EP0147329A2 - Sighting device for a firearm providing correction of the lateral movement of the target - Google Patents

Abstract

The sighting device comprises first means for displaying at least one scroll mark parallel to the central faith line (32), means for modifying the position of the scroll mark, means (112) for measuring the scrolling time which has elapsed between an initial instant for which the target seen in the viewfinder is superimposed on a reference mark and a later instant at which the target seen in the viewfinder (1) held stationary reaches said scroll mark; and second means for displaying at least one target for shooting at a future goal (21, 22), parallel to the central headline (32), the position of which is determined on the one hand as a function of the time of flight of the projectile, itself determined from the shooting distance, and, on the other hand, as a function of the scrolling time measured for a given scrolling reference.

Description

The subject of the present invention is a sighting device for a shooting weapon with correction of the lateral scrolling of the target, comprising a rangefinder, a calculator, chronometric means and means for displaying shooting elements in the field of the system. aiming,

The invention relates more particularly to targeting devices comprising means for measuring the speed of travel of the targeted target and means for correcting the error due to this movement.

Various sighting systems of this type are known, including a real tachymetry system including angle encoders or gyrometers. These systems are, however, generally complex and ill-suited to mass-market infantry weapons.

We also know some systems where the shooter, having to estimate the flight time of the projectile and keeping his weapon stationary during the measurement, assesses the lateral speed of the target by observing its displacement during the estimated flight time over a horizontal scale of marks engraved on the reticle of the telescope, and then shifts its point of aim, in the opposite direction, by the number of graduations traversed by the target.

These simplified devices have the disadvantage of involving an evaluation of the duration of flight made by the shooter, therefore tainted with errors.

Other more precise systems are also known, where the shooter applies the same procedure as in the aforementioned simplified devices, but being informed exactly by a light indicator on the flight time of the machine supplied by means of a distance measurement. .

These devices also have several drawbacks. In particular, they have a relatively large number of graduations - benchmarks, to obtain good accuracy in the evaluation of the speed, which leads to difficulties in locating and confusion. In addition, they include a mental and physical operation to postpone the final aiming point by a number of graduations equal and opposite to the observed movement, which can lead to difficulties for personnel with little training. In addition, these devices lead, for long spans, to a time for observing the scrolling (necessarily equal to the flight time)) which can adversely affect the duration of intervention.

There is also known an aiming device in which scrolling marks constituted by points located on the site line at a predetermined fixed distance from the headline are displayed in the viewfinder to allow the determination of a scrolling time corresponding to the time taken by the target image to scroll, in the viewfinder, from the line of sight to one of the scrolling marks, knowledge of the shooting distance determined by telemetry and that of the scrolling time being then used to the development and display of marks for future target shooting.

However, such an aiming device does not take into account the different possible scrolling speeds of the target image in the viewfinder, which can lead either to a measurement time that is too long for the determination of the scrolling time and consequently for displaying shot marks on a future goal, that is to say a measurement lacking precision because it corresponds to a scrolling time that is too short taking into account the reaction time of the operator.

The present invention aims to overcome the aforementioned drawbacks and to allow stripped-down aiming comprising a minimum of markers, while providing a simplification of the operation of evaluating the scrolling, by increasing the precision thereof and by reducing the intervention time.

The object of the invention is therefore essentially to make aiming at the same time simpler, safer and faster, while eliminating any moving mechanical part in the device. measurement and correction of the lateral scrolling of the target.

These aims are achieved by means of a sighting device for a shooting weapon with correction of the lateral scrolling of the target, comprising a rangefinder, a calculator, chronometric means, first means of displaying at least one scrolling marker in the field of the sighting system at a given location on the site line, and second means for displaying at least one target for shooting at a future goal in the field of the sighting system according to a position on the determined site line on the one hand as a function of the flight time of the projectile, itself determined from the shooting distance measured by telemetry, and on the other hand as a function of the scrolling time measured for a given scrolling reference relative to a reference mark located at a given location on the site line separate from that of the scroll mark using means of measuring the scroll time which has elapsed between a first actuation by the shooter of a chronometry control member and display of a scrolling marker and a later instant, indicated by the shooter, corresponding to a second actuation of said chronometry control member at the instant at which the target seen in the viewfinder held stationary at the end of its journey between the reference mark and the scroll mark, characterized in that the first actuation of said timing and display control member causes the display of a first scroll mark in the viewfinder a relatively large distance from the reference mark and in that, in the absence of further actuation of said chronometry and display control member at the end of a predetermined time interval, the means for displaying the scroll mark cause the displacement of said scroll mark in the viewfinder to a relatively small distance from the reference mark.

