CN106123694B - A kind of armor facing device of anti-high-velocity armor-piercing shell penetration - Google Patents

Abstract

The invention provides a kind of armor facing device of anti-high-velocity armor-piercing shell penetration.Layer, the high ductile layer of high density, explosive layer, sympathetic detonation array layer and explosion protection layer are expanded in the deformation that its structure includes stacking gradually from outside to inside；The scope that layer is used to widen penetration in high-velocity armor-piercing shell penetration is expanded in the deformation; the high ductile layer of high density is used to form a conical hopper at penetration location in high-velocity armor-piercing shell penetration; the sympathetic detonation array layer is used for the explosive at penetration location in detonating charge layer in high-velocity armor-piercing shell penetration; explosive in explosive layer, which is initiated the energy formed afterwards, to react on armor-piercing bullet by the high ductile layer of the high density; so as to destroy the penetration effect of armor-piercing bullet; armoring protective capacities is improved, armor-piercing bullet is reduced or avoid to by the damage of protection target.The ability of armoring resistance high-velocity armor-piercing shell penetration can be effectively improved using the present invention, so as to improve the protective benefitses of plate armour.

Description

A kind of armor facing device of anti-high-velocity armor-piercing shell penetration

Technical field

The invention belongs to technical field of armor protection, the armor facing of specifically a kind of anti-high-velocity armor-piercing shell penetration is filled Put.

Background technology

Armor facing technology is most important part among weapon system-of-systems survival ability.Any one is modern military Device equipment all be unable to do without protection.With developing rapidly for antiarmor weapon technology, the battlefield survival of weaponry is to plate armour The performance of safeguard structure proposes higher requirement, and excellent armor protection system enables to tank and armored vehicle, armoured van And the main body of other structures and personnel therein and property safety are preferably protected.

Currently for the penetration of high-velocity armor-piercing shell, mainly take selection high-performance protective material, increase protective materials thickness, Change the methods such as armoring angle of inclination.But influenceed, protected by requirements such as armored platform mobility, inner space, external dimensions The thickness of material and armoring setting size are restricted, and the raising of protective materials performance development is extremely slow, and this is allowed for Armored platform is difficult to effective existence under the conditions of high-velocity armor-piercing shell penetration on battlefield.

The content of the invention

It is an object of the invention to provide a kind of armor facing device of anti-high-velocity armor-piercing shell penetration, the armor facing device The high speed penetration of armor-piercing bullet can effectively be resisted.

The object of the present invention is achieved like this：A kind of armor facing device of anti-high-velocity armor-piercing shell penetration, including by outer Layer, the high ductile layer of high density, explosive layer, sympathetic detonation array layer and explosion protection layer are expanded to the interior deformation stacked gradually；Institute State deformation and expand the scope that layer is used to widen penetration in high-velocity armor-piercing shell penetration, the high ductile layer of high density is used at a high speed A conical hopper is formed during penetrators penetrating at penetration location, the sympathetic detonation array layer is used to invade in high-velocity armor-piercing shell Explosive in explosive when thorough in detonating charge layer at penetration location, explosive layer is initiated the energy formed afterwards can be by institute State the high ductile layer of high density and react on armor-piercing bullet, so as to destroy the penetration effect of armor-piercing bullet, improve armoring protective capacities, drop It is low or avoid armor-piercing bullet to by the damage of protection target；After the explosion protection layer is initiated for the explosive mitigated in explosive layer To behind plate armour by the damaging action of protection target.

The sympathetic detonation array layer includes the capacitive sensing layer stacked gradually from outside to inside and detonation device layer；The electricity Hold the penetration location that inductive layer is used to determine armor-piercing bullet；The detonation device layer includes controller and array detonation device, institute The signal that controller is used to receive the capacitive sensing layer output is stated, so as to obtain the positional information of penetrators penetrating, and is controlled Explosive of the array detonation device in detonating charge layer at penetrators penetrating position.

