FR3020870A1 - AMBIDEXTRE LOCK RIFLE - Google Patents

Abstract

A lock mechanism for a firearm, in particular for a rifle, comprises a breech housing (11) and a breech (12) slidably mounted in the breech housing (11) and comprising a cocking lever (17) and tenons of lock (36). The breech (12) comprises a breech body (24) closed at the rear by a breech plug (34) and housing a striker (30) and its percussion spring (32), the striker being able to cooperate with a relaxation system; and integrated arming means configured to return the striker to the cocking position by actuating the lever (17) in a predetermined direction of rotation. The arming means are designed to allow, selectively, a reset of the striker (30) by a rotation of the lever in the counterclockwise or hourwise direction. The cylinder head (12) can be put in place and locked in said cylinder head housing (11) with the lever (17) extending on the right or left side of the housing (11), and the cocking means are operable in these two configurations for rearming.

Description

TECHNICAL FIELD The present invention relates to the field of firearms and in particular that of rifles, and more particularly that of bolt action rifles. State of the art As is known, in the field of firearms the "bolt" ("bolt action") refers to a mechanism of the type closed yoke and whose activation is performed manually by a lever. After firing, the lever is manipulated to open the bolt, which ejects the socket, this manipulation also operating the resetting of the firing pin. A new cartridge can be inserted before performing the reverse operation to close the mechanism. A widespread latch mechanism is commercially available from Remington and includes a bolt in a cylinder head housing comprising at its base a feed window and a side discharge window. The cylinder head is comprised of a cylindrical body having a front end with a firing cup and carrying a pair of locking lugs, which cooperate with locking lugs in the housing. The bolt body accommodates the firing pin and its percussion spring. It is closed at the rear by a bolt cap and includes for its operation a cocking lever that extends in a direction transverse to the body. The firing pin is subjected to a firing pin guided axially in the cap and cooperates with a notch forming a reset cam in the rear edge of the bolt body. The striker coupling cooperates with the trigger system which holds it in the armed position. In the locked position of the breech, armed firing pin, the hitch faces the hollow of the notch and is retained by the trigger system. The pressure on the trigger tail releases the striker hitch, and therefore the firing pin that goes forward to hit the firing bowl and hit the leader of the cartridge, initiating the shot. The striker hitch is therefore found at the bottom of the notch, and is returned to position by means of the reset cam by rotation of the cylinder head, which is done during the unlocking of the cylinder head for the ejection of the socket . Such a latch mechanism is for example described in EP 1 210 559. Rifles and bolt action rifles have been known for a long time and have historically been imposed in armies; today latch mechanisms are very widely used. This mechanism is appreciated for its simple operation and therefore easy to achieve, compact, robust and reluctant to clog or jam. In addition, the closed yoke is a factor of precision. For these reasons, the vast majority of weapons used by snipers are lockguns. Precision bolt action rifles are particularly used by administrations, for example the army or special forces of the police or the gendarmerie. Conventionally, the lock mechanism is, by design, provided for manipulation by the right or left side of the cylinder head, and the rifle is equipped with a choice of a right or left lock depending on whether it is intended to a right-handed or left-handed shooter. If this does not pose a particular problem for a private user who orders a rifle for his personal use, the situation is more troublesome in the administration where different shooters may be required to use the same rifle, either in intervention or in training. Nemesis arms (California, USA) recently presented a bolt action rifle called "The Vanquish". The rifle case can operate alternately with a "right" breech and a "left" breech, and this rifle is presented as "ambidextrous".

OBJECT OF THE INVENTION It would be desirable to have an ambidextrous lock rifle that does not require the exchange / replacement of parts.

General description of the invention In accordance with the invention, a lock mechanism for a firearm, in particular for a rifle, comprises a receiver with at least one window (ejection and / or supply) and tenons locking, said cylinder head housing cooperating with a cylinder head arranged in the cylinder head housing and movable by means of a cocking lever, axially and in rotation, and comprising locking lugs. The breech comprises: a breech body closed at the rear by a breech cap and housing a striker and its percussion spring, the striker being able to cooperate with an expansion system; and integrated arming means configured to return the firing pin to the arming position by actuating the lever in a predetermined direction of rotation. According to an important aspect of the invention, the arming means are configurable to allow, selectively (at the shooter's choice), rearming of the striker by a rotation of the lever in the counterclockwise or hourwise direction, respectively; and the cylinder head can be placed in the receiver with the lever extending on the right or left side of the housing, the cocking means being operable in these two configurations for locking and rearming.