According to an advantageous characteristic of the device according to the invention, the displacement of the scroll mark in the viewfinder is progressive and carried out at an increasing speed from the position from the first scroll mark to a final position corresponding to said relatively small distance from the reference mark.

Preferably, the sighting device comprises means for erasing the scroll marks which are implemented in the absence of a new actuation of said chronometry control member at the end of a predetermined time interval, which can be by example between one and three seconds.

According to one possible embodiment, the telemetry measurement making it possible to determine the position of a target for shooting at a future goal is carried out after the chronometry measurement.

According to another possible embodiment, the telemetry measurement making it possible to determine the position of a shot mark on a future goal is carried out before any chronometry measurement and the first means of displaying at least one scroll mark are designed to display a scroll mark at a distance from the reference mark which is determined based on the shooting distance provided by the range finder so as to correspond to a predetermined distance in a plane perpendicular to the line of sight and containing target.

In particular, the chronometry control member can be constituted by the range finder control button, and the second actuation of the control member can then correspond to a release of this range finder control button.

According to a particular embodiment, the reference frame is constituted by the central headline.

According to another particular embodiment, said reference mark is constituted by a mark separated laterally from the central headline and in that said scrolling mark is first displayed at the location or in the vicinity of the headline central, during the first actuation of said chronometry and display control member, then, in the absence of further actuation of said chronometry and display control member at the end of said time interval predetermined, is gradually moved in the viewfinder to a relatively small distance from the reference mark moved away from the central line of faith.

The scroll marks, the reference marks and the marks for shooting on future goal can be arranged in pairs, symmetrically with respect to the central line of faith, so as to allow the aiming on a target without the operator having to provide information corresponding to the direction of travel of the target.

Advantageously, the reference marks, the scrolling marks and the marks for shooting on future goal are constituted by segments parallel to the central headline.

According to an additional characteristic, the aiming device comprises means for measuring or detecting the threshold of the slope, and means for correcting scrolling as a function of the slope measured.

According to a particular embodiment, the first actuation of said chronometry and display control member causes the display of a first scroll mark in the viewfinder at a relatively large distance from the reference mark, then, successively or simultaneously, the display of a second scroll mark at a relatively short distance from the reference mark.

• - Les figures la à le représentent les différentes images successives vues dans le dispositif de visée au cours d'une séquence de visée selon un premier mode de réalisation de l'invention,
• - la figure 2 représente le schéma-bloc simplifié du dispositif de visée selon l'invention avec un premier type de réticule,
• - la figure 3 représente le schéma-bloc simplifié d'un dispositif de visée selon l'invention avec certaines variantes et un second type de réticule,
• - la figure 4 représente la partie optique du dispositif de visée selon l'invention,
• - les figures 5A à 5₀ représentent les diagrammes des temps montrant le fonctionnement de différentes parties du dispositif de visée selon l'invention, suivant un premier type de séquence possible,
• - les figures 6a à 6e représentent les différentes images successives vues dans le dispositif de visée au cours d'une séquence de visée selon un second mode de réalisation de l'invention.
• - les figures 7a à 7c représentent les diagrammes des temps montrant le fonctionnement des différentes parties du dispositif de visée selon l'invention, suivant un second type de séquence possible,
• - les figures 8a à 8c représentent les différentes images successives vues dans le dispositif de visée au cours d'une séquence de visée selon un troisième mode de réalisation de l'invention, et
• - les figures 9a à 9e représentent les différentes images successives vues dans le dispositif de visée au cours d'une séquence de visée selon un second mode de réalisation de l'invention.

Other characteristics and advantages of the invention will emerge from the description which follows on from specific embodiments of the invention, with reference to the appended drawing, in which:

• FIGS. 1 a to 1 represent the different successive images seen in the sighting device during a sighting sequence according to a first embodiment of the invention,
• FIG. 2 represents the simplified block diagram of the sighting device according to the invention with a first type of reticle,
• - Figure 3 shows the simplified block diagram of a sighting device according to the invention with certain variants and a second type of reticle,
• FIG. 4 represents the optical part of the aiming device according to the invention,
• FIGS. 5A to 5 ₀ represent time diagrams showing the operation of different parts of the sighting device according to the invention, according to a first type of possible sequence,
• - Figures 6a to 6e show the different successive images seen in the sighting device during a sighting sequence according to a second embodiment of the invention.
• FIGS. 7a to 7c represent time diagrams showing the operation of the different parts of the aiming device according to the invention, according to a second type of possible sequence,
• FIGS. 8a to 8c represent the different successive images seen in the sighting device during a sighting sequence according to a third embodiment of the invention, and
• - Figures 9a to 9e show the different successive images seen in the aiming device during an aiming sequence according to a second embodiment of the invention.

