FR3013439A1 - AMBIDEXTRE CULASSE OF A FIREARM - Google Patents

Abstract

The invention relates to a breech (6) for a firearm (1) which can be adapted for ejection of cartridge cases from the right or from the left. The yoke comprises a longitudinal axis, a tail (18) and a head (19) configured to fit into each other along this axis. The tail guiding the cylinder head along the longitudinal axis and the head is configured to receive the cap of a cartridge. The cylinder head comprises an extractor (25) arranged on the head and configured to grip the base of the cartridge. Angular positioning means are arranged between the tail and the head to fit said head on said tail in a first position in which the extractor is positioned to the left of a vertical plane passing through the longitudinal axis X or, conversely, in a second position according to which the extractor is positioned to the right of said vertical plane. Locking means (49) are arranged between the tail and the head to lock said head on said shank in said first and second positions.

Description

The present invention relates to a breech of a firearm, in particular of the rifle type, which has the particularity of being able to modify the configuration of this firearm in order to adapt it to the user, depending on whether this user is left-handed or right-handed. The invention therefore also relates to a firearm equipped with such a breech, including a rifle. Traditionally, a firearm includes a carcass, a buttock disposed at the rear of the carcass, a trigger system that triggers a shot by squeezing a trigger tail or trigger, a barrel provided upstream of a chamber in which is introduced a cartridge before being struck, a charger for containing cartridges. This firearm also includes a percussion system that allows to strike a primer arranged on the base of the cartridge case, to trigger the explosive charge of the cartridge and to propel its projectile out of the barrel. In addition, the firearm includes a breech system that allows in particular to introduce the cartridge into the chamber and then close the chamber before the percussion of the cartridge. This breech system also makes it possible to extract the case of the cartridge (also known as a sleeve) from the chamber following the explosion of the explosive charge, and then to eject this case by an arranged ejection window. on the carcass of this firearm. For this, the breech system comprises a yoke which is configured to receive the base of the case so as to properly position the cartridge in the axis of the barrel and guide the cartridge into the chamber. This cylinder head also includes an extractor configured to grip the base of the case so as to remove the case from the chamber during the release of the cylinder head and to promote the pivoting of the case toward the ejection window. In addition, the breech system comprises an ejector which can be arranged on the breech or on the carcass, depending on the type of firearm, this ejector being configured to exert a force on the case allowing, under the combined action extractor, rotate it towards the ejection window and then eject it. Some firearms have a single ejection window, arranged on the right or left side of the carcass. This has the disadvantage of having two designs of this firearm, one with an ejection window arranged on the left and the other with an ejection window arranged on the right, so that the weapon to fire is suitable for a left-handed user or, conversely, a right-handed user. Other firearms have two ejection windows arranged respectively on the left and right sides of the carcass for use by a left-handed user or by a right-handed user. This design requires an adaptation of the bolt system for ejection of the case to the ejection window on the left or to the ejection window located on the right side of the carcass. For this, some of these firearms provide two designs of breech, one with an extractor to the left of the breech for ejection of the case by the ejection window on the left and the other, with a extractor on the right of the cylinder head for ejection by the ejection window on the right. These firearms also require an adaptation of the ejector arranged on the breech or the carcass, in order to push and eject the case towards the ejection window to the left or right, as appropriate. Others of these firearms provide a single breech design on which the ejector is arranged. The cylinder head further comprises an extractor and two receiving zones of this extractor, one located on the left on the cylinder head for an ejection of the holster by the left ejection window and the other, located on the right on the breech for ejection of the case by the right ejection window. Depending on whether the user is left-handed or right-handed, the bolt system must be suitable for positioning and securing the extractor to the left or right receiving area. This design has a disadvantage for the gunsmith who must adapt the firearm to the left-handed or right-handed user, this gunsmith must remove and then reassemble the extractor on the cylinder head by means of a tool, for example of the hunt type. pin. In addition, the position of the ejector on the cylinder head must be adapted to be used with a position of the extractor both on the left reception zone and on the right reception zone, which leads to inaccuracy of the trajectory the case during