FR2947046A1 - Military head for use in e.g. missile in gunnery, has marking charge i.e. pyrotechnic charge, for generating infrared radiation and arranged in projectile that is housed in hole pierced by formed charge - Google Patents

Abstract

The head (1) has a formed charge (3) i.e. hollow charge, including an explosive charging (4) and a coating (6). A marking charge (10) i.e. pyrotechnic charge, generates infrared radiation, and is arranged in a projectile (9) that is housed in a hole pierced by the formed charge. The projectile is separated from the formed charge by a pyrotechnic charge before initiation of the formed charge. An axial tube (8) traverses the formed charge. The projectile contains the marking charge, and is partially housed in an excavation tube. Formed charge parts are located one behind another. An independent claim is also included for an arm system comprising a military head.

Description

The technical field of the invention is that of military heads comprising perforation means and marking means as well as that of weapons systems using such military heads.

US4448106 discloses a device for identifying hard targets by dispersing above them marking sub-projectiles. These sub-projectiles partially sink into the hard target and emit radiation that allows their subsequent location by another weapon system. Such a device has disadvantages. First, penetration into the target is obtained only by the kinetic energy of the submunition. This results in a reduced depression of it in the target.

In addition, the submunitions are dispersed in large numbers above the target. This results in a multiplication of the points of impact and thus markings of the target. The weapon system used later will have to choose one point of impact among the many possible points of impact, which results in a complication of the detection means to be implemented and a loss of efficiency. It is the object of the invention to overcome such disadvantages. Thus, the military head according to the invention ensures a marking in a reliable and deep manner in a target. The subject of the invention is therefore a military head comprising perforation means and marking means, characterized in that it comprises at least one formed charge, consisting of an explosive charge and at least one coating, a marking charge being disposed in a projectile which is intended to be housed in the hole drilled by the shaped charge. According to a particular embodiment, the projectile 35 is removed from the charge formed before the initiation thereof by means of a first pyrotechnic charge. According to a particular embodiment, the military head comprises an axial tube passing through substantially all the formed charge, which tube is housed at least partially the projectile containing the marking charge. Advantageously, the marking charge may be a pyrotechnic heat generating infrared radiation.

According to a second embodiment, the warhead comprises at least two shaped charges located one behind the other. According to a third embodiment, the warhead comprises two shaped charges which are likely before their initiation to deviate from one another by the action of a second pyrotechnic charge. In another embodiment, the warhead also includes an explosive blasting charge which is ejected from the warhead, by means of a third pyrotechnic charge, before initiation of the formed charge and in front thereof. It is also an object of the invention to provide a military head to ensure a significant perforation of the target while being of reduced dimensions.

The weapon system which uses the military head according to the invention makes it possible to obtain better perforation performances than those of the known systems. The invention thus relates to a weapon system implementing such a military head, characterized in that the military head is secured to a first sub-munition and in that it comprises at least a second sub-unit. ammunition provided with a radiation sensor emitted by the marking load and control means enabling it to move towards the hole pierced by the first submunition.

The second sub-munition will advantageously comprise at least one explosive charge. It may also include a reinforced envelope and propulsion means. The first and second submunitions may be released by a vector as they approach a target. The invention will be better understood on reading the following description of particular embodiments, a description given with reference to the appended drawings and in which: FIG. 1 is a longitudinal section of a military head according to a first embodiment of FIG. FIG. 2 shows a military head according to a second embodiment of the invention, FIG. 3 represents a military head according to a third embodiment of the invention, FIGS. 4a, 4b, 4c. represent various phases of the operation of the military head according to the third embodiment of the invention; FIG. 5 schematizes the implementation of a weapon system according to the invention; FIG. 6 represents in longitudinal section an embodiment of a second projectile used in this weapon system and intended to follow the military head according to the invention. Referring to Figure 1, a military head 1 according to a first embodiment of the invention comprises a casing 2 within which is disposed a shaped charge 3 (here a hollow charge). The military head 1 is shown here alone. It is intended to be placed in a projectile or ammunition, not shown, such as a missile, a rocket or a bomb. The charge formed comprises, in a known manner, an explosive charge 4, which is disposed in an envelope 5, and on which a coating 6 is applied. The explosive charge is initiated by a priming device 7, which is not shown here in detail, and which will also include a safety and arming device. This military head comprises, behind the formed charge 3, a first axial tube 8 in which is placed a projectile 9 enclosing a marking charge 10. The marking charge 10 is initiated by a priming device 11 (incorporating a security and arming device). This charge will for example be a pyrotechnic charge emitting in the infra red domain.