The aiming device according to the invention consists of different sub-assemblies represented symbolically in FIGS. 2 and 3. It essentially comprises a telescope 120 providing a view of the terrain and of the target with a certain magnification, which can be by example three to five, and comprising a sighting reticle 1 simulated with the optical axis and the emission axis of a telemetry laser 102. The telemetry laser 102 can itself be separated from the telescope, or , preferably, use common optical parts with the telescope.

A display device 105, for example based on light-emitting diodes, associated with a semi-reflective blade 123 (fig. 4) makes it possible to show in the field of the telescope 120 different marks and the line of rise which will thus be displayed on the reticle 1.

The telescopic sight 120 can be conventional with a lens 121, a rectifier prism 122, a reticle 124, and an eyepiece 126 with its ring 127. However, a separating blade 123, a lens 128 and a plane mirror 125 are added in order to to allow the projection, on the reticle, of the various marks of the display member 105, as indicated above.

The display device 105 may consist of a mosaic of light points 4 arranged in the form of a matrix (FIG. 3). The display device 105 then comprises an electro-luminous plate associated with a liquid crystal mosaic. According to another possible embodiment, (fig.2), the display device 105 comprises two bars arranged in a cross, each consisting of a plurality of light-emitting diodes2, 3. The diodes 2 of the first bar are aligned on along the site line 31 parallel to each other and to the central headline 32. The diodes 3 of the second strip are themselves distributed along the headline 32 parallel to each other and to the line site 31. As will be indicated below, the diodes 2 of the first strip will allow the display of markers 21, 22 for measuring the target running speed while the diodes 3 of the second strip are intended to allow display of rise marks 33.

The sighting device of Figures 2 and 3 further comprises a computer 101, formed for example from a microprocessor, used in particular for determining the location of the various marks to be displayed using the display device 105 based on the input data supplied to the aiming device by the operator or by the sensors associated with the device.

An ambient temperature sensor 103 is preferably added to the sighting device to improve the accuracy of the calculation of the rise.

Similarly, it is advantageous to incorporate a slope sensor 107 which can be an accelerometer, but is preferably a level with contacts constituting a threshold detector operating by gravity (for example with mercury) in order to reduce the cost and d '' increase reliability. This level with contacts can naturally be doubled with an air bubble level, visible by the operator, in order to allow the latter to be placed on a slope which is substantially zero before the start of the firing sequence. The signals supplied by the slope sensor 107 can also be used to control automatic scroll correction means as a function of the measured slope.

As an option, a sensor 111 for measuring the ambient illumination can be added to the aiming device to make it possible to adjust the power supply of the display device 105 so as to keep constant the ratio between the luminance of the displays and the background luminance.

As can be seen in FIGS. 3 and 4, the optional temperature measurement 103 and tilt measurement sensors 107 are connected by analog-digital converters 109, 110 respectively to the computer 101. Similarly, interface circuits 108, 106 are arranged respectively between the rangefinder 102 and the display device 105 on the one hand, and the computer 101 on the other hand. Memories 104 for recording a calculation program and various parameters are also associated with the computer 101. A timing device 112 and control buttons 113, 114 also complete the sighting device of FIGS. 2 and 3.

We will now describe the operation of the sighting device according to the invention, with reference to a first particular embodiment, which ensures the successive display in the viewfinder of scroll marks 11, 12 intended to allow the operator to easily determine and quickly the speed of scrolling of the targeted target (fig 1b, 1c), and marks on future goal 21, 22 (fig 1d, 1e) which, added to mark 33 of rise, must allow to position the shooting weapon taking into account of all the desired parameters.

We know that it is essential to be able to assess, not only the target distance to the shooting weapon, using a rangefinder (fig 1a), in order to determine a flight time of the projectile, but also d '' correctly assess the lateral speed of travel of the targeted target in order to prevent the projectile from passing in front of the target, if its real speed is lower than the evaluation made, or behind the target, if the real speed of it is greater than the evaluation made. The problem lies in the fact that the travel speed measurement must be made very quickly by the shooter. However, it is difficult to know in advance if the target that will appear is far or close to the shooter and if its speed of movement is low or high.

