FR2492966A1 - IMPROVEMENTS IN PROJECTILES WITH CORRECTED PATH - Google Patents

Abstract

The invention relates to a projectile, especially a projectile of an anti-tank weapon. The invention is to be seen in that this projectile is to be stabilised at least partially in respect of wobbling movements, and in that it has devices (3, 11) which are capable of generating a load factor which can be preset during firing in terms of modulus and orientation, in such a way that the trajectory is corrected and therefore the influences of gravity and of angular velocity are compensated in open loop during flight past the target.

Description

 The object of the present invention is to make improvements to projectiles with corrected trajectory in open loop. It applies in particular to projectiles launched against moving targets, such as armored vehicles or aerodynes, with storage, on board the projectile, of the load factor corresponding to the compensation of gravity and that of the angular speed of target scroll in front of the launcher.

 In its French patents n "71 45 671, of December 20, 1971; n" 71 23 868, of June 30, 1971, and n "75 15 371, of May 16, 1975, the plaintiff has already described and claimed such trajectory projectiles corrected in open loop.

 The description of these inventions has highlighted the interest of said correction. This allows, in fact, to increase the range of the projectile without increasing the duration of the pointing and shooting sequence.

 It is known in fact that, in the case of ballistic weapons with conventional fire control, a pre-pointing sequence with telemetry and tachymetry is necessary to develop the correction angles to be displayed in the reticle of the telescopic sight.

 After display, the projectile is fired at the end of a new aiming sequence, when the target may already have disappeared; Its range as well as its speed have already evolved, which strikes, at least partially, of expiration the elements of this display.

 On the contrary, with the projectiles claimed by the plaintiff, and whose trajectory is corrected in open loop during their flight, it is during the same sequence that the launcher's servant acquires the target, pursues it and shoots it, in using a single aiming marker fixed to the axis of the telescope. The value of the load factor corresponding to the angular speed of travel of the target is developed by a control circuit associated with the launcher and stored in the projectile during this sequence, and said sequence is as short as that which precedes the firing under fixed rise of a ballistic weapon, as in the case of an anti-tank fired "with increase of combat".

 By the present invention, the applicant describes and claims variants of a projectile with corrected trajectory using new means, more particularly adapted to the case where all or part of the projectile body is stabilized in roll.

To this end, the projectile according to the invention is characterized in particular by the following provisions - the projectile comprises a means or group of means capable of creating
an adjustable load factor in module and in roll orientation, con
according to the indications stored in this projectile during
of the launch - the means or group of means is integral with the part of the projectile
stabilized in ro ulis - these means can be constituted either by a propulsion system com
carrying multiple transverse or oblique nozzles, either by
rows of impellers, either by an aerodynamic control surface or
by a combination of these means.

 A description is given below, with reference to the appended figures, of a non-limiting example of a projectile according to the invention. It is understood, however, that this is only an example, and that all other forms, proposals, provisions, methods of construction, etc., can also be used without departing from the scope of the invention.

On the drawings
- Figure 1 is a longitudinal sectional view of a projectile according to the invention;
- Figure 2 is a cross-sectional view of the same projectile tile
- Figure 3 shows, in section, an embodiment of a nozzle of a projectile according to the invention;
- Figure 4 illustrates, in longitudinal section, a variant of the projectile shown in Figure i
- Figure 5 illustrates, in longitudinal section, another variant of the projectile according to the invention;
- Figure 6 is a partial plan view showing a variant of the projectile illustrated in Figure 5
- Figure 7 illustrates yet another variant of the projectile according to the invention, also in longitudinal section; and,
- Figure 8 is a section along 8-8 of Figure 7.

 Reference is firstly made to FIGS. 1 and 2, which represent a first, nonlimiting example, of making a projectile according to the invention.

According to this example of the invention, the projectile comprises - a roll stabilization member 1, which may be constituted by a
gyroscope (nonlimiting example ?; - a military head 2, constituted for example by an anti-tank head with
shaped charge - a cruising propellant 3 - an acceleration propellant 4, with its propellant charge 5
and its nozzle 6 - a stabilizing deploying stabilizer in pitch / yaw 7; according to the in
vention, this deploying empennage is preferably arranged at the level
of the nozzle, so as to allow the launching of the projectile according to
the invention in a gauge tube.

