FR2507301A1 - Weapon with high rate of fire - uses large calibre cartridges with gas piston and accelerator lever to place cartridges successively in chamber - Google Patents

Abstract

The weapon has a high rate of fire and is for large calibre cartridges. It uses a control rod (12), forming a gas piston, to position the cartridge (28) in a chamber (7), under the action of an accelerator lever (18). The chamber moves vertically to be co-axial with the barrel (2). The accelerator lever has a pawl (17) on it which places the round (28) in its chamber. The pawl is actuated by a pin (27) and a curved guide. The accelerator lever also follows a curved guide (20) with the help of a roller (19).

Description

 The object of the invention is a weapon with a high rate of ti for specially firing cartridges of large caliber and without end using a member known as an accelerator lever.

In weapon mechanisms comparable to the subject of the invention, the use of an accelerator lever is above all already known.
Its principle is based on its pivoting attachment to a mobi drawer parallel to the axis of the core, the pivoting movement being controlled using a curved path. 11 pivoting end of the levi then actuates the relative movement of another moving part, of the cartridge to be loaded for example, with respect to the movement of the control drawer. Before the movement returns, the end of the accelerating lever which has pivoted can also for a brief instant become: the center of pivoting.

 the object of the invention consists, above all, in producing a weapon mechanism for ammunition without a cartridge case, which guarantees a high rate of fire even when specially using large caliber bullets.

 According to the invention, the weapon has a control drawer guided in the teardrop case and shaped like a gas piston at one of its ends, which introduces, by means of the accelerator lever, the cartridge into an amEnagde cartridge chamber. in a movable drawer preferably preferably perpendicular to the axis of the weapon's weapon, said weapon drawer moving in a position close to the barrel coaxially only after the introduction of the cartridge using the drawer control which engages in curved paths shaped in the cocking drawer, and moved after firing in its loading position.

 According to an advantageous characteristic of the invention, 1 <armament drawer has, in each of two locations arranged opposite one another, two curved paths preferably shaped in the form of parabolas and having mutually opposite vertices , rollers fixed to the control drawer alternately engaging each time in the superimposed curved paths the inertia of the control drawer moving in the firing direction brings down the cocking drawer, or else the following movement of the drawer in the opposite direction returns the cocking drawer to its starting position.

Other advantages and characteristics of the invention will emerge from the following description of an exemplary embodiment shown in FIGS. 1 to 6b, in which
Figure 1 is a side sectional view of the weapon mechanism
FIG. 1a represents the accelerator lever indicated in FIG. 1 in isolation;
Figure 2 is a section along line C of Figure I
Figure 3 is a section along line A- of Figure I
Figure 4 is a section along line BB of Figure i
FIG. 5 schematically shows the limitation of the movement of the control slide by spring sockets and bars
Figure 6a shows the firing position of the weapon mechanism
Figure 6b shows its extreme rear position at the end of the recoil of the weapon
and Figure 6c shows its position, corresponding to that of Figure 1, immediately before loading the cartridge.

 In a locking piece 1, which is fixed permanently to the housing of the weapon 10, is mounted the barrel 2 of the weapon. The locking piece and the barrel are also rigidly connected to each other by a bayonet closure 3. The locking piece has at its rear end, on the right, in the figure, a recess 4, in which a piece is mounted said / of armament 5, which moves perpendicular to the longitudinal axis of the barrel.

the cocking drawer is guided in two grooves 6 opposite one another in the internal wall of the case, and it slides from its upper position so that the longitudinal axis of its cartridge chamber 7 comes coincide with that of the cannon.