Thus, it is known to provide in the viewfinder, symmetrically to the line of sight, two fixed scrolling marks engraved on the reticle of the telescope on either side of the line of sight or displayable at a predetermined distance from it. The shooter observing the scrolling of the target in the viewfinder can then, using a special command, associated with a stopwatch, inform the computer about the running time necessary for the target to cover the distance included, in the telescope, between the headline and one of these symmetrical landmarks. Knowledge of the distance from the target given by the range finder then enables the computer to determine the speed of movement of the target.

The major drawback of this arrangement lies in the fact that, in this case, the measurement times are very variable according to the distances, that is to say are very short for short distances with high target speeds, and excessively long for long distances with low target speeds, which therefore affects intervention time.

To remedy this, the present invention recommends adapting the position of the scrolling marks displayed 11, 12 with respect to the headline 32 (fig.1b) in order to obtain an optimized measurement time which is neither too long so as not to penalize the intervention time, or too short so as not to affect precision. This adjustable character of the position of the adjusted scroll marks constitutes an essential characteristic of the present invention.

Thus, the presence of scrolling marks 11, 12, of adjustable position displayed selectively in the viewfinder makes it possible in particular to predetermine the time for measuring the running speed of the target. In the case where a telemetric distance measurement is carried out in the first place (fig la), it is possible after processing the distance information by the computer, to adapt the angular distance X of the scrolling marks displayed 11, 12 by with respect to the faith line 32, with a view to optimizing the measurement time. In this case, for the short distances between target and weapon, the scroll marks will be far from the line of sight; for larger distances, the scroll marks will be closer to the center line.

One can, for example, choose the position x ₂ of the scroll marks 12 so that it corresponds to the distance from the target 5, at a spacing of 10m, which leads, for targets having lateral speeds of 5 to 10m / s, at a speed of 1 to 2s.

However, this value, although satisfactory in the majority of cases, leads to a relatively long intervention time for targets with a lower lateral speed (tank coming from three-quarter face for example). However, it is not possible to reduce the spacing of the markers 12 without driving, for the highest speeds, to a measurement time that is too short, detrimental to accuracy.

• - le repère extérieur 12 (cote X 2), ne doit pas être atteint en une durée inférieure à une valeur minimale (par exemple 1s) pour des cibles 5 ayant une vitesse de défilement égale à une valeur maximale de référence (par exemple 10 m/s), ceci afin que la précision de la mesure de défilement, fonction du temps d'observation, ne soit pas trop dégradée;
• - le repère intérieur 11 (cote X₁) ne doit pas être atteint en une durée supérieure à une valeur maximale (par exemple 2 s) pour des cibles ayant une vitesse de défilement égale à une valeur minimale de référence (par exemple 2,5 m/s), valeur en dessous de laquelle la correction de défilement, suffisamment faible, est jugée pouvoir être laissée à l'appréciation du tireur, ceci afin que la durée d'intervention reste limitée (durée de tachymétrie limitée à 2 s).

According to the invention, this limitation can be removed if provision is made for the simultaneous or successive display in this order of two pairs of marks 12, 11 arranged symmetrically on one side and on the other side of the main line (fig. 1b) respectively distant from the dimensions X ₂ and X ₁ and meeting the following conditions:

• - the external benchmark 12 (dimension X 2), must not be reached in a period of time less than a minimum value (for example 1s) for targets 5 having a running speed equal to a maximum reference value (for example 10 m / s), this so that the accuracy of the scrolling measurement, as a function of the observation time, is not too degraded;
• - the internal reference mark 11 (dimension X ₁ ) must not be reached in a duration greater than a maximum value (for example 2 s) for targets with a running speed equal to a minimum reference value (for example 2.5 m / s), value below which the scrolling correction, sufficiently low, is judged to be able to be left to the discretion of the shooter, this so that the intervention time remains limited (tachymeter duration limited to 2 s).

• - les repères 12 sont initialement placés à la position correspondant à celle des repères extérieurs de la variante précédente (cote X₂) et ceci pendant une durée fixée (par ex.1s) correspondant au temps de parcours de la cible pour sa vitesse maximale de référence (fig 6b);
• - Si à la fin de ladite durée prédéterminée, la séquence de tachymétrie n'a pas été interrompue par le tireur, les repères 12 sont effacés et de nouveaux repères 13 (cote X₃)sont ensuite progressivement déplacés de la position ci-dessus à la position correspondant à celle des repères intérieurs de la variante précédente (cote X₁), qu'ils atteignent au bout du temps maximal de tachymétrie envisagé (2s par ex.) On notera que le déplacement progressif des repères 13 peut alors .s'effectuer avec une vitesse croissante au fur et à mesure que les repères 13 s'éloignent de la position initiale des repères 12, ce qui permet d'optimiser les temps de tachymétrie.