The present invention therefore proposes an ambidextrous manual latch mechanism, in which the same yoke can be mounted with the lever in the upright position, for the right-handed ones, or on the left, for the left-handed ones. This ambidextrous capacity of the cylinder head is obtained by the arming means integrated in the cylinder head, which are configurable by the user who can change the direction of rotation for arming, depending on whether the lever is positioned left or right. According to an alternative embodiment, the arming means comprise: - a firing pin guided parallel to the axis of the striker in the breech cap and adapted to cooperate with the trigger system of the weapon, - a first notch with cam rearming device at the rear of the bolt body cooperating with said coupling to allow, in a position armed with the firing pin, its forward movement, and, by actuation of the lever, to return the firing pin to an armed position; a second notch with reset cam in the rear part of the bolt body, angularly separated from the first notch, and adapted to cooperate with the striker hitch to allow, in an armed position of the striker, its forward movement, and, by actuating the lever, to return the striker to an armed position; wherein the first notch is configured to reset the striker by turning the lever clockwise and the other anti-clockwise. The breech plug is rotatably mounted on the rear end of the bolt body so as to be pivotable along the axis of the bolt, the cap fixing means on the bolt preferably allowing rotation without axial displacement. The user, after clearing the cylinder head of the housing at least in part, can thus perform a relative angular pivoting between the plug and the bolt body, to cooperate the firing pin with the first notch or the second notch, according to the desired direction of rotation for arming and thus configure the cylinder head for use on the right or left. The rotational mounting of the plug on the cylinder head body is advantageously carried out by means of a bearing comprising a ring fastened to the plug and the other to the cylinder head body. According to a preferred embodiment, the breech cap comprises a sleeve extending into the bolt body, on which is fixed the first ring of the bearing; and the second ring of the bearing is rotatably mounted around the sleeve and rotatably associated with the bolt body. The arming lever 25 then passes through the bolt body and engages in the second ring of the bearing, the lever preferably being fixed in a removable manner, for example by screwing, in particular into a threaded orifice in the wall of the bolt body. . This configuration therefore allows a rotational guiding of the bolt body driven by the movement of the lever, and without axial displacement, therefore without the risk of modifying the length of the firing pin at the level of the firing bowl.

The striker hitch is axially guided in the breech cap and, in use, the breech plug is locked in rotation in the breech housing. Preferably, the locking lugs of the yoke are 3 in number, extend for about 60 °, and are regularly distributed circumferentially on a front section of the bolt body. To guide the user in his movements, the housing comprises: - a locking path on the right side of the housing for a reset of the firing pin operated by a counterclockwise rotation of the lever; and a locking path on the left side of the housing for resetting the firing pin operated by a clockwise rotational movement of the lever. The longitudinal and / or rotational movement of the cylinder head is further advantageously assisted by conjugating shapes between the housing and the cylinder head. For example, it is possible to provide ribs in the outer surface of the cylinder head which define the longitudinal and rotary movements of the cylinder head, for right and left-hand mounting, which cooperate with a radially projecting guide pin in the receiver. Alternatively the housing may comprise axial ribs guiding the cylinder head by means of tenons, in particular when the locking means protrude from the bolt body. The present lock mechanism can be adapted for various calibers and mounted on different types of sticks and barrels, to form manually repeating rifles. DESCRIPTION OF THE FIGURES Other features and features of the invention will be apparent from the detailed description of an advantageous embodiment presented below, by way of illustration, with reference to the accompanying drawings. These show: Fig.1: a perspective view of an embodiment of the present ambidextrous cylinder-housing assembly, associated with the expansion system, the breech lever extending to the right; Fig.2: a perspective view of the cylinder head; Fig.3: a rear perspective view of the receiver housing; Fig.4: a front view of the housing; Fig.5: a left view of the case; Fig.6: a longitudinal sectional view of the cylinder head; Fig.7: a rear perspective view of the bolt body; Fig.8: a perspective view of the assembly, left-handed configuration (cocking lever on the left side - in the unlocked position); Fig.9: a perspective view of the assembly of Fig.8, bolt locked to the left; Fig.10: a perspective view of the assembly of Fig.1, bolt locked to the right. DETAILED DESCRIPTION OF THE EMBODIMENT A variant of the present ambidextrous rifle lock mechanism is illustrated in the figures. Figure 1 shows a housing and bolt assembly, generally indicated 10, forming a latch mechanism (also called "bolt action") for a firearm such as a rifle, or even a rifle. The breech housing 11 is intended to be mounted generally in the butt of the rifle at the rear of the barrel (not shown), the casing 11 having a generally cylindrical shape open at its axial ends, the front opening 14 opening into the barrel. the room (not shown). The housing 11 accommodates the yoke 12 which is threaded through the rear opening 16 of the housing 11, the yoke 12 being preferably axially guided and rotated in the housing 11 - for example by combination of shapes - during its handling using a cocking lever 17 secured to the cylinder head 12. The housing 11 here comprises 3 windows: a feed window 18 in its lower part, to receive cartridges from a store for example, a side discharge window 20 and a left side discharge window 22. The housing and the cylinder head can be made of any suitable material, for example steel, aluminum or titanium.