the cartridge chamber itself is equipped at each end with a sealing washer 8. The drawer 5 ends down in a fork; on each of the two external sides of which two parabolic control curves 9 and 9 'are shaped, superimposable, but inverted in plane symmetry (fig. 1 and 3). The locking piece 1 carrying the drawer 5 is connected in a manner not shown in the case 10 by rivets, screws, etc., the rear part of the locking piece closing off the cartridge chamber when the drawer is in the position of shot (fig. 6a). At the lower part of the housing 10 is a guide bar 11 in two pieces for the control drawer 12. The latter is shaped like its front part in gas piston 13.A longitudinal bore 14 of the control drawer 12 contains a spring 15. In addition, the rear part, located on the right in the figure, of the control drawer carries a jumper 16 with a movable pawl 17, which performs a relative movement when necessary. This relative movement is caused by a lever 18, called the accelerator lever, indicated in dashed lines in FIG. 1, and rotatably mounted at point 12 'of the control slide 12. A roller 19 of the accelerator lever in the direction of a control curve 20 fixed to the housing 10, which causes said relative movement of the jumper 16 during the back-and-forth movement of the control drawer, because the accelerator lever and the jumper are relied to each other by a cam 21 ( fig. 2 and 4). the control drawer 12 carries, on each e8t6, two rollers 22 and 22 r, which engage alternately in the control curves 9 and 91 of the drawer 5. the loading of the cartridges 28, visible in FIGS. 6a to 6c, is ensured by means of a drive curve 23, which is pivotally mounted around the pivot pin 24, and which is driven by means of a roller 25 fixed to the control unit. The slowing down of the movement can be further adapted to the loading mechanism. the movable pawl 17 combined with the jumper 1 is controlled upwards and downwards by a lug 27 which engages in a control curve 26.A cartridge which is not pulled or not lit 28 can be removed by an ejector 29, indicated by dashes in fig. 1, and which can be connected to an electrical, hydraulic, pneumatic or pyrotechnic charging mechanism not shown in the drawing.

The mechanism works as follows
the role of the rollers 22 (fig. 1) actuated by the closing spring 15 is, by entering the control curves 9 of this drawer or by cooperating with these curves 9, to bring the cocking drawer 5, towards the down in the position shown in fig.

6a. The kinetic anergy of the control drawer 12 is then passed through the rollers 22 to the cocking drawer 5 up to the top of the curves 9. the curves 9 limit by their summits the path of the control drawer 12 in the direction A, and then transmit, through the rollers 22, the kinetic energy of the cocking drawer 5 to the control drawer 12, which then moves in the opposite direction to direction A. In other words: the inertia of the drawer d armeme 5 is used as an energy reservoir, and it causes the control drawer 12 to return. The firing of the cartridge takes place in the position of the rollers 22 shown in dashes, the drawer 5 being locked in this position. the electrical or mechanical firing mechanism is not shown in the drawing. The gas pressure developed in the cartridge chamber 7 then compresses the sealing washers 8 against the tube and against the shutter which forms part of the locking piece 1, so that gas tightness is ensured. projectile 28 - as indicated in dashes in figure t - has passed nozzle 30, the gas penetrates through it. into gas cylinder 31, and drives back the control drawer 12 in direction opposite to arrow A, by means of the gas piston 13 (fig. 1 and 6b). after a determined recoil stroke of the control slide, the rollers 22 ′ immediately penetrate into the control curves 9 ′, and again move the slide 5 upwards in a manner analogous to the downward movement. backward movement of the control drawer until the entry of the taleth 22 'in the control curves 9' is also called locking stroke, because, during this time, the cartridge chamber remains closed towards the rear (fig. 6b ). During the retraction of the control slide 12, the jumper 16 carrying the pawl 17 i.

 moves even more towards the tribe. At the start of the rider's movement, the pawl, using the lug 27 controlled by the curve 26, is moved downwards outside the loading plane of the cartridge 28 (fig. 6b). In the upper path of the control curve 26 in FIG. 1, the hatching symbolizes the path surface of the lug moving in the direction of the arrow A, which at the end of this path surface falls in the lower path of the curve, placed deeper, in addition to returning 6 to its starting position at the end of the recoil of the control drawer. As shown in FIG. 6b, the upper edge of the drawer 5 is then flush with the projectile 28. the process of coaxial loading of the cartridge is shown in Figure 6c. Immediately before loading begins, the weapon returns to its forward position.

 transport of the cartridges in the loading position by a cradle feeder, the weapon recoil device shown at 37 in fig. 6a to 6c, and the movement of the control slide are mutually tuned, so that when the weapon recoils after firing, the projectile from the cartridge is gone. The unlocking of the weapon, that is to say the upward return of the cocking drawer 5 by the control drawer 12 takes place only when the weapon has reached its previous terminal position.