Another variant of the invention illustrated in FIGS. 6b and 6c, consists in using only a single pair of pins 12, but with the following improvement:

• - the marks 12 are initially placed at the position corresponding to that of the external marks of the previous variant (dimension X ₂ ) and this for a fixed duration (e.g. 1s) corresponding to the target's travel time for its maximum speed of reference (fig 6b);
• - If at the end of said predetermined duration, the tachymetry sequence has not been interrupted by the shooter, the marks 12 are erased and new marks 13 (dimension X ₃ ) are then gradually moved from the above position to the position corresponding to that of the interior marks of the previous variant (dimension X ₁ ), which they reach at the end of the maximum tachymetry time envisaged (2s for example). It will be noted that the gradual displacement of the marks 13 can then .s' perform with increasing speed as the marks 13 move away from the initial position of the marks 12, which makes it possible to optimize the tachymetry times.

The variant of FIGS. 6b and 6c combines the advantages of a solution with a pair of marks 11 or 12, namely the simplicity of the operating mode, the shooter having in his field of vision only an end mark. of movement with respect to which it must observe the displacement of the target, and those of the solution with two pairs of marks 11, 12, namely the reduction of the tachymetry time in the case of slow movements.

An additional precaution may consist in interrupting the display of the scroll marks 11, 12 or 13 after a maximum duration of tachymetry, for example equal to 2 s, indicating to the shooter that if the internal mark 11 (dimension X ₁ ) is not reached by the target 5 at the end of this time, the lateral speed of the latter is very low and the correction of tachymetry is considered to be left to its appreciation.

In all cases, the duration of intervention by the shooter to measure the target's running speed (tachymetry) will therefore be limited to the maximum authorized duration.

In another embodiment represented in FIGS. 8a to 8c and 9a to 9c and corresponding to the sequence of FIGS. 7a to 7c, the measurement of target distance is not carried out at the start of the operations but at the end of the sequence ( FIGS. 8d and 9d), which allows a shorter time between the laser emission capable of making the shooter locate, and the launching of the projectile (fig 8e and 9e). In this case, the scroll marks 52 respectively 12 (FIG. 8a respectively 9a) are first displayed in a fixed manner for a predetermined time at a fixed distance y respectively y ' ₀ relatively distant from a fixed reference mark 42 respectively 32, which can be engraved, then move (marks 53 resp. 13) to the reference marks 42 resp. 32 to decrease the angular interval between the start marks 42 resp. 32 and end of scrolling 53 resp. 13 (dimension y1 in FIG. 8b and y'1 in FIG. 9b) and minimize the tachymetry time.

• Le tireur pointe sur la cible 5 la croix formée par le repère initial de défilement qui peut être la ligne de foi 32 (fig 1a, 6a, 9a) ou une gravure 42 située vers l'extérieur du champ, et par le trait repère horizontal 31. En appuyant sur un bouton de commande 113a, il déclenche alors le chronomètre tout en laissant à partir de ce moment son arme immobile (figures 8a et 9a). Dans un mode de réalisation particulier, cette opération déclenche en même temps la télémétrie (figures 1a et 6a), le bouton de commande de télémétrie 113b étant combiné avec le bouton de commande de chronométrie 113a.

In general, the sequence for determining the target running speed is as follows:

• The shooter points to the target 5 the cross formed by the initial scroll reference which can be the line of faith 32 (fig 1a, 6a, 9a) or an engraving 42 situated towards the outside of the field, and by the horizontal reference line 31. By pressing a control button 113a, it then starts the stopwatch while leaving from this moment its weapon stationary (Figures 8a and 9a). In a particular embodiment, this operation triggers telemetry at the same time (FIGS. 1a and 6a), the telemetry control button 113b being combined with the chronometry control button 113a.