The cylinder head comprises a hollow cylindrical body 24, preferably one piece, whose front section 26 ends with a firing bowl 28, which in the locked position of the yoke 12 closes the rear of the chamber. The body 24, which houses a striker 30 and its spring 32, is closed at the rear by a breech plug 34 (or bolt). The body 24 still partially in front of a set of 3 locking lugs 36 which cooperate with 3 locking lugs 38 (Fig.5) in the front portion of the housing 11. The lugs 36 and 38 extend radially. The radial and angular dimensions, and the respective axial positioning of the locking lugs 36 and housing 38, are chosen so that the yoke 12 can be inserted longitudinally / axially into the housing 11 through the rear opening 16, pass the locking lugs 36 beyond the tenons of the casing 38, and that the yoke 12 is locked by pivoting the bolt body 24 by means of the cocking lever 17, so that the locking lugs 36 can rest on the lugs of the casing 38, thus forming a locked position of the cylinder head 12. In Fig.1, the cylinder head 12 is in the unlocked position; by pivoting the bolt 12 from this position clockwise by means of the lever 17, the locking lugs 36 are brought into alignment and at least partial contact with the lugs of the casing 38. In the locked position, the lever 17 is positioned in a notch 40 at the base of a locking path 42. In the present variant, the bolt body 24 comprises a cylindrical main section 43, which is axially linked by the front section 26 carrying the 3 locking pins 36 and the bowl 28, a free portion 44 of the front section 26 being preserved at the rear of the tenons 36. The 3 locking lugs 36 project radially on the front section 26 which has a diameter smaller than that of the section principal 43. They have, for reasons of symmetry, the same dimensions (height, axial depth, and angular width) and are distributed circularly in a regular manner. Preferably, each tenon 36 extends over an angular portion of 60 °, and the inter-tenon spaces are therefore 60 °. The studs 38 of the casing, which extend over angular lengths similar to the studs 36, are of suitable dimensions for passing the bolt head with the locking lugs 36. This configuration therefore limits the locking movement at an angle of 60.degree. °. In the locked position of the yoke 12, the tenons 38 of the housing 11 are positioned at the free portion 44. Note also that the front section 26 has a diameter, including tenons, which does not exceed that of the section main 43. It will be appreciated that the present lock mechanism 10 is designed to be used without difficulty by a left-handed and a right-handed, the shooter can position the cylinder head 12 in the housing 11 with the cocking lever 17 to the right or to left. To do this, the cylinder head 12 comprises an arming mechanism that can be selectively armed, that is to say at the user's choice, by a movement of the lever in the clockwise or counterclockwise direction.

Before describing this mechanism in detail, it will be noted that the breech housing 11, on the side of its rear opening 16 at least, has two locking paths 42 and 42 'arranged (preferably symmetrically) on either side of the vertical plane. V passing through the central axis of the housing, thus allowing to insert the cylinder head 12 with the lever 17 to the right or left.

The rear of the housing 11 has a cutout comprising two axial protuberances, the lower protuberance 46 being longer than the upper protuberance 48. Referring to FIGS. 1 and 3, it will be understood that these two protrusions 46, 48 delimit the deflection. angularly of the lever 17 when the yoke 12 is fully inserted into the housing 11, and thus delimit the respective locking paths for the cocking lever 17: on the right side of the housing: a "right" locking path 42 with a notch 40 for the lever mounted on the right; and on the left side of the housing: a "left" locking path 42 'with a notch 40' for the lever mounted on the left.