The capacitive sensing layer is made up of some tinsels arranged in length and breadth；Tinsel in per a line is at interval of one It is individual to interconnect, be referred to as transverse metal paillon foil per the tinsel linked together in a line, will per a line in laterally An end points after tinsel connection is as public point, and another end points is used as the test end points for corresponding to row；In each row Tinsel interconnects at interval of one, and the tinsel linked together in each row is referred to as longitudinal metal paper tinsel Piece, using an end points after longitudinal metal paillon foil connection in each row as public point, another end points as respective column survey Try end points；The open end points of the public point of all rows and all row links together, and in public point and the high density One voltage-stabilized power supply is set between high ductile layer, transverse metal paillon foil and the institute of every row interconnection can be made by the voltage-stabilized power supply State that the capacitor that the high ductile layer of high density formed is fully charged, the longitudinal direction gold that each column is connected with each other can be made by the voltage-stabilized power supply Category paillon foil and the capacitor that the high ductile layer of the high density is formed are fully charged；The test of the test end points and all row of all rows End points connects with the controller.

The array detonation device includes some detonation devices arranged in length and breadth；Each detonation device has upper bottom left Right four nodes and a heating igniter wire, the left sibling of each detonation device are connected with upper node, the right side of each detonation device Node is connected with lower node, and left sibling and upper node are connected by the heating igniter wire with right node and lower node；Often One detonation device is connected by wire detonation device adjacent thereto；An end after detonation device connection per a line Point connects with the controller, another end points ground wire；An end points and the control after the detonation device connection of each row Device connects, another end points ground wire；The controller obtains armor-piercing bullet in the signal for receiving the capacitive sensing layer output and invaded During thorough positional information, row and column apply one respectively where the detonation device corresponding by giving penetrators penetrating position Voltage signal, makes the detonation device corresponding with penetrators penetrating position detonate first, and then is risen at penetrators penetrating position Explosive in bursting charge layer.

It is to be formed by fabric by immersing after shear thickening fluid that layer is expanded in the deformation.

The high ductile layer of high density is made up of copper plate.

Using the armor facing device in the present invention to being protected by protection target, if meeting high-velocity armor-piercing shell penetration, become Shape expands the penetration that layer is first subjected to armor-piercing bullet, and the penetration effect of armor-piercing bullet can be extended to larger radius by it, highly dense Spend high ductile layer（Such as copper plate）Layer is expanded by deformation to be acted on, it may occur that depressed deformation, and then form a taper leakage Bucket；Sympathetic detonation array layer can perceive it the distance between with the high ductile layer of high density, when the high ductile layer somewhere of high density by Impact is when forming conical hopper, and the bottom of conical hopper can be closer to sympathetic detonation array layer, when reaching detonation threshold close to distance During value, detonation device corresponding with conical hopper bottom will have an effect on sympathetic detonation array layer, and then detonating charge layer In explosive；The detonation of explosive can produce squeezing action to the conical hopper in high density height extension, form the convergence of energy, high The metal jet meeting acting in opposition of speed destroys the penetration effect of armor-piercing bullet in armor-piercing bullet, reduces it to by protection target Damage；Explosion protection layer can mitigate the detonation of explosive to plate armour behind（Or it is armoring internal）By the damage of protection target.

The present invention need not be used " to be chosen high-performance protective material, increase protective materials thickness, changes armoring in the prior art The methods such as angle of inclination ", but use deformation to expand layer, the high ductile layer of high density, explosive layer, sympathetic detonation array layer and blast Overcoat collective effect, so that it may effectively protect behind plate armour by protection target to resist the penetration of high-velocity armor-piercing shell, so as to carry It is high by the survival ability of protection target.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of sympathetic detonation array layer in the present invention.

Fig. 3 is the structural representation of capacitive sensing layer in the present invention.

Fig. 4 is the structural representation of relation between capacitive sensing layer and the high ductile layer of high density in the present invention.

Fig. 5 is the structural representation of detonation device layer in the present invention.

Fig. 6 is single detonation device and its simplification structural representation being expert at column in the present invention.

Fig. 7 is that deformation expands layer and the high ductile layer of high density is occurred the taper that is recessed and then formed by penetration deformation in the present invention The structural representation of funnel.

Fig. 8 is sympathetic detonation array layer sensing penetrators penetrating position and the detonating charge layer at penetration location in the present invention The structural representation of middle explosive.