By action of the shooter on the control unit 113a for triggering timing and display, scroll marks 11, 12 which can be adapted to the distance from the known target of the computer 101 from the information provided by the rangefinder 102 (FIG. 1b), and intended to allow a measurement of target running speed with maximum precision and convenience in a limited time, are displayed in viewfinder 1. The computer 101 thus controls the display, on the other hand and on the other side of the central vertical line 32 of the reticle, of a vertical fixed mark 12 which can become mobile 13 (fig 6b and 6c and fig 9a to 9c) or of several, preferably two, fixed vertical marks 11, 12 (fig 1b), called scroll marks, by addressing the corresponding display elements 2 or 4 of the display device 105.

It will be noted that the bodies 113b, 113a for triggering telemetric shooting and timing and display triggering are preferably coupled or combined in a single operating button 113. Thus, the tachymetry sequence with display of the scroll marks and the start of the chronometry can be initialized without delay as soon as the rangefinder is triggered, which itself instantly provides an indication of target distance. It will be noted that in the case where the telemetry measurement is carried out after the chronometry measurement (FIG. 7a to 7c, 8a to 8d and 9a to 9d) a single operating button can also be used, a first actuation causing the triggering of timing, a second actuation causing the timing to stop and a third actuation causing the triggering of telemetry. In this case, a reset button is associated with the system in order to be able to reset an aiming sequence.

After displaying the scrolling marks, the shooter keeps his weapon stationary and observes the movement of the target 5. When the latter arrives at one of the fixed marks 11, 12, for example the mark 12 (fig 1c) or when the target and one of the movable marks 13 overlap (fig 6c and 9c), the shooter stops the timing operation by actuating a contact 113a provided for this purpose, or, more simply, in the case where this contact is combined with rangefinder control button 113b, by pressing or releasing this button.

It will be noted that, according to an alternative embodiment, the chronometric end marks 52 are initially coincident with the headline 32 (FIG. 8a) or arranged symmetrically with respect to the headline 32 in the vicinity thereof, and then move towards the outside of the field (marks 53 of FIG. 8b) in the direction of the fixed reference marks 42. These marks 52, 53 of FIGS. 8a to 8c are thus similar to the above mentioned marks 12, 13.

According to certain embodiments, the telemetry is carried out after having finished the chronometry (fig 8d and 9d). In these embodiments, the laws of displacement of the scroll marks 53, 13 are predetermined and do not involve the distance, but can produce, if necessary, displacement speeds which increase as a function of time.

At this point in the measurement sequence, the computer 101 knows the distance from the target, the running time of the target for the angle corresponding to the running marking 11, 12, 13 or 53 considered, the flight time of the projectile that it determined according to the firing parameters which are mainly the distance from the target and the ambient temperature, and possibly the superelevation, measured or detected compared to a threshold by the sensor 107. The computer 101 then determines the horizontal angular offset of the aiming point to be displayed in order to make a shot at a future goal, possibly corrected for the superelevation. It also calculates the vertical angular offset corresponding to the increase. The scroll marks 11, 12 or 13 are then erased and shot marks 21, 22 or 23 are then displayed by addressing display elements 2 or 4 closest to the calculated positions, from the discrete ramps available (fig 1d, 6d, 8e, 9e) (dimensions X ' ₁ , X' or X ' ₃ ). If it has not already been, the rise mark 33 is also displayed by addressing the display elements 3 or 4 closest to the calculated positions.

It will be noted that, in the case where no particular indication has been provided on the direction of travel of the target, the lateral marks of fire 21, 22, 23 are to be displayed to the right and to the left of the central line. It is however possible, using an additional control lever 114, for example with 3 positions (left, center, right) (fig 2), to manually supply the computer with information on the direction of travel of the target, which then makes it possible to display the scroll marks 11, 12 and the marks on future goal 21, 22 only on one side of the central headline 32.

Furthermore, in the case where the device uses the display of two scroll marks 11, 12 on each side of the central line 32 (FIG. 1b, 1c) there are two possible scroll speeds corresponding to the measured scroll time. It will therefore also be displayed, on each side of the central line 32, two firing marks 21, 22 (fig 1d, 1e) corresponding to the two possible scrolling speeds. In this case, the operator chooses the firing mark (for example mark 22 in fig.1d) in correspondence with the internal or external scroll mark used (for example mark 12 in fig 1c).

The projectile firing operation is carried out as follows: The shooter repoints his weapon so as to place the target 5 at the intersection of the lines displayed by the sight mark horizontal 33 and the vertical shot mark, adequate 22 or 23 (fig 1e and fig 6e, 8e, 9e).