its pivoting relative to the cylinder head and ejection out of the carcass, under the combined action of the extractor and the ejector. This has the disadvantage of providing large ejection windows on the left and right sides of the carcass of the firearm. It is sometimes necessary to provide a stop element at the ejection window to prevent the case is ejected to the shooter, because of the inaccuracy of the ejection. The present invention overcomes these disadvantages with a breech design that can be used both for ejection of the case by an ejection window located on the left of the carcass, and on the right, by changing very simply the position of the extractor on this breech, or even that of the ejector according to the design of the firearm. For this purpose, the invention relates to a firearm cylinder head which comprises a longitudinal axis X. Remarkably, the cylinder head comprises a tail and a head configured to fit into one another along the axis longitudinal X. The tail is configured to guide the cylinder head along this longitudinal axis X and the head is configured to receive the cap of a cartridge. In addition, the breech includes an extractor arranged on the head and configured to grip the base of the cartridge. These characteristics make it possible, in particular by means of a carrier arranged on the firearm, to insert the cartridge into the barrel chamber of the firearm and, thanks to the extractor, to extract the case. the cartridge out of the chamber, once the shot is made. Furthermore, angular positioning means are arranged between the tail and the head to fit said head on said tail in a first position according to which the extractor is positioned to the left of a vertical plane Pv passing through the longitudinal axis X or on the contrary, in a second position according to which the extractor is positioned to the right of said vertical plane Pv. Locking means are further arranged between the tail and the head to lock said head on said shank in said first and second positions. These additional features allow to simply change the position of the extractor to position it in front of a left ejection window or a right ejection window on the firearm. Indeed, the gunsmith or the user must simply unlock the locking means, which allows to unlock the head and release the tail, then pivoting said head relative to the tail taking into account the positioning means angular so that the extractor is disposed to the left or right of the vertical plane Pv, before recoating again the head in the tail and perform the locking between said elements. The cylinder head adaptation operation is thus very easy, without the need to dismantle the extractor, as such, vis-à-vis the cylinder head to change its position to the left or right of the vertical plane Pv before having to reassemble, said disassembly and reassembly being longer and complex. In a preferred embodiment, the yoke according to the invention comprises an ejector configured on the head to push the base of a cartridge which is received by said head. This ejector is positioned in the same radial plane Pr as the extractor and opposite to said extractor, vis-à-vis the longitudinal axis X. The alignment of the ejector and the extractor in the same radial plane Pr and in opposition to each other vis-à-vis the longitudinal axis X ensures, under the combined action of the ejector and the extractor, a pivoting of the case of the cartridge then ejection along a precise path defined in the radial plane Pr, which reduces the size of the ejection window or ejection windows on the firearm. Moreover, this design of the cylinder head according to the invention advantageously allows the ejector to be permanently maintained in the same radial plane Pr as the extractor, since these parts are secured to the head which rotates angularly with respect to the tail when a change of position of this extractor, left or right of the vertical plane Pv. According to the yoke object of the invention, the tail comprises a bored tube and the head comprises in the rear part a calibrated axis which fits into the bore of the tube. In a first embodiment of the yoke object of the invention, the positioning means comprise two first lights arranged longitudinally in the front portion of the tube and opening at the front end of the tube. In addition, the positioning means comprise a pad arranged radially in the front portion of the axis and configured to engage in one or the other of the first two lights, during the interlocking of the pin in the boring and according to the angular position of the head relative to the tail. These first lights are defined in two distinct angular positions on the tube so that the extractor is positioned to the left or right relative to the vertical plane Pv, according to the interlocking made. In a second embodiment of the yoke object of the invention, the positioning means comprise an inner tooth arranged radially along the length of the bore and two grooves arranged radially along the length of the axis. The inner tooth is configured to engage in either of the two grooves when the pin intermesh in the bore and the desired angular position of the head relative to the tail. These grooves are defined in two distinct angular positions on the axis so that the extractor is positioned to the left or right relative to the vertical plane Pv, according to the interlocking made.