During the stroke in front of the control slide 12, the cartridge is introduced by the pawl 17 into the cartridge chamber, the rider 16 carrying out an additional course in the direction of the arrow A using the accelerator lever 18. At the point 12 ', as already said, the accelerator lever shown in isolation in FIG. la is articulated on the control drawer, so that, when the control drawer moves in the direction of the arrow
A, the roller 19 fixed to the accelerator lever and engaged in the control court 20 successively takes positions 19 'and 19 "and 19'". These positions correspond in the same order to positions 12, 12 "and 12" of point of articulation of the accelerator lever to the control drawer. the control lever therefore pivots first anticlockwise until it reaches the position 12 ", 19", 21 "the cam 21, fixed to the jumper 16 so as to be able to lift, reached with position 21 "its end position. At this time, the projectile 28 is fully introduced into the cartridge chamber 7, and the pawl 17 is pressed - as shown in phantom in FIG. 1 - against the cocking drawer 5, so that point 21 n serves as the center of rotation for the accelerator lever. The control drawer 12 continues to move in the direction of arrow b, and thus makes the accelerator lever pivot , this time clockwise, from the 12H, 19 ", 21" position to the 12 "', 19"', 21tu terminal position, which simultaneously becomes the starting position for retracting the drawer control in the opposite direction to the arrow A. At the same time, the control drawer enters by its rollers 22 in the curves 9, and moves down the cocking drawer 5 in the firing position. To ensure the reversal of the movement of the control drawer 12, that is to say to prevent the closing spring from acting on the top of the curves 9, there is mounted in the control drawer 12 a mancho: 32, whose ralle emerges from fig. 1 and the diagram of FIG. 5.

In the forward travel of the control slide, the sleeve 32 comes into contact with its stop 32 'against the rigid bar 11 at point 11 ".

In the lower region of the housing 10, is disposed a spring bush 33 with spring 34, on which the control drawer 1; in movement strikes at point 33 with its stop 36, stretching the spring 15. bu otherwise; during the retraction of the control slide 12, spring 34, by means of the sleeve 33, presses the sleeve 32 by its stop 32 ", until it stops at point 11", against the rigid bar there. These arrangements suddenly provide the reversal of the movement of the rollers 22 inside the curves 9.

Claims (5)

INCOME? ICÀTIONS  1) m high rate of fire for specially firing cartridges of caliber and without cartridge using a member called accelerator lever, characterized by a control drawer (12) guided in the weapon casing (10) and shaped by gas piston b one of its ends, which introduces the cartridge (28) by means of the accelerator lever (18) into a cartridge chamber (7) arranged in an armament drawer (5) preferably movable pependicular to the axis of I'sme, which moves to a position coaxially close to the barrel (2) only after the introduction of the cartridge using the control slide which engages in curved paths (9 and 9 ') shaped in the cocking drawer, said cocking drawer moving after firing in its loading position.  20) Weapon according to claim 1 characterized by a jumper (16) fixed to the control drawer (12) which is connected mdca- -nnically to the accelerator lever (18) and which itself carries a pawl (17) used to introduce the projectile (28) in the cartridge chamber, said pawl travels by means of a lug (27) a control curve (28).  30) Weapon according to claim 2 characterized by an accelerator lever (18) pivotally attached to the control slide (12), which by means of a roller (19) traveling a curved path (20) in the case 8, acts on the rider (16) connected by a cam (21) to the accelerator lever (18), so that the jumper performs a relative movement relative to the control slide (12).  40) Weapon according to one of the preceding claims characterized by two pairs of curved paths (9 and 9 ') shaped at locations placed opposite one of the area of the cocking drawer (5), preferably shaped as shape of parabolas with vertices opposite each other, rollers (22 and 22 ') fixed to the rigid control (12) alternately engaging each time in the stackable curved paths, the inertia of the control slide moving in the direction of shot bringing the cocking drawer down, or the next movement of the control drawer in the opposite direction bringing the cocking drawer back to its starting position.  50) Weapon according to one of the preceding claims characterized by a sleeve (32) disposed on the control slide (12), on which act elastic means (15) supported by their other end to the housing (10) of the 'armed.  6) Weapon according to claim 5 characterized by stops (36, 32 ') disposed on the control drawer (12) and on the sleeve (32), which in the region of the end positions of the control drawer cooperate with means elastic and / or rigid (33, 34 or 11) associated therewith.