The projectile 9 is intended to be housed in the hole that will be pierced in the target by the formed charge 3. A control electronics 12 is connected to detection means integral with a rocket (not shown) of the carrier munition. It controls the initiation of the formed charge 3 on approaching a target. A protective screen 13 protects the marking projectile 9 during the initiation of the formed charge 3. The projectile 9 continues its trajectory after initiation of the shaped charge 3 and it is housed in the pierced hole parcel ci in the target. The ogee profile of the projectile facilitates its penetration into the hole drilled in the target. The priming device 11 will be chosen so as to initiate the marking charge following the impact of the projectile 9 on the target and with a delay allowing it to be housed in the hole before being initiated. The marking load is intended to enable tracking by a tracking projectile of the hole drilled in the target by the shaped charge 3. By way of example, the invention makes it possible, with a shaped charge of 300 mm diameter, to place a marker 60 mm in diameter. at the bottom of a 100mm diameter hole. This marker may be at a depth of about 2 meters. This results in a better reliability of the positioning of the marker which can not be easily removed from the target by enemy troops. In addition, positioning the marker in depth in the target improves the directivity of the radiation it emits.

It is ensured that the tracking projectile will occur, not only at the same point of impact on the target, but with an angular orientation that will be substantially the same as that of the first hole made. This results in superior perforation performance because the load of the follower projectile will extend the first hole made instead of drilling another hole nearby. According to another embodiment, the protective screen 13 may be replaced by a first pyrotechnic charge, the initiation of which will be caused by the fuse of the ammunition a few milliseconds before the initiation of the formed charge 3. This embodiment makes it possible to move the marking projectile away from the formed charge. This increases its protection. It will be possible to play on the velocity communicated by this pyrotechnic ejection charge to modulate the distance of the projectile as a function of the power of the charge formed before. The projectile 9 can be possibly totally ejected out of the military head by the first pyrotechnic charge. Figure 2 shows a military head according to a second embodiment. This head differs from the previous one in that the first guide tube 8 of the marking projectile 9 extends axially through the formed charge 3. This results in a reduced bulk for the warhead 1. In this embodiment , the tube $ contains a first pyrotechnic ejection charge 14 which is initiated by the control electronics 12 before the formed charge 3 and which makes it possible to move the projectile 9 away from the formed charge 3. The tube 8 therefore plays the role of launching tube for the projectile 9, it is closed by a plug 8a to ensure the confinement of the gases to launch the projectile. This configuration makes it possible to obtain a sufficient ejection speed (of the order of 100 m / s) with a relatively reduced ejection charge 14 (50 g of propellant powder). This also results in a good control of the ballistics of the projectile 9 whose point of impact on a target is substantially coincidental with the point of impact of the jet of the formed charge 3. FIG. 3 shows a warhead 1 according to a third embodiment. This head comprises two shaped charges, a front load 3a and a rear load 3b. Each charge formed comprises an explosive charge 4a, 4b disposed in an envelope 5a, 5b, and on which a coating 6a, 6b is applied.