According to the yoke object of the invention, the locking means comprise an opening arranged radially on the tube and opening into the bore. In addition, two cavities are arranged radially on the axis to correspond with the opening according to the angular position of engagement of the axis in the tube. Furthermore, a key is configured to nest concomitantly in the opening and one or other of the two cavities, according to said selected angular position, so as to lock the translation of the axis relative to the tube in the direction of the longitudinal axis X. According to the yoke object of the invention, it comprises a lug arranged radially on its tail. Such a lug makes it possible to ensure the rotational movement of the breech, in collaboration with a cam arranged on the carrier of the firearm, this transporter allowing the setting up and the locking of the breech against the chamber of the barrel and conversely, its unlocking and release. In addition, retraction means configured on the lug and the tail to allow the positioning of the lug in the retracted position inside the tail or, conversely, in the unobstructed position outside the tail. In the retracted position, the lug is disengaged from the cam and the bolt can be removed from the conveyor. On the contrary, in the disengaged position, the lug is engaged in the cam and the cylinder head is placed on the carrier. In addition, the locking means are configured to form a stop on which the lug bears in the retracted position inside the tail, which allows to properly maintain this lug in the retracted position during the establishment. breech in the carrier. According to the yoke object of the invention, the extractor is arranged on the head so that the rear portion of this extractor forms a radial protuberance on the front portion of the axis. In addition, the tube comprises two second lights arranged longitudinally in the front portion of the tube and opening at the front end of the tube. The protuberance is configured to engage in one or other of the two second lights when the axis is engaged in the tube and according to the angular position of the axis relative to the tube, the second lights being angularly positioned respectively in the left and right positions of the extractor relative to the vertical plane Pv. This design allows to promote an interlocking length between the axis and the larger bore, despite the partial presence of the extractor in the rear part of the head. It can further reduce the length of the front portion of the head disposed out of the tail during nesting between these elements, favoring a partial arrangement of the extractor in the rear part of the head. This promotes a stability and robustness of the breech consists of a head fitted into a tail.

According to the yoke object of the invention, comprising an ejector as mentioned above, said ejector comprises a pusher and a return spring of the pusher in the extended position at the front end of the head. The pusher and the spring are arranged longitudinally inside a through hole implemented on said head. The spring is dimensioned to open at the rear end of the shaft and to be compressed against the bottom of the bore when the head fits into the tube. This simplified design allows easy installation of the ejector when mounting the cylinder head. The invention also relates to a firearm comprising a breech system which comprises a cylinder head having one or the other of the aforementioned characteristics, object of the invention. The firearm includes a carcass and a cannon provided upstream of a chamber. The carcass may comprise a single ejection window on the right or on the left, in which case it is necessary to have two types of carcass to adapt the firearm to a left-handed or right-handed shooter. In both cases, however, the same breech object of the invention can be used and adapted according to the carcass. Preferably, the carcass will comprise two ejection windows, one on the right and the other on the left, the position of the extractor of the corresponding yoke with one or the other of the ejection windows depending on whether the firearm is prepared for a left-handed or right-handed shooter. Preferably, the breech system comprises a grooved opening arranged to allow the insertion of a cartridge into the chamber and a carrier mounted in longitudinal slide connection relative to the barrel. Moreover, the yoke comprises tenons arranged radially around the head, in its front part, so as to form a groove. These tenons are configured to pass through the grooved opening when inserting a cartridge into the chamber. A helical slide connection, or even an equivalent link, is configured between the carrier and the cylinder head to pivot said cylinder head once the tenons inserted into the chamber, at the end of travel of the conveyor, so as to lock said tenons in abutment against the opening fluted, inside the room. This design of the firearm allows the implementation of a locked breech, necessary for the use of cartridges of high powers, in order to limit the recoil of the breech under the action of the explosions of the load of the cartridge in the room, when firing.