 In this nonlimiting exemplary embodiment, the cruise propellant 3 of the projectile comprises a charge of propellant 8 ignited by the acceleration propellant through its axial nozzle 9 either directly or via a pyrotechnic relay 10. According to the invention, the axial and main nozzle 9 of the cruising thruster is defined so as to preferentially maintain the speed of the projectile at a constant level, or slightly increasing.

 According to this example, the cruising thruster 3 comprises a large number N of oblique nozzles, or - and preferably - substantially transverse 11. Among these N nozzles, and as shown in FIG. 2, n nozzles ll 'are designated at the outset to be unclogged during launch, for example by a pyrotechnic device, only (N - n) nozzles 11 "retaining their shutter during of theft.

 Still according to this nonlimiting embodiment, the axes of the transverse nozzles 11 have, if necessary, a certain obliquity with the axis of the projectile, so as to be centered on the center of gravity of the projectile. Without departing from the scope of the invention, the designation of n among the N nozzles is fixed a priori, at the start of the projectile, by a control circuit associated with the launcher, as a function of the angular speed of pursuit, so that the effects of gravity and movements of the target (kinematic load factor tk, - /) are kept, for example, better than 0.10 g, and preferably 0.03 g in height and direction.

 Figure 3 illustrates an embodiment of the means ensuring the closure of the transverse nozzles 11 of the projectile according to the invention. In this nonlimiting example, a shutter 12 is screwed onto a flange 20 formed at the periphery of the nozzle 11. A pyrotechnic composition 13 is placed in the annular space formed between this flange 20 and the shutter 12. The tensioning of an electric igniter 14 makes it possible, according to this example, to initiate the composition 13, by causing the shutter 12 to be ejected by breaking its periphery.

 In the variant of the projectile according to the invention shown in Figure 4, there are, designated by the same references, the same propulsion, stabilization and correction elements as those of the projectile according to the first example of the invention. On the other hand, the hollow charge military head of this variant, designated by the reference 22, is inclined downward (negative setting), so as to reduce the angle of attack of this hollow charge on the glazing armor of vehicles armored, hence a significant improvement in efficiency.

 Without departing from the scope of the invention, it is also possible to replace the correction system by transverse nozzle with an aerodynamic control surface, or a combination of these means. This variant is illustrated in FIGS. 5 and 6.

Thus, according to this exemplary embodiment, the cruise thruster
3 'comprises, in addition to its axial main nozzle 9, a single lateral nozzle 21, directed downward so as to compensate for gravity alone.

 Furthermore, the projectile comprises a wing 15 with symmetrical fins secured to a common vertical axis 23 animated, by the electromagnets 16, with an alternating turning movement between two positions "maximum turning to the right", "maximum turning to left".

 According to this example of the invention, the control circuit is associated with the launcher in order to define a priori at the start of the projectile, and as a function of the angular speed of the target, the ratio right turn time / left turn time, so as to compensate, for example better than 0.10 g, and preferably 0.03 g, the effects of gravity and movement of the target.

 As a variant of the example in FIG. 5, it is obviously possible, and without departing from the scope of the invention, to replace the lateral nozzle 21 directed downwards with a second wing with symmetrical fins and with horizontal axis 24, so to act vertically (Figure 6).

 According to yet another variant of this invention, this or these 15-24 'airfoils can be substituted for one or more spoilers, also driven by reciprocating movements, but in a plane perpendicular to the axis of the projectile, and in a direction parallel to the corrective acceleration sought.

Finally, according to a last example of the invention shown in Figures 7 and 8, the projectile has the same elements as those of the previous examples, but it differs in that the part stabilized in roll, for example by a gyroscope '1' , is limited to the correction set. Thus, according to this example of the invention, the assembly constituted by the gyroscope; 1 and by an annular lateral correction propellant 17 is mounted on ball bearings 18 at the base of the military head with a hollow charge 2
The cruising thruster 30, which is no longer stabilized in roll, is transferred to the level of the acceleration thruster 5
In this example of the invention, the continuity of the aerodynamic profile is ensured by a fairing t9 ′, made for example from synthetic foam.

 Of course, and without departing from the scope of the invention, the viewfinder and the control circuit associated with the launcher can take into account, for the adjustment of the pointing and the a priori correction of trajectory, elements other than gravity and the angular speed of travel of the target, such as, for example: temperature, wind, inclination of launches of the launcher, etc. (not limiting).