Whether one chooses a left-handed or right-handed mounting of the cylinder head 12, the upper position of the lever 17 against the upper protuberance 48 is the unlocked position (the tenons are not engaged). From this position, pivoting the cylinder head 12 by a predetermined angle downwards (here 60 °) makes it possible to operate its locking, the lever 17 being then in the notch 40, respectively 40 ', arranged in the rim of the inferior excrescence.

In a bolt action rifle, the firing of the firing pin is done by pivoting the lever, typically moving from the locked to unlocked position (unlocking movement), that is, the firing pin is reset at the end of the lock. the maneuver ejection case after firing.

As will be understood from the figures, the direction of rotation of the lever 17 to move from the "locked" position (Fig.10 or Fig. 9) to "unlocked" (Fig.1 or Fig. 8) is different. depending on whether the lever 17 is mounted on the right or on the left. (The right or left sides and the directions of rotation are those perceived by the shooter placed at the rear of the latch mechanism, butt side, as seen in Figures 1 and 8). The present arming mechanism integrated in the yoke 12 makes it possible to take into account this specificity of the reverse arming direction of rotation. Referring to Figs. 2 to 6, the striker 30 is housed in the bolt body 24, in which it is forced forward, that is to say toward the firing bowl 28 by means of the percussion spring 32 (generally a spring compression). The striker is centered and guided by a stepped passage 261 which opens into the firing bowl 28. The firing pin 30 is secured to a follower element referred to herein as a "firing pin" 50. The firing pin 50 is attached to the firing pin 30 of the firing pin. so as to be rigidly connected to the striker 30 in its axial displacement. In the present variant, the hitch 50 comprises a body 501 bearing a protrusion in the form of a longitudinal key 502. The body 501 comprises a threaded bore 503 along the axis A 'of the firing pin. The rear end 701 of the striker rod 30 is threaded, which allows the fixing of the striker 30 to the hitch 50 by screwing into the sleeve 501. Alternatively, the attachment of the striker to the hitch could be done by means of a pin or any other suitable means. The breech plug 34 is rotatably mounted (concentrically to the axis of the breech 12) at the rear end of the breech body 24 and includes a central bore 52 through which the striker 30. The reference numeral 53 indicates an accessible housing. from the lateral face of the plug 34, in which is placed the body 501 of the coupling 50. The housing 53, of rectangular section, is elongate along the axis A 'and thus defines an axial guide for the coupling 50 as well as a length of axial displacement thereof. The longitudinal key 502 of the coupling radially projects out of the plug 34 and extends axially beyond the body 501 towards the bolt body 24 (see Fig.2). Note also that when the yoke 12 is in the housing 11, the key 502 of the hitch 50 is housed in an axial groove 55 in the lower part of the housing 11, which blocks the plug 34 in rotation but allows the axial deflection of the hitch 50, especially for shooting. This groove 55 is arranged in part at least in the lower projection 46, and is at least partially through to allow cooperation between the striker hitch 50 and the expansion system 57. The reference sign 56 indicates a first notch in the rear edge 58 of the bolt body 12, comprising a resetting cam path 60. The coupling 50 and the notch 56 constitute a follower and cam system for resetting the firing pin 30. In operation, the bolt 12 may be pivoted by the lever 17 but the plug 34 remains fixed in the housing 11. In the configuration of Figure 2, the hitch 50 rests on the outer edge 58 of the bolt body 24 and the striker 30 is armed, respectively comes from to be reset, the lever 17 being in the configuration of Fig.1. Note that at the end of the reset, the hitch 50 is blocked by the rim 58 which prevents it from going forward. As will be understood from Fig.2, by lowering the lever 17 to place it in the notch 40 of the locking path 42, the body 24 pivots in the housing 11 and with respect to the plug 34; the hitch 50 is facing the recess of the notch 56, but does not start forward because it is retained by the trigger system 57 (the trigger). By pressing the detent tail 571, the striker 30 is released and, under the force of the percussion spring 32, goes forward, protruding into the firing bowl 28 and striking the primer of the cartridge. To evacuate the sleeve, starting from the configuration of FIG. 10, the cocking lever 17 is pivoted upwards in order to disengage the locking pins 36, bringing it into contact with the upper protrusion 48, then the Lever 17 is pulled back to extract the socket through the firing window. It is at the moment of the upward pivoting (thus counter-clockwise, arrow F1, with respect to the configuration