Fig. 9 is that explosive is initiated the structural representation of the detonation wave formed afterwards in explosive layer in the present invention.

Figure 10 is the detonation of explosive in the present invention to the energy centralization produced by the conical hopper on the high ductile layer of high density The structural representation of effect.

Figure 11 is the metal jet acting in opposition of high speed of the present invention in the structural representation of armor-piercing bullet.

Embodiment

As shown in figure 1, the armor facing device of anti-high-velocity armor-piercing shell penetration provided by the present invention is included from outside to inside（Or Claim from front to back）Layer 1, the high ductile layer 2 of high density, explosive layer 3, sympathetic detonation array layer are expanded in the deformation stacked gradually together 4 and explosion protection layer 5；Armor-piercing bullet（Its direction of motion is as shown by arrows in FIG.）During penetration, what is contacted at first is that layer is expanded in deformation 1。

It is by immersing shear thickening fluid by fabric that layer 1 is expanded in deformation（Shear Thickening Fluid, STF）Formed afterwards.Fabric can be Kevlar, PBO or UHMWPE fabric.STF refers to colloid of the fluid in concentration Suspension, its viscosity increases with the increase of shear stress, and STF is made up of dispersed phase particles and decentralized medium.Wherein divide Dephasing particle can be naturally occurring mineral matter or the polymer of chemical synthesis, such as silica and other oxidations Thing, calcium carbonate, polystyrene, polymethyl methacrylate etc..Decentralized medium can be water, salting liquid（Sodium chloride solution is slow Fliud flushing etc.）, organic matter（Allylcarbinol, polyethylene glycol or ethanol）, mineral oil etc. or added with surfactant and low The compound ligand of several mutual solvents of polymers.

STF in the present embodiment is by SiO₂What particle and polyethylene glycol 200 were prepared as dispersed phase and decentralized medium.Become It is to use individual layer Kevlar plains cloth that shape, which expands layer, is dipped in above-mentioned STF and soaks 15 minutes, knits multi-disc individual layer after taking-up Thing is stacked gradually together, and carries out drying process, is finally encapsulated with polyethylene film.When by high-velocity armor-piercing shell penetration When, the high speed shear effect of armor-piercing bullet can make to slide between Kevlar fibers, and phase can also occur between Kevlar fibrous layers To motion, these can make STF be in high speed shear state, and then solidify, and making the penetration effect of armor-piercing bullet can be extended to Larger radius.

The high ductile layer 2 of high density can be made of copper plate；When the indirect stroke by armor-piercing bullet, layer is expanded by deformation 1 influence, can be formed with penetrators penetrating position corresponding position on the high ductile layer 2 of high density one it is more much bigger than armor-piercing bullet diameter Conical hopper.

Be filled with explosive in explosive layer 3, explosive can for high explosives such as TNT, hexogen, HMXs or Their mixture.

As shown in Fig. 2 sympathetic detonation array layer 4 is laminated by double-layer structure, from outside to inside（In figure from right to left）Point It is not capacitive sensing layer 4-1 and detonation device layer 4-2.

The basic structure of capacitive sensing layer is as shown in figure 3, it is by largely arranging and being connected to one in length and breadth according to certain rules The tinsel risen（Such as aluminium foil）Composition.Tinsel per a line interconnects at interval of a paillon foil, together The tinsel for managing each row interconnects at interval of a paillon foil, and so all tinsels are just divided into two Point, it is transverse metal paillon foil respectively（The tinsel linked together in i.e. per a line）With longitudinal metal paillon foil（I.e. each row In the tinsel that links together）.After transverse metal paillon foil per a line is connected with each other, by an end points of each row（In figure Right side end points）Also link together, constitute a public point, often another end points of row numbers the survey as corresponding line respectively Try a in end points, Fig. 3₀₁、a₀₂、……、a₁₅It is exactly the test end points of each row（Illustrated in the present embodiment with 15 behaviors example）.Together Reason, after the longitudinal metal paillon foil of each row is connected with each other, by an end points of each row（Upside end points in figure）Also link together, A public point is constituted, another end points of each column numbers b in the test end points as respective column, Fig. 3 respectively₀₁、 b₀₂、……、b₁₄It is exactly the test end points respectively arranged（Illustrated in the present embodiment in the case of 14 row）.

