrial applicability".

The essence of the proposed device for the protection of a moving object is illustrated by drawings, which show:

figure 1 - General view of the proposed device for protecting a movable object made of cables on racks;

figure 2 is a General view of the proposed device for protecting a movable object made of cables on a layer of material;

figure 3 is a General view of the proposed device for protecting a movable object made of flat tapes on racks;

figure 4 is a General view of the proposed device for protecting a movable object made of flat ribbons on a layer of material;

figure 5 is a General view of the proposed device for protecting a movable object made of fabric with orthogonal filament weave, impregnated with an elastomer on the racks;

Fig.6 is a General view of the proposed device for protecting a movable object made of fabric with orthogonal filament weave, impregnated with an elastomer on a layer of material.

The protection device of the movable object 1 may consist of a network 2 made of protective elements - cables 3, attachment points of the protective elements 3 to the object 1 - racks 4 (figure 1).

The protection device of the movable object 1 may consist of a network 2 made of protective elements - cables 3, attachment points of the protective elements 3 to the object 1 - a layer of material 5 in the example of the execution of foam plates uniformly laid out on the object (figure 2).

The protection device of the movable object 1 may consist of a network 2 made of protective elements - flat tapes 6, attachment points of the protective elements 3 to the object 1 - racks 4 (figure 3).

The protection device of the movable object 1 may consist of a network 2 made of protective elements - flat tapes 6, attachment points of the protective elements 3 to the object 1 - a layer of material 5 in the example of the execution of foam plates uniformly distributed on the object (figure 4).

The protection device of the movable object 1 may consist of a network 2 made of protective elements - fabric 7, attachment points of the protective elements 3 to the object 1 - racks 4 (figure 3).

The protection device of the movable object 1 may consist of a network 2 made of protective elements - fabric 7, attachment points of the protective elements 3 to the object 1 - a layer of material 5 in the example of the execution of foam plates uniformly laid out on the object (Fig.6).

The striking element 8 shown in Fig.1-6 is not included in the protection device of a moving object.

The protection device of the movable object 1 performs its protective function as follows. Protective elements of the network 2 (cables 3, tapes 6, fabric 7) with

the braking of the striking element loads the warhead and the tail of the striking element 8 with such efforts that distort the geometry of the shell of the striking element 8 in the path of less than one meter with a longitudinal acceleration insufficient for the detonator to detonate the striking element 8. The kinetic energy of the striking element 8 is transmitted to the protective elements network 2 in the form of potential tensile energy of network 2 of high strength material. The network 2 is held at a predetermined distance from the protected object 1 on flexible racks 4, which, when bent, transmit the tensile force of the elements of the network 2 from the point of impact to neighboring elements of the network 2. In the example of execution, the elements of the network 2 - cables 3 are made of high-strength and high-modulus material, for example, poly-n-aramid, which allows them to work without destruction with the damaging elements 8 flying at speeds of up to 400 m / s. The sharp edges of the plumage of the striking elements 8 can partially damage the cables 3 due to the creation of large bending stresses, so the use of flat ribbons 6 and fabrics 7 can significantly reduce these stresses. If the striking element 8 gets into the rack 4, which preserves the location of the network 2 at a predetermined distance from the protected object 1, it can lead to the undermining of the cumulative warhead of the striking element 8. This unlikely phenomenon can be eliminated by using a solid base - a layer of material 5 to be placed on it network 2. In the embodiment, the material layer 5 is made of foam with a density of not more than 200 kg / cubic meter. Such material has little resistance to penetration, but at the same time it crushes the conical shell of the striking element 8, in which the cumulative shell is enclosed, which does not lead to the detonation of the warhead detonation sensor. The use of fabric 7 (fine wire mesh 2) of orthogonal threads impregnated with an elastomer and located on a solid base of foam 5, makes it possible to make the protection resistance completely uniform, to ensure good appearance and aerodynamics of the object. The deflection of fabric 7 on a continuous layer of material 5 when the sock of the striking element 8 is touched occurs with an increasing reaction until the breakthrough, after which the resistance of the layer of material (foam) 5 continues, crushing the conical shell of the striking element 8 and, finally, the plumage touches the network protection surface 2, completing the braking of the striking element 8 with a cumulative warhead full stop. If, however, undermining of the striking element 8 occurs, then it is not hazardous for object 1, since the formation of a cumulative jet, which is the main damaging and destructive source of object 1, does not occur due to a crumpled shell.

Consider a specific example. When fired from a hand-held anti-tank grenade launcher at close range, when the flight speed of a grenade weighing up to 2 kg is maximum and reaches 300 m / s when a grenade sock enters the cable 3. Cable 3 starts to bend, stretch and, due to the bend of rack 4, transfers the tension force to adjacent elements network. The energy of the grenade is transmitted to the cable 3 and racks 4, causing their deformation. The kinetic energy of a grenade does not exceed 90 KJ, which can be perceived without breaking when one cable 3 is stretched from a high-strength material such as poly-n-aramid (Kevlar, CBM, Twaron, etc.) 9 m long with a cross-sectional area of 1 sq. cm and elastic modulus E = 100 GPa. Here the typical ultimate strength is laid - 2 GPa. The use of a high-modulus material such as poly-n-aramid, unlike steel or polyamides, makes it possible not to consider the dynamic component of the stress state in cable 3, since the speed of sound in it reaches 9 km / s, and only the quasistatic loading can be taken into account in this way.

Cable 3 with a half-length of 9 m is obtained when located at a distance of 1 m around the protected object 1 with a diameter of about 4 m. When using cables 3 of greater length, the safety margin increases. If the object 1 has a smaller diameter, then the cross section of the cable 3 must be increased.

Getting into one cable 3 is an unlikely phenomenon, therefore two and four cables 3 will work more often (if they get into the cell). That is, the reliability of the device will increase. The movement of the cable 3 at the point of impact is determined by the flexibility of the struts 4 and the friction in the contact of the “cable-strut” - the stiffer the struts 4, the less will be the movement and, in the limit, it will be limited only by the deflection of the cable 3. In this case, with low friction for the object with a diameter of 4 m, the distance between racks 4 should be no more than 1.2 m.

The inventive device for protecting a movable object in comparison with the prototype is more reliable, while ensuring a given level of protection, due to the implementation of the device for protecting a movable object from high-strength material in the form of a network located using the attachment points of the protective elements to the object at a distance of one meter from the protected object providing braking of the striking element and damage (collapse, distortion of geometry) of the shell of the combat cumulative part of the striking element with the impossibility of forming emulative jet, which is the main damaging and destructive source of the object.

Claims (6)

1. The protection device of a movable object, consisting of protective elements in the form of a network made of high-strength material, located on the protected object along its contour and fixedly mounted on the object, the attachment points of the protective elements to the object, characterized in that the material from which the network is made high-modulus, and the attachment points of the protective elements to the object are installed uniformly over the area of the object and are configured to place the protective elements at a distance of up to one meter from the object. 2. The protection device of a movable object according to claim 1, characterized in that the protective elements of the network are made of cables. 3. The protection device of a movable object according to claim 1, characterized in that the protective elements of the network are made of flat tapes. 4. The protection device of a movable object according to claim 1, characterized in that the protective elements of the network are made of fabric with orthogonal filament weave impregnated with an elastomer. 5. The protection device of a movable object according to claim 1, characterized in that the attachment points of the protective elements to the object are made in the form of flexible racks. 6. The protection device of a movable object according to claim 1, characterized in that the attachment points of the protective elements to the object are made in the form of a layer of material with a density of not more than 200 kg / m ³ .