In one embodiment of the firearm and bolt object of the invention, the carrier comprises a helically shaped light constituting a cam and the yoke comprises a lug arranged radially on said cylinder head. In addition retraction means, such as those mentioned above, are configured on the yoke to engage the lug in the light during assembly of the yoke on the carrier and to retract the lug in the cylinder head when dismounting the carrier . This simplifies the design of the carrier and facilitate the establishment of the breech in the carrier. The firearm also includes a percussion system equipped with a striker. The installation of the striker makes it possible to engage the pin in the light. Conversely, the removal of the firing pin retracts the lug in the tail of the bolt.

The features and advantages of the invention will become apparent on reading the following description of embodiment of the cylinder head object of the invention. This description is based on figures, among which: FIG. 1 illustrates an overall view of a breech system on a firearm; Figure 2 illustrates a side view of a cylinder head according to the invention, in a first embodiment; Figures 3 and 4 illustrate two exploded views of the cylinder head of Figure 2, at two different angles, and highlight an embodiment of the angular positioning means, an embodiment of the locking means and an ejector on the cylinder head ; FIG. 5 illustrates an exploded view of an embodiment variant of the yoke object of the invention, in particular angular positioning means; FIGS. 6 and 7 illustrate two front views of the breech object of the invention with the extractor positioned respectively to the left and to the right of a vertical plane Pv passing through the longitudinal axis X, and highlights the position of an ejector on the breech. As illustrated in FIG. 1, the firearm 1 comprises a breech system 2 configured to close a chamber 3 arranged upstream of a barrel 4. Of course, the firearm 1 comprises other traditional characteristics. on firearms such as, in particular, a butt, a cartridge loader and a percussion system which notably comprises a striker 5 illustrated in this FIG. 1. The object of the invention lies in the design of the breech system 2 and particularly in the design of the cylinder head 6 that includes said cylinder head system 2. The cylinder head system 2 comprises a carrier 7 which is mounted in sliding connection with the barrel 4. In the example illustrated in Figure 1 two rods 8, 9, secured to the conveyor 7, are mounted in sliding connection in two respective bores 10, 11 arranged on the rear part 4a of the barrel 4 in which the chamber 3 is arranged. One of the rods 8 or 9 constitutes , in addition, a udder translating tone along the barrel, which ensures the clearance behind the conveyor 7 under the effect of the thrust of the gases emanating from the explosion of the charge of the cartridge, which escapes from the barrel 4 by a vent (not illustrated ) arranged on said barrel 4. The implementation of such a carrier release system 7 is also known on traditional firearms. As illustrated in FIG. 1, the yoke 6 has a generally cylindrical shape having a longitudinal axis X which corresponds to the axis of the barrel 4. The yoke 6 is mounted inside the conveyor 7 so as to be able to slide with respect thereto along said longitudinal axis X. The striker 5 of the percussion system is also slidably mounted through the conveyor 7 and the yoke 6, along said longitudinal axis X. The conveyor 7 comprises a light 12 which presents more or less a helical shape, or a form of baffle, which receives a lug 13 arranged radially on the cylinder head 6. This light 12 constitutes a cam for guiding the lug 13 during a sliding of the bolt 6 vis-à-vis -vis the conveyor 7 in one direction or the other, along the longitudinal axis X. Thus, the cylinder head 6 rotates along the longitudinal axis X relative to the conveyor 7, concomitantly sliding between these two parts. What constitutes a helical slide connection, or even an equivalent connection when the light is shaped baffle. As illustrated in Figure 1, the rear end 14 of the barrel 4 comprises a grooved opening 15 which opens into the chamber 3 of the barrel 4. The yoke 6 comprises in its front portion 6a 16 studs which form a groove. The tenons 16 are sized to allow the insertion of the front portion 6a of the yoke 6 in the chamber 3, passing through the fluted opening 15. Once this front portion 6a inserted into the chamber 3, the slide connection helical arranged between the conveyor 7 and the yoke 6 rotates slightly tenons 16 along the longitudinal axis X, which allows to abut the rear ends 16a of the tenons 16 against the inner ends 17a of the teeth 17 of the fluted opening 15. Thus the yoke 6 is locked in the chamber 3 during the introduction of a cartridge in the chamber 3, before the striker 5 activates the explosive charge of the cartridge. In Figure 1, the representation of the cylinder head 6 is deliberately simplified so as not to clutter the overall view of the cylinder head system. The detailed design of the cylinder head 6 according to two non-limiting embodiments can be seen in FIGS. 2 to 7. The same references are furthermore used to describe the same characteristics on the various embodiments of the cylinder head 6. As illustrated on FIG. Figures 2 to 5, the yoke 6 comprises a tail 18 and a head 19. The tail 18 comprises a tube 20 which has a bore 21. The head 19 consists of a rear portion 19a and a front portion 19b. This rear portion 19a consists of an axis 22 which is calibrated to fit into the bore 21 of the tube 18. The shaft 22 engages completely in the bore 21 until the shoulder 23 arranged on the head 19 comes into abutment against the front edge 24 of the tube 18. Preferably, the length of the bore 21 is greater than that of the axis 22, to ensure proper fitting of the head 19 in the tail 18 .