 I1 remains of course that this invention is not limited to the various embodiments described and shown, but which includes all variants.

Claims (18)

 1 - Projectile, in particular anti-tank, characterized in that it is stabilized at least partially in roll, and in that it comprises means capable of generating a load factor adjustable a priori at the start in module and in orientation, so correct its trajectory and thus compensate in open loop for the effects of gravity and the angular speed of travel of the target.  2 - Projectile according to claim 1 characterized in that it comprises elements stabilized in roll limited to the path correction means.  3 - Projectile according to one of claims 1 and 2, characterized in that it comprises a gyroscope (1-1 ') capable of stabilizing all or part of said projectile.  4 - Projectile according to any one of the preceding claims, characterized in that it comprises means for correction of trajectory constituted by a cruising thruster (3-3 '), with or without axial nozzle, and comprising a plurality of nozzles with transverse effect (11), some of which are unblocked during launch.  5 - Projectile according to claim 4, characterized in that the nozzles (11) of the transverse effect. cruise thruster comprise, under their shutter (12), a pyrotechnic charge (13) and an electric igniter (14) capable of initiating said charge and of ejecting said shutter.  6 - Projectile according to one of claims 4 and 5, characterized in that the axes of the transverse effect nozzles (11) of the cruising thruster are centered on the center of gravity of the projectile.  7 - Projectile according to any one of claims 1 to 3, characterized in that it comprises path correction means constituted by aerodynamic control surfaces.  8 - Projectile according to claim 7, characterized in that the aerodynamic control surface is constituted by a wing preferably located on the warhead of said projectile, and comprising two vertical fins (15) symmetrical and integral with their vertical axis (23), thus that two fins (24) symmetrical and integral with their horizontal axis, these fins being driven in an alternating turning movement around their respective axes using means such as, in particular, electromagnets (16-16 ') .  9 - Projectile according to claim 7, characterized in that its aerodynamic control surface is constituted by one or more spoilers, preferably located on the warhead of said projectile, driven by alternating movements in a plane perpendicular to the axis of the projectile, and in a direction parallel to the corrective acceleration sought.  10 - Projectile according to any one of claims 1 to 5, characterized in that it comprises trajectory correction means constituted by means as specified in claims 4 and 7.  11 - Projectile according to claim 10, characterized in that it comprises trajectory correction means constituted, on the one hand, by a nozzle oriented downwards, capable of compensating for gravity, on the other hand, by a control surface aerodynamic capable of imparting a lateral load factor to said projectile.  12 - Projectile according to claim 11, characterized in that it comprises an aerodynamic control surface constituted by a blade, preferably located on the warhead, with two symmetrical fins and integral with their vertical axis, driven by an alternating turning movement around of their axis by means such as electromagnets.  13 - Projectile according to any one of the preceding claims, characterized in that it comprises a control circuit associated with its launcher, capable of adjusting a priori, from said projectile, the means of trajectory correction at angular speed scrolling target.  14 - Projectile according to claim 13, characterized in that its control circuit adjusts a priori, at the start - either the choice of the transverse nozzles to be blanked, according to which one  conch of claims 4 to 6; - either the parameters of the aerodynamic control surface, and in particular the  ratio of turning time in one direction to turning time in op direction  installed control surfaces according to any one of claims 8, 9 and  12, so that the effects of gravity and angular velocity  of the target scroll are better compensated by 0.10 g, and  preferably 0.03 g.  15 - Projectile according to any one of the preceding claims, characterized in that, for the adjustment of the aiming and of the trajectory correction, the viewfinder and / or the control circuit associated with the launcher of said projectile take into account not only the gravity and the angular speed of travel of the target, but also other parameters such as, in particular: temperature, wind, inclination of launches of the launcher.  16 - Projectile according to any one of the preceding claims, characterized in that said projectile, of the rocket type, comprises an acceleration propellant and / or a cruising propellant.  17 - Projectile according to any one of the preceding claims, characterized in that the thrust of the cruising thruster of said projectile is adjusted so as to preferably give this projectile a constant speed, or slightly accelerating.  18 - Projectile according to any one of the preceding claims, characterized in that it comprises a military head, for example with a hollow charge (22), the axis of which has a negative setting relative to the axis of the projectile.