In order to realize the judgement to penetrators penetrating position, in common port and the high density Gao Yan of every row transverse metal paillon foil Open up layer（The high ductile layer of the present embodiment middle-high density is copper plate）Between load a voltage-stabilized power supply, voltage-stabilized power supply positive pole connection The every common port of row transverse metal paillon foil, negative pole connection copper plate, as shown in Figure 4.In original state, voltage-stabilized power supply is given simultaneously Often capable transverse metal paillon foil charges with the capacitor that copper plate is constituted, until full of untill, now each row transverse metal paillon foil Test end points voltage it is equal.When armor-piercing bullet high speed penetration, copper plate can quick local dent, make corresponding with recess The electric capacity of capacitor that is constituted with copper plate of transverse metal paillon foil increase rapidly, because power source charges need the regular hour （The reason in view of pressure drop, can by set make voltage-stabilized power supply at interval of a period of time to the transverse metal paillon foil of every row with The capacitor charging that copper plate is constituted）, then according to capacitor general principle（If the distance between two pole plates reduces, electric capacity Device electric capacity can increase, and when the timing of electricity one that electric capacity is stored, both end voltage can decline）, corresponding test end points a_xxVoltage It can decline.By measure test end-point voltage decline whether, it is possible to it is determined which corresponding position of row metal paillon foil there occurs Copper plate is recessed, so as to be finally obtained the longitudinal coordinate of penetrators penetrating position.If two or three test end points simultaneously Voltage is all declined, then voltage declines the corresponding position hair of that row metal paillon foil that maximum test end points is connected Copper plate depression is given birth to.

Similarly, a voltage-stabilized power supply is loaded between the common port and the high ductile layer of high density of each column longitudinal metal paillon foil, The common port of each column longitudinal metal paillon foil and often the common port of row transverse metal paillon foil connects same voltage-stabilized power supply in the present embodiment Positive pole.As described above, by determining each row longitudinal metal paillon foil correspondence test end points b_xxVoltage whether decline（If any two Or the voltage of three test end points is all declined, then find out voltage and decline that maximum test end points）, so that it may worn The lateral coordinates of first bullet penetration location.

After the lateral coordinates and longitudinal coordinate of penetrators penetrating position are obtained, the penetration location of armor-piercing bullet is also determined that .I.e.：The penetration location of armor-piercing bullet is can determine that by capacitive sensing layer.

On the basis of penetrators penetrating position is determined, achieved that by detonation device layer in ad-hoc location point initiation Explosive in explosive layer 3.The basic structure of detonation device layer is as shown in Figure 5.The device layer that detonates includes controller and array rises Quick-fried device, controller is homogeneously connect with the test end points of all rows and the test end points of all row in capacitive sensing layer, and controller is used To receive the signal of capacitive sensing layer output, so as to obtain the positional information of penetrators penetrating, and specific detonation device is controlled Have an effect, and then realize in ad-hoc location detonating charge.Array detonation device includes some detonation devices arranged in length and breadth. Each detonation device（Circle in the right rectangular frame of corresponding diagram 5）It is connected by wire detonation device adjacent thereto. An end points after detonation device connection per a line（Left side end points, i.e. c in figure₀₁、c₀₂、……、c₀₉）Connect with controller, Another end points（Right side end points, i.e. e in figure₀₁、e₀₂、……、e₀₉）Ground wire；An end after the detonation device connection of each row Point（Top end points, i.e. f in figure₀₁、f₀₂、……、f₀₉）Connect with controller, another end points（Lower section end points, i.e. d in figure₀₁、 d₀₂、……、d₀₉）Ground wire.