In the case of FIG. 1e, the appropriate vertical shot mark is located to the left of the central line 32, the target scrolling to the right and is constituted by the outside mark 22, the mark for measuring the scrolling used being the outside mark 12.

The shooter then initiates the shot in adequate conditions of rise, travel and, if necessary, superelevation.

In the case of the embodiment of FIGS. 1a to 1e using two pairs of interior and exterior vertical references 11, 12 and 21, 22, it is possible to use in the display device 105 two ramps of display elements 2 vertical markers with different colors. This allows the operator to clearly differentiate and match the interior markers of a first color to the exterior markers of a second color. The operation of selecting and switching on the display elements 2, 3 of the display device 105 is carried out via the interface circuit 106.

In the embodiment of FIG. 3 where the display elements 4 consist of a matrix of light-emitting diodes, for example of 40 elements in the horizontal direction out of 25 in the vertical direction, the display of the different marks of scrolling 11, 12, 13 firing 21, 22, 23 and rising 33 is done by addressing the diodes of the corresponding rows and columns. In this case, the differentiation between the interior and exterior elements of two pairs of scroll marks 11, 12 and shot marks 21, 22 can be obtained by displaying continuous lines (all the diodes of a column) and discontinuous lines ( e.g. every other diode in a column).

The chronology of the operation of the system according to the invention is shown diagrammatically in FIGS. 5a to 5c, 7a to 7c.

According to a possible sequence, after the appearance of the objective (point A in Figure 5a) the operator activates the computer 101 (point G in FIG. 5b) and, after immobilization of the weapon, the cross 34 of the reticle being pointed at the target, triggers the laser rangefinder (point B in FIG. 5a) and the reset of the stopwatch tachymetry (point M in fig. 5c).

The computer 101 works out from the target distance information D transferred by the range finder (point H in FIG. 5b) the control signals for displaying the scroll marks corresponding to calibrated displacement values, eg. + 5m and + 10m.

The scroll marks determined are then displayed (point C in fig 5a and point I in fig 5b) in the form of vertical lines in the viewfinder and are used by the operator to stop the stopwatch by release, for example. the rangefinder control button (point D in fig 5a and point N in fig 5c). The time information t ₀ of the chronometer is then supplied to the computer 101 (point J in FIG. 5b) which performs the shot correction calculations, namely a conventional rise calculation, possibly with temperature correction, and a calculation of correction of scrolling (point K in fig 5b) allowing the elaboration of the control signals for displaying the firing and rising marks (point E in fig 5a and point L in fig 5b). The shooting can then take place at point F of FIG. 5a, after repositioning of the weapon by the shooter.

According to another possible sequence, after the appearance of the objective, the operator, after immobilization of the weapon triggers the reset to zero of the tachymeter stopwatch (point B of FIG. 7a).

The computer then displays the scroll marks, first fixed, then moving.

After stopping the chronometry (point C in fig 7a) the shooter then points the center of the reticle at the target and triggers the telemetry (point D in figure 7a). The rise and run calculations are then carried out, which allows the development of the control signals for displaying the markings of shot and rise (point E in Figure 7a).

où e représente la valeur de déplacement calibrée correspondant à un repère de défilement, c'est-à-dire la distance de défilement latéral de la cible dans un plan perpendiculaire à la ligne de visée.The scrolling correction allowing the display of a shot mark at a given distance from the center line of the viewfinder is calculated according to the formula:

where e represents the calibrated displacement value corresponding to a scroll mark, that is to say the lateral scroll distance of the target in a plane perpendicular to the line of sight.

t ₀ represents the measured running time corresponding to the displacement of the target over the distance e, d represents the distance from the target to the firing weapon, ^t _vol represents the flight time of the projectile, and is expressed in radians.

Naturally, the scroll correction can itself include corrections taking into account the slope measurement α and / or the ambient temperature measurement T.

où H_o représente la correction de hausse dans des conditions standard, exprimée en radians.Thus, for a slope less than or equal in absolute value to 10 °, the scroll correction θ, will be:

where H _o represents the increase correction under standard conditions, expressed in radians.

The measurement of the ambient temperature T makes it possible to determine a corrected value of the flight time t _vol which can be substituted for the value t _vol of the formula (1) calculated under standard conditions.

Of course, various modifications and additions can be made to the various embodiments presented, the characteristics of which can be combined with one another.