As illustrated in Figures 1 to 7, the cylinder head 6 comprises an extractor 25 whose function is to grip the base of the case of a cartridge during positioning of the cartridge on the cylinder head 6, to extract the case of chamber 3 once the projectile of the cartridge has been fired. For this, the extractor 25 comprises at its front end a claw 26. This extractor 25 comprises a rear portion 25a which is positioned on the front portion 27 of the axis 22. Similarly, the extractor 25 comprises a front portion 25b which extends over the entire length of the front portion 19b of the head 19, the claw 26 being positioned at a small bore 28 arranged at the front end of the head 19, as illustrated in FIGS. 6 and 7. The front portion 25b of the extractor 25 is pivotably connected to the axis X1, illustrated in FIGS. 3 and 5, relative to the front portion 19b of the head 19 by means of a pin system ( not illustrated) well known to those skilled in the art. Furthermore, a spring return system (not shown) is arranged between the rear portion 25a of the extractor 25 and the front portion 27 of the axis 22. This return system, known to those skilled in the art, allows to force the pivoting of the extractor 25 along the axis X1 so as to keep the claw 26 slightly offset inside the small bore 28, as illustrated in FIGS. 6 and 7, to guarantee that the base is gripped of the cartridge case. As can be seen in FIGS. 2 to 7, the tenons 16 forming a groove on the head 19, as described above, are arranged on the front portion 19a of said head 19. In addition, the front portion 25b of the extractor 25 is interposed between two of these tenons 16a, 16b. The dimensions of the front portion 25b of the extractor 25 are smaller than those of the pins 16 so as not to interfere with the insertion of the front portion 19b of the head 19 into the chamber 3 and the abutment of the tenons 16 against the grooved opening 15, so as to ensure the locking of the cylinder head 6 in the chamber 3. As illustrated in Figures 3 to 7, an ejector 29 is arranged on the cylinder head 6. For this, the head 19 comprises a through-hole 30 arranged along an axis X2 parallel to the longitudinal axis X. The ejector 29 comprises a pusher 31 is a spring 32, illustrated in FIG. 4, which slidably engage in the through-hole 30, by the The pusher 31 comprises a shoulder 33 which is configured to abut against an inner shoulder (not shown) arranged inside the through hole 30 so that when said pusher 31 is inserted into the through hole 30 from the back of the head, alone the front portion 31a of the pusher 31 can extend and protrude from the front end of the head to be housed in the small bore 28. The front end 32a of the spring 32 abuts against the rear end 34 of the pusher 31. The length of the spring 32 is furthermore designed so that the rear end 32b of the spring 32 comes into abutment against the bottom 35 of the tube 18 inside its bore 21, during the interlocking of the shaft 22 in this Bore 21. Thus, the spring 32 is mounted in compression, which ensures the return of the pusher 31 in the extended position according to which its front portion 31a is positioned in the small bore 28. This makes it possible to push against the base of the holster. cartridge to eject it. It can be seen in FIGS. 6 and 7 that the ejector 29 is positioned in the same radial plane Pr as the extractor 25 and that the ejector 29 and the extractor 25 are arranged in opposition, respectively each on one side of the longitudinal axis X in this radial plane Pr. The claw 26 retains the base of the case of the cartridge while the ejector 29 pushes against said base, this combined action for pivoting the case relative to the claw 26, the side of the extractor 25 and in the radial plane Pr, the ejector 29 then ensuring the ejection of the case along a defined path in this radial plane Pr.