Each detonation device has four nodes up and down and a heating igniter wire, and the circuit of single detonation device can It is reduced to as shown in Figure 6.Each detonation device, in detonation device connection adjacent thereto, is by two neighboring using wire The corresponding node of quick-fried device is connected.For single detonation device, left sibling thereon is connected with upper node, thereon Right node be connected with lower node, and left sibling and upper node are connected by middle heating igniter wire with right node and lower node Connect.For the single detonation device shown in Fig. 6, the equivalent resistance that node passes through top thereon（It is in the detonation device Same row and igniter wire of being generated heat in other detonation devices above the detonation device resistance sum）Connect the upper of column Square end point f_xx, the equivalent resistance that its lower node passes through lower section（Be in the detonation device same row and positioned at the initiator The resistance sum for igniter wire of being generated heat in other detonation devices below part）Connect the lower section end points d of column_xx, its left sibling passes through The equivalent resistance in left side（It is in the detonation device in other with a line and on the left of the detonation device detonation devices The resistance sum for igniter wire of generating heat）The be expert at left side end points c of connection_xx, the equivalent resistance that its right node passes through right side（Risen with this Quick-fried device is in the resistance sum for igniter wire of being generated heat in other with a line and on the right side of the detonation device detonation devices）Connection The right side end points e being expert at_xx.Top end points f_xxWith left side end points c_xxConnect with controller, lower section end points d_xxWith right side end points e_xxEqual ground wire GND.

It should be noted that the detonation device in the device layer that detonated in the present invention exists with the tinsel in capacitive sensing layer Making correspondence at initial stage is good, i.e.,：Invaded after the determination of penetrators penetrating position, that is, in capacitive sensing layer with armor-piercing bullet After some corresponding tinsel of thorough position is determined, the detonation device in detonation device layer corresponding with the tinsel is also just true Fixed, the corresponding relation in capacitive sensing layer in tinsel and detonation device layer between detonation device can in advance in the controller Set.Controller passes through when the signal for receiving the capacitive sensing layer output obtains the positional information of penetrators penetrating Row and column apply a voltage signal respectively where giving the corresponding detonation device in penetrators penetrating position, make and armor-piercing bullet The corresponding detonation device of penetration location detonates first, and then the explosive in detonating charge layer at penetrators penetrating position.

For example, when the detonation device for needing to arrange the i-th row, jth is had an effect, left side end points of the controller in the i-th row c_iUpper loading+V voltages, the top end points f arranged in jth_jUpper loading+V voltages, due to the right side end points e of the i-th row_iArranged with jth Lower section end points d_jGround connection, therefore, the electric current passed through in the heating igniter wire of the detonation device arranged in the i-th row, jth pass through for the i-th row The electric current and jth of remaining detonation device arrange the electric current sum by remaining detonation device, and the heating igniter wire for the device that respectively detonates is equal It is identical, therefore the heating igniter wire caloric value of the i-th row, jth row detonation device is maximum, detonation can occur first and make for this detonation device With, and then in this position detonating charge, finally realize the controllable detonation of ad-hoc location.

Explosion protection layer 5 can be made of materials such as steel plate, foamed aluminiums, and it is used for mitigating detonation to by the objective of defense Damage.

Using the process of anti-high-velocity armor-piercing shell penetration of the invention as shown in Fig. 7 ~ Figure 11.When armor-piercing bullet high speed penetration, become Shape expands the penetration that layer is first subjected to armor-piercing bullet, and the high speed shear effect of armor-piercing bullet can be such that deformation is sent out between expanding the fiber in layer Can also occur relative motion between raw sliding, fibrous layer, these make STF be in high speed shear state, and then solidify, and make The penetration effect of armor-piercing bullet can be extended to larger radius.High density high ductibility layer（Such as copper plate）Expanded by deformation The effect of layer, it may occur that depressed deformation, and then form a conical hopper.Capacitive sensing layer in sympathetic detonation array layer can be felt Conductor in face of knowing（It is copper plate herein）Distance, when copper plate somewhere is formed conical hopper by impact, conical hopper Bottom can be closer to some tinsel in capacitive sensing layer, when reaching detonation threshold value close to distance, by controller control Corresponding detonation device is had an effect（Due to the size close to distance directly reflection test end-point voltage decline, and controller is just It is the change according to the test end-point voltage received to decide whether detonation, it can be said that being close to distance directly decision No detonation, i.e.,：When reaching detonation threshold value close to distance, had an effect by the corresponding detonation device of controller control）, Jin Erqi Explosive in bursting charge layer.The detonation of explosive can produce squeezing action to the conical hopper on copper plate, form the convergence of energy, The metal jet meeting acting in opposition of high speed destroys the penetration effect of armor-piercing bullet in armor-piercing bullet, reduces it to by protection target Damage.