Claims (13)

1. Aiming device for a shooting weapon with correction of the lateral scrolling of the target, comprising a rangefinder (102), a computer (101), ohronometry means (112), first display means of at least one scroll mark (11,12,13; 52,53) in the field of the sighting system at a given location on the site line (31), and second means for displaying at least one shot mark on future goal (21,22; 23) in the field of the sighting system according to a position on the site line (31) determined on the one hand as a function of the flight time of the projectile, itself determined from the distance of firing measured by telemetry, and, on the other hand, as a function of the scrolling time measured for a given scroll mark (11,12,13; 52,53) relative to a reference mark (32; 42) located at a given location on the site line (31) distinct from that of the scroll mark (11,12,13; 52,53) using means (112) for measuring the scrolling time which has elapsed between a first actuation by the shooter of a member (113) for timing control and display of a scroll mark (11,12,13; 52,53) and an instant posterior, indicated by the shooter, corresponding to a second actuation of said chronometry control member (113) at the instant at which the target (5) seen in the viewfinder (1) held stationary has completed its journey between the reference mark ( 32; 42) and the scroll mark (11,12,13; 52.53),
characterized in that the first actuation of said chronometry and display control member (113) causes the display of a first scroll mark (12; 52) in the viewfinder (1) at a relatively large distance from the mark reference (32; 42) and in that, in the absence of further actuation of said timing control and display member (113) at the end of a predetermined time interval, the marker display means of scroll causes the displacement of said scroll mark (11,13; 53) in the viewfinder up to a relatively small distance from the reference mark (32). 2. Aiming device according to claim 1, characterized in that the displacement of the scroll mark (13; 53) in the viewfinder (1) is progressive and carried out at an increasing speed from the position of the first scroll mark (12; 52) at a final position corresponding to said relatively small distance from the reference frame (32; 42). 3. Aiming device according to claim 1 or claim 2, characterized in that it comprises means for erasing the scroll marks (11,12,13; 52,53) which are used in the event of absence of new actuation of said chronometry control member (113) after a predetermined time interval. 4. Aiming device according to claim 3, characterized in that said predetermined time interval is between one and three seconds. 5. Aiming device according to any one of claims 1 to 4, characterized in that the telemetry measurement making it possible to determine the position of a target for shooting at a future goal (21,22,23) is carried out after the measurement of chronometry. 6. Aiming device according to any one of claims 1 to 4, characterized in that the telemetry measurement making it possible to determine the position of a shooting target on future goal (21,22,23) is carried out before any measurement of chronometry and in that the first means for displaying at least one scroll mark (11,12,13) are designed so as to display a scroll mark (11,12,13) at a distance from the mark reference (32) which is determined as a function of the shooting distance provided by the rangefinder (102) so as to correspond to a predetermined distance in a plane perpendicular to the line of sight and containing the target. 7. Aiming device according to any one of claims 1 to 6, characterized in that the chronometry control member (113) consists of the rangefinder control button (102), and in that said second actuation of the control member corresponds to a release of this telemeter control button. 8. Aiming device according to any one of claims 1 to 7, characterized in that said reference mark (32) is constituted by the central headline. 9. Aiming device according to any one of claims 1 to 7, characterized in that said reference mark (42) consists of a mark laterally spaced from the central line of faith (32) and in that said reference mark scrolling (52,53) is first displayed at the location or in the vicinity of the central headline (32), during the first actuation of said chronometry and display control member (113), then, in the event of absence of new actuation of said chronometry control and display member (113) at the end of said predetermined time interval, is gradually moved in the viewfinder (1) to a relatively small distance from the reference mark (42) moved away from the central line of faith (32). 10. Aiming device according to any one of claims 1 to 9, characterized in that the scrolling marks (11,12,13,52,53), the reference marks (32,42) and the shooting marks on future goal (21, 22, 23) are arranged in pairs, symmetrically with respect to the central line of faith (32), so as to allow aiming at a target without the operator having to provide information corresponding to the direction scrolling target. 11. Aiming device according to any one of claims 1 to 9, characterized in that it comprises a means (107) for measuring or detecting the slope threshold, and means for correcting scrolling as a function of the measured slope . 12. Aiming device according to any one of claims 1 to 11, characterized in that the reference marks (42), the scroll marks (11,12,13; 52,53) and the marks on target future (21,22,23) are formed by segments parallel to the central line of faith (32). 13. Aiming device according to claim 1, characterized in that the first actuation of said member (113) for timing and display control causes the display of a first scroll mark (12) in the viewfinder (1) at a relatively large distance from the reference mark (32), then, successively or simultaneously, the display of a second scroll mark (11) at a relatively short distance from the reference mark (32).

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