As illustrated in FIGS. 2 to 4, the tube 20 comprises three radially arranged and longitudinally extending slots 36a, 36b, 36c on the front portion 20a of the tube 20. These three lights 36a, 36b, 36c open on the front edge 24 of the tube 20, in different angular positions around the tube 20. The head 19 comprises a stud 37 arranged in the front portion 27 of the axis 22 and whose shape is complementary to that of the first two lights 36a, 36b, but not necessary the third light 36c whose function will be specified below. During the engagement of the pin 22 in the bore 21, before the shoulder 23 on the head 19 is abutted against the edge 24 of the tube 20, the stud 37 must be engaged in one or the other. other of the first two lights 36a, 36b. When the stud 37 is engaged in the first lumen 36a, the extractor 25 is positioned to the right of a vertical plane Pv passing through the longitudinal axis X, as illustrated in FIG. 7, position corresponding to the ejection of a case cartridge cartridge by an ejection window located on the left on the firearm 1. On the contrary, when the stud 37 is engaged in the second light 36b, the extractor 25 is in the position to the left of the vertical plane Pv, as illustrated in FIG. 6, position corresponding to the ejection of a cartridge case by an ejection window located on the right side of the firearm.

As illustrated in Figures 3 and 4, the rear portion 25a of the extractor 25 forms a protrusion on the front portion 27 of the axis 22. The third light 36c receives said rear portion 25a, as shown in Figure 2, when the stud 37 is housed in the first light 36a. When the stud 37 is instead housed in the second light 36b, the rear portion 25a of the extractor 25 is housed in the first light 36a. Preferably, the protruding shape of the rear portion 25a of the extractor 25 corresponds to that of the stud 37. Thus, the third light 36c is identical to the first two lights 36a, 36b. However, it would be possible to provide smaller dimensions than the stud 37 for this protruding shape, in which case the third light 36c could be smaller than the first two lights 36a, 36b, which would not disturb the insertion of this protruding shape in the first light 36a of larger dimensions. The angular positions of the three lights 36a, 36b, 36c, the pad 37, the extractor 25 and the ejector 29 will be adapted according to the position of the ejection windows on the carcass of the firearm 1.

In the embodiment of Figure 5, only changes the implementation of the angular positioning means of the extractor 25 to the left or right of the vertical plane Pv. According to this variant, the tube 20 comprises a tooth 38 which extends radially inside the bore 21, along the length of the tube 20. In addition, the axis 22 comprises two radial grooves 39a, 39b which extend along the length of the axis 22. When the pin 22 is engaged in the bore 21, the tooth 38 engages in one or the other of the two grooves 39a, 39b. When the tooth 38 is engaged in the first groove 39a, the extractor 25 is positioned to the right of the vertical plane Pv, as shown in FIG. 7. On the contrary, when the tooth 38 is engaged in the second groove 39b, the extractor 25 is positioned to the left of the vertical plane Pv, as illustrated in FIG. 6. The angular positions of these grooves 39a, 39b around the axis 22 are therefore determined so that the left and right positions of the extractor 25 relative to the vertical plane Pv correspond with those of the left and / or right ejection windows on the carcass of the firearm 1. It is noted in Figure 5 the presence of two lights 40a, 40b arranged longitudinally on the tube 20 and opening on the front edge 24 of this tube 20. These lights 40a, 40b have the same function as the lights 36a, 36c in the embodiment illustrated in FIGS. 2 to 4, in that they allow the engagement of the rear portion 25a. extractor 25, which forms a protrusion on the front portion 27 of the axis 22, in these slots 40a, 40b during the engagement of the shaft 22 in the bore 