Each explosive charge is initiated by a priming device 7a, 7b, which will also include a safety device and arming. The military head here occupies a position (called folded) 5 which is the one it has during the phases of storage and theft of the munition. The front and rear loads are arranged axially in the vicinity of each other. They are separated by an intercharging protection screen 15. This screen is formed of several coaxial rings (here eight rings 15a, 15b ... 15h). The peripheral ring 15h is fitted to the inner surface of the envelope 1 and integral with it (for example by gluing). The intercharge screen 15 substantially matches the profile of the rear bumper cover 6b 3b as well as the rear portion of the front load casing 5a 3a. The front and rear loads are capable of translating relative to the casing 2 to abut respectively at a front flange 16 for the front load 3a and a rear stop 17 for the rear load 3b. The rear stop 17 is thus intended to cooperate with the rear part of the envelope of the rear load 3b while the front load 3a carries a peripheral ring 18 which is intended to abut on the front flange 16. The peripheral ring 18 also ensures the forward translation of the front load relative to the envelope Collerette before 16 and rear stop 17 are integral with the casing 2 of the military head. One of these two stops will be removable (and secured for example of a screwed ring), this to allow the introduction of the charges inside the casing 2. To ensure their immobilization during the During the storage and flight phases of the warhead, the loads are bound to the casing by means of radial shear pins not shown. The translation of the front and rear loads is controlled by a second pyrotechnic separation charge 19 which is arranged between the front loads 3a and 3b rear. The separation charge 19 is initiated by conventional ignition means and not shown and which may include a safety device and arming.

The front load 3a also comprises a second axial tube 20 in which is placed an explosive charge for clearing 21. This charge is in the form of a projectile provided with an envelope 22 containing an explosive 23 which is selected so as to generate a large blast effect (for example a load combining Hexogen (60% by weight) with Tolite (40% by weight)). The explosive 23 is initiated by a priming system 24 (comprising a safety and arming device). This priming system will trigger firing of the impact load on the target. The envelope 22 has an elongate rear portion 22a which is guided by the axial tube 20 and a flared front portion 22b which bears on the coating 6a of the front load 3a. The projectile formed by the clearing charge 21 may be ejected from the warhead by means of a third pyrotechnic charge 25. The ejection of the clearing charge is controlled at a distance from the target by the rocket of the ammunition containing the military head. This ejection is caused before initiation of the formed charges 3a, 3b. The clearing load 21 thus ensures the destruction and / or release of the slight overprotective measures placed in front of the hard target, for example sandbags or soil bags. This improves the perforation efficiency of formed charges whose jet will no longer be consumed by overprotection. Due to the presence of the second tube 20, the clearing load 17 is fully disposed within the formed charge before 3a. This results in a great compactness for the military head. The tube 20 also plays the role of launch tube for the clearing load. This configuration makes it possible (as has been stated for the previous embodiment) to obtain a sufficient ejection speed with a relatively small ejection load. This also results in a good control of the ballistics of the projectile 21 whose point of impact on a target is substantially coincident with the point of impact of the jets of the formed charges. Figures 4a to 4c show the chronology of operation of the military head according to this last embodiment of the invention.

The rocket of the munition carrying the military head is not represented and may be a proximity rocket or a self-director. When it detects the approach of the target, it causes the forward firing of the clearing charge 21 (FIG. 4a) by initiating the third pyrotechnic charge 25. A few milliseconds after {100 to 200 ms), the rocket causes the spacing the charges formed before 3a and rear 3b by initiating the second pyrotechnic charge 19. The configuration of the warhead is then that shown in Figure 4b. The pressure of the gases generated by this second load 19 has caused shearing of the load holding pins formed 3a, 3b with respect to the casing and caused the translation of the front and rear loads until they abut on the flange 16 and the backstop 17 respectively. The military head thus sees its total length increase by about 40%. The protective screen 15 has a telescopic structure and, as a result of the spacing of the charges, passes from a transport position (FIG. 3) to an active position (FIG. 4b) in which its axial size has been reduced. . Such an arrangement makes it possible to improve the efficiency of the screen, since it makes it possible to move the different rings of the screen which are not integral with the envelope 2 away from the rear charge 3b. The screen thus ensures, away from the rear charge, the retention of gases and fragments generated by the front load. The telescopic character of the screen can be obtained by connecting the rings to each other by springs which will be positioned in such a way that they are all compressed when the screen formed by all the rings is in the position transport (fig 3). The various rings of the screen are held in this position by the charges formed before 3a and rear 3b which act as axial stops.