Claims (6)

1. a kind of armor facing device of anti-high-velocity armor-piercing shell penetration, it is characterized in that, including the deformation stacked gradually from outside to inside Expand layer, the high ductile layer of high density, explosive layer, sympathetic detonation array layer and explosion protection layer；Layer is expanded in the deformation to be used for The scope of penetration is widened during high-velocity armor-piercing shell penetration, the high ductile layer of high density is used in high-velocity armor-piercing shell penetration in penetration A conical hopper is formed at position, the sympathetic detonation array layer is used to rise at penetration location in high-velocity armor-piercing shell penetration Explosive in explosive in bursting charge layer, explosive layer is initiated the energy formed afterwards can be anti-by the high ductile layer of the high density Armor-piercing bullet is acted on, so as to destroy the penetration effect of armor-piercing bullet, armoring protective capacities is improved, reduces or avoid armor-piercing bullet to quilt Protect the damage of target；The explosive that explosion protection layer is used to mitigating in explosive layer be initiated after to behind plate armour by protection mesh Target damaging action.

2. the armor facing device of anti-high-velocity armor-piercing shell penetration according to claim 1, it is characterized in that, the sympathetic detonation Array layer includes the capacitive sensing layer stacked gradually from outside to inside and detonation device layer；The capacitive sensing layer is used to determine armour-piercing The penetration location of bullet；The detonation device layer includes controller and array detonation device, and the controller is used to receive described The signal of capacitive sensing layer output, so as to obtain the positional information of penetrators penetrating, and controls the array detonation device to exist Explosive at penetrators penetrating position in detonating charge layer.

3. the armor facing device of anti-high-velocity armor-piercing shell penetration according to claim 2, it is characterized in that, the capacitive sensing Layer is made up of some tinsels arranged in length and breadth；Tinsel in per a line interconnects at interval of one, often The tinsel linked together in a line is referred to as transverse metal paillon foil, by one after transverse metal paillon foil connection in every a line End points is used as the test end points for corresponding to row as public point, another end points；Tinsel in each row is at interval of a phase Interconnection is connected together, and the tinsel linked together in each row is referred to as longitudinal metal paillon foil, by longitudinal metal in each row An end points after paillon foil connection as public point, another end points as respective column test end points；The common port of all rows The public point of point and all row links together, and sets a voltage stabilizing between public point and the high ductile layer of the high density Power supply, the transverse metal paillon foil that can be connected with each other every row by the voltage-stabilized power supply is formed with the high ductile layer of the high density Capacitor it is fully charged, longitudinal metal paillon foil and the high density Gao Yan that each column is connected with each other can be made by the voltage-stabilized power supply The capacitor that exhibition layer is formed is fully charged；The test end points of test end points and all row of all rows with the controller phase Connect.

4. the armor facing device of anti-high-velocity armor-piercing shell penetration according to claim 2, it is characterized in that, the array rises Quick-fried device includes some detonation devices arranged in length and breadth；Each detonation device has four nodes up and down and a heating Igniter wire, the left sibling of each detonation device is connected with upper node, and the right node of each detonation device is connected with lower node, and Left sibling and upper node are connected by the heating igniter wire with right node and lower node；Each detonation device passes through wire Detonation device adjacent thereto is connected；An end points after the connection of detonation device per a line connects with the controller, separately End point ground wire；An end points after the detonation device connection of each row connects with the controller, another end points ground wire； The controller is when the signal for receiving the capacitive sensing layer output obtains the positional information of penetrators penetrating, by giving Row and column apply a voltage signal respectively where the corresponding detonation device in penetrators penetrating position, make and penetrators penetrating The corresponding detonation device in position detonates first, and then the explosive in detonating charge layer at penetrators penetrating position.

5. the armor facing device of anti-high-velocity armor-piercing shell penetration according to claim 1, it is characterized in that, the deformation is expanded Layer is to be formed by fabric by immersing after shear thickening fluid.

6. the armor facing device of anti-high-velocity armor-piercing shell penetration according to claim 1, it is characterized in that, the high density is high Ductile layer is made up of copper plate.