21, according to the positioning to the left or right of the extractor 25 relative vertically Pv. When the tooth 38 is engaged in the first groove 39a, the rear portion 25a of the extractor 25 is engaged in the first lumen 40a. Conversely, when the tooth 38 is engaged in the second groove 39b, the rear portion 25a of the extractor 25 is engaged in the second lumen 40b. As illustrated with reference to FIGS. 2 to 5, the tube 20 comprises an opening 41 which opens radially into the bore 21. This opening 41 comprises a first oblong portion 41a and a second circular portion 41b of larger size than the width of the oblong portion 41a. The tail 18 comprises a pin 13 which is slidably mounted in a through hole 43, along an axis X3 arranged radially and corresponding to the axis of the circular portion 41b. This lug 13 comprises a flange (not shown) configured to abut against an internal shoulder (not shown) arranged inside the through hole 43, when the firing pin 5 has been inserted into the bolt system 2, which avoids the pin 13 to pass completely through the through hole 43 and to disengage the tube 20. As shown in Figure 4, the axis 22 comprises in its rear portion 44 two cavities 45, 46 of identical design. These cavities 45, 46 each comprise a groove 47 opening on the rear end 22a of the shaft 22, and a hole 48 disposed in the extension of the groove 47. The hole 48 is of the same width as that of the groove 47. These cavities 45, 46 are arranged radially on the axis 22 in two angular positions allowing them to correspond respectively with the opening 41 on the tube 20 when the shaft 22 is fitted into the bore 21 with the extractor 25 disposed at right or left compared to the vertical plane Pv. When the extractor 25 is disposed to the right of the vertical plane Pv, as illustrated in FIG. 7, the first cavity 45 corresponds with the opening 41. Conversely, when the extractor 25 is disposed to the left of the vertical plane Pv, as illustrated in FIG. 6, the second cavity 46 corresponds to the opening 41. As illustrated in FIGS. 2, 3 and 5, the cylinder head 6 comprises a key 49 of oblong shape that fits into the oblong portion 41a of the opening. 41 when the shaft 22 is engaged in the bore 21. This key 49 comprises a stud 50 which extends inwardly of the bore 21 when said key 49 is fitted into the opening 41. The body 51 of the key 49 is oblong and has its front portion 51a which engages in the groove 47 of one or other of the cavities 45, 46, depending on the position of the extractor 25. Similarly, the stud 50 engages in the hole 48 of one or the other of the cavities 45, 46. Thus, the key 49 ensures the locking of the head 19 on the tail 18, which prevents the dislocation of the shaft 22 vis-à-vis the tube 20. The key 49 also comprises a protrusion 52, illustrated in Figures 3 and 5, which constitutes a stop configured to allow the maintenance of the pin 13 in the lower position during the introduction of the cylinder head 6 in the conveyor 7. This low position is provided to allow the proper introduction of the striker 5 in the cylinder head system 2. At the introduction of the striker 5, the pin 13 rises and is housed in the light 12 of the conveyor 7. The removal of the firing pin 5 allows on the contrary, the return of the lug in the abutment position against the protrusion 52, according to which the lug 13 is clear of the 12. Other features are possible without departing from the scope of the invention. It will be noted with reference to FIGS. 1 to 7 that the bottom 35 of the tube 20 comprises a through hole 53 disposed in the longitudinal axis X. Similarly, the head comprises a through hole 54 disposed in the longitudinal axis X. These holes opening 53, 54 concomitantly allow the passage of the firing pin 5. The conveyor 7 will also be arranged to prevent access to the locking key 49 of the head 19 on the tail 18, when the yoke 6 is put in place in the conveyor 7, so as to prohibit any disengagement of the head 19 on the tail 18 during operation of the firearm.