During the separation of the formed charges, the springs relax and bring the screen 15 to its active position shown in Figure 4b. About 100 milliseconds after the separation of the charges formed front and rear, the rocket finally causes the rearward ejection of the military head of the projectile marking 9 by initiating the first pyrotechnic charge 14 (Figure 4c). The time intervals separating the different stages of operation can be modified according to the ballistic and detonate characteristics of the military head considered. After detonation of the clearing load 21 on impact on the target, the charges formed 3a and 3b are initiated one after the other and at least partially pierce the concrete target. The marking projectile 9 penetrates the hole made by the latter and is initiated in turn inside the hole. Figure 5 shows the implementation of a weapon system using a military head as described above. A vector 26 (such as a bomb, a rocket, a drone or a missile) releases in the vicinity of a target 27 a first submunition 37 which is provided with a military head 1 according to the invention as well as a rocket 28 allowing it to recognize the target 27 and control means 29. The military head 1 operates as described above. Possibly a clearing load can clear light overprotection 38 (bags of sand or layer of earth) that cover the target. The formed charge (s) pierce a hole in the concrete of the target, and the marking projectile is seated in the hole thus drilled.

The radiation (eg infrared) generated by the marking projectile will attract to the hole thus produced a second submunition 30 which has been released by the vector 26 a few seconds after the release of the first submunition 37.

This second submunition 30 will include guiding means (for example an infra red auto director) which will allow it to move towards the hole already pierced to bring a new piercing charge at the latter. Figure 6 shows in longitudinal section an embodiment of a second sub-munition. This submunition comprises a homing device 31 and control means 32. It contains an explosive charge 33 which is disposed with its priming means 35 in a reinforced envelope 34.

A thruster 36 surrounds the envelope of the load. It is lit by the rocket near the detected target. It allows to give the load a sufficient kinetic energy to allow it to penetrate the first hole made by the first submunition.

The arrangement of the thruster around the explosive charge makes it possible to reduce the bulk of the second submunition. The initiating means will be chosen so as to cause charging initiation only a certain time after the impact on the target. As a variant, each submunition may be provided with aerodynamic braking means (for example parachutes). These means will be defined so that, after simultaneous ejection of the two submunitions, the second submunition is further braked than the first which allows it to reach the target only after this one. In addition, these braking means will allow sub-munitions to engage targets in a substantially vertical direction which is advantageous for hard targets buried as command posts. The submunitions may also be constituted by projectiles fired one after the other by a firing system such as an artillery or a rocket launcher.

Claims (11)

REVENDICATIONS1. Military head (1) comprising perforation means and marking means, characterized in that it comprises at least one formed charge (3) consisting of an explosive charge (4) and at least one coating (6). ), a marking charge (10) being disposed in a projectile (9) which is intended to be housed in the hole drilled by the shaped charge (3). 2. Military head according to claim 1, characterized in that çe before the introduction of the formed charge (3), the projectile (9) is spaced therefrom by means of a first pyrotechnic charge {14). 3-military head according to claim 2, characterized in that it comprises an axial tube (8) substantially through the entire formed charge (3), the tube in which is housed at least partially the projectile (9) containing the charge of marking (10). 4-military head according to one of claims 1 to 3, characterized in that the marking charge (10) is a pyrotechnic charge generating infrared radiation. 5-military head according to one of claims 1 to 4, characterized in that it comprises at least two formed charges (3a, 3b) located one behind the other. 25 6-military head according to claim 5, characterized in that it comprises two shaped charges (3a, 3b) which are likely before their initiation to deviate from one another by the action of a second load pyrotechnic (19). 30 7-military head one of claims 1 to 6 characterized in that it also comprises an explosive charge clearing (21) which is ejected from the warhead (1), by means of a third pyrotechnic charge (25), before initiation of the formed charge and in front of it. 8-Weapon system implementing a military head according to one of claims 1 to 7, characterized in that the warhead (1) is secured to a first submunition (37) and in that it comprises at at least one second sub-munition (30) provided with a radiation sensor emitted by the marking charge (10) and control means enabling it to move towards the hole pierced by the first sub-munition. 9-weapon system according to claim 8, characterized in that the second submunition (30) comprises at least one explosive charge (33). 10-Weapon system according to one of claims 8 or 9, characterized in that the second submunition (30) comprises a reinforced envelope (34) and propulsion means. 11-Weapon system according to one of claims 8 to 10, characterized in that the first and second submunitions are released by a vector approaching a target.