Claims (11)

REVENDICATIONS1. Cylinder head (6) (6) which comprises a longitudinal axis (X), characterized in that it comprises a tail (18) and a head (19) configured to fit one into the another along the longitudinal axis (X), the tail being configured to guide the cylinder head along the longitudinal axis (X) and the head being configured to receive the cap of a cartridge, said cylinder head comprising an extractor (25). ) arranged on the head and configured to grip the base of the cartridge, angular positioning means (36a, 36b, 37, 38, 39a, 39b) being arranged between the tail and the head to fit said head on said tail in a first position in which the extractor is positioned to the left of a vertical plane (Pv) passing through the longitudinal axis (X) or, conversely, in a second position in which the extractor is positioned to the right of said vertical plane ( Pv), locking means (41, 45, 46, 49) being arranged between the tail and the head for locking said head on said shank in said first and second positions. 2. Cylinder head (6) according to claim 1, which comprises an ejector (29) configured on the head (19) to push the base of a cartridge which is received by said head, said ejector being positioned in the same radial plane ( Pr) that the extractor (25) and in opposite manner to said extractor vis-à-vis the longitudinal axis (X). 3. Cylinder head (6) according to one of claims 1 or 2, wherein the shank (18) comprises a tube (20) reamed and the head (19) comprises at the rear a calibrated axis (22) which fits in the bore (21). 4. Cylinder head (6) according to claim 3, wherein the positioning means comprise two first slots (36a, 36b) arranged longitudinally on the front portion (20a) of the tube (20) and opening on the front edge (24) of the tube and, a stud (37) arranged radially in the front portion (27) of the axis (22) and configured to engage in one or the other of the first two lights during the nesting of the axis (22) in the bore (21) and according to the angular position of the head (19) relative to the shank (18), the first slots being positioned angularly on the tube so that the extractor (25) is positioned to the left or to the right relative to the vertical plane (Pv), according to the interlocking realized. Cylinder head (6) according to claim 3, wherein the positioning means comprise an inner tooth (38) arranged radially along the length of the bore (21) and two grooves (39a, 39b) arranged radially along the length of the bore. the axis (22), said tooth being configured to engage in one or the other of the two grooves when the axis is engaged in the bore and according to the angular position of the head (19) relative to the shank (18), said grooves being positioned angularly on the axis so that the extractor (25) is positioned to the left or right relative to the vertical plane (Pv), according to the interlocking made. 6. Cylinder head (6) according to one of claims 3 to 5, wherein the locking means comprise an opening (41) arranged radially on the tube (20) and opening into the bore (21), two cavities (45). , 46) arranged radially on the axis (22) to correspond with the opening according to the angular position of engagement of the axis in the tube and a key (49) configured to nest concomitantly in the opening and one or the other of the two cavities, according to said angular position, so as to lock the translation of the axis relative to the tube, along the longitudinal axis (X). 7. Cylinder head (6) according to claim 6, which comprises a lug (13) arranged radially on the tail (18), retraction means being configured on the lug and the tail to allow positioning of the lug in retracted position inside the tail or, conversely in the open position outside the tail, the key (49) being configured to constitute a stop against the pin in the retracted position. 8. Cylinder head (6) according to one of claims 3 to 7, wherein the extractor (25) is arranged on the head (19) so that the rear portion (25a) of this extractor forms a radial protrusion on the front portion (27) of the axis (22), the tube (20) comprising two second lumens (36a, 36c, 40a, 40b) arranged longitudinally at the front portion (20a) of the tube and opening on the front edge (24); ) of the tube, said protuberance being configured to engage in one or the other of the two second lumens during the interlocking of the axis in the tube and according to the angular position of the axis relative to the tube, the second lights being positioned angularly respectively in the left and right positions of the extractor (25) relative to the vertical plane (Pv). 9. Cylinder head (6) according to one of claims 3 to 8 attached to claim 2, wherein the ejector (29) comprises a pusher (31) and a spring (32) for returning the pusher in the extended position to the front end of the head (19), arranged longitudinally inside a through-hole (30) on said head (19), the spring being sized to open at the rear end (22a) of the axle (19); 22) and be compressed against the bottom (35) of the bore (21) when the head is engaged in the shank (18). 10. Cylinder head (6) according to one of claims 1 to 9, wherein the head (19) comprises in its front portion (19b) tenons (16) forming a groove. 11. A firearm (1) comprising a breech system (2) which comprises a yoke (6) according to one of claims 1 to 10.