of FIG. 10) that the firing pin 30 is reset. At the end of the firing, the firing hitch 50 (its key 502) is at the bottom of the notch 56. By pivoting the body 24 through the lever, the hitch 50 will follow the reset cam path 60 to go back on the outer edge 58 of the body, back to the position of Fig.2, noted D. It will be appreciated that the body 24 has in its rear edge a second notch 56 'comprising a resetting cam path 60' configured for resetting during a rotation in the opposite direction to that of the first notch 56, as is necessary when the lever 17 is positioned on the left side of the housing 11, and thus moves along the second locking path 40 '. The reference sign G indicates the armed rest position of the striker at the arrival of the cam path 60 '. To cooperate with the second notch 56 ', the yoke 12 is withdrawn from the housing 11 wholly or partially (at least to disengage the key 502 from the groove 55) and the breech plug 34 is manually pivoted relative to the body 24 so to bring the hitch 50 of the first armed position denoted D to the armed position G near the second notch 56 '. The yoke 12 is then inserted axially into the casing 11 (on the side of the second locking path 40 '), and by pivoting the lever 17 on the left side to lock (downwardly anti-clockwise), the body 24 pivots and the hitch 50 is facing the hollow of the notch 56 ', ready for shooting. After the firing, by raising the lever 17 (clockwise rotation, arrow F2 in Fig. 9), the hitch 50 follows the second cam track 60 'to go back to the armed position G. The rotary assembly of the bolt cap 34 is advantageously achieved by means of a bearing, for example a ball bearing, which allows to change the angular position of the plug 34 relative to the body without changing the axial distance between them, unlike a screw thread. In the present variant, the plug 34 is made of one piece and comprises a sleeve 62 which extends inside the body 24. The striker 30 is movable inside the sleeve 62. On the inner end sleeve 62 is fixedly mounted a first annular ring 64 of a bearing. It is against this ring 64 that the 32-compressed spring rests on the other side by an axial abutment 65 fixed on the striker 30. The second ring 66 of the bearing surrounds the sleeve 62 and pivots around it. The lever 17 has, for its fixing, a threaded end which is screwed into a threaded orifice 68 of the bolt body 24, the end of the lever 17 extending into a housing in the second ring 66 of the bearing. Because of this embodiment, when the yoke 12 is placed axially in the housing 11, and the plug 34 locked in rotation by its hitch 50 in the housing 11 (by the groove 55), it will be understood that the plug 34 and the first ring 64 are fixed, while the second ring 66 pivots under the action of the lever 17 integrally with the bolt body 24 (the lever 17 being fixed in rotation relative to the body 24). Some observations concerning preferred arrangements remain to be made. The bolt body 24 comprises in its lateral surface two guide and indexing grooves 70 in L for axial and rotary guiding (end of stroke) in the casing 11. These grooves 70 cooperate with a removable tenon (forming a breech stopper - Not shown) positioned at the upper protrusion 48 at the inlet of the box 11 and adapted to engage in one or other of the grooves 70. These grooves are positioned symmetrically, particularly with respect to lever 17. Thus, with reference to Fig.2, the visible groove 70 is the one used when the yoke is mounted in a left-handed position (configuration of Fig.8). The detachable tenon is disengaged from the corresponding groove to fully remove the bolt 12 from the casing 11. To facilitate its movement, the coupling preferably comprises at the bearing end of the key 502 on the bolt body 24 a rotary roller ( not shown).

In the present variant, the bore 52 of the breech plug 34 is through, which allows to exceed the rear end 301 of the striker. The dimensions are thus chosen so that the rear of the firing pin 301 protrudes from the cap 34 in the armed position (as in Figs 1, 2 and 5), and is flush when the firing pin has been released.

It is advantageous to provide a safety system integrated in the breech cap, actuable by a button 76, for selectively blocking the striker in the armed position. This button can for example cooperate with the hitch 50.

Although not shown, the yoke preferably comprises: - an extraction claw located in the front section 26 which grasps the caps of the sockets during the locking phase; and an ejector actuated by a spring. The ejector and the extraction claw are arranged to direct the ejection about the lever side, thereby ejecting the socket through the right ejection window 20 or left ejection window 22, depending on whether the cylinder head is in the right configuration (Fig.1) or left (Fig.8).

Claims (10)

REVENDICATIONS1. A lock mechanism for a firearm, in particular for a rifle, comprising: a breech housing (11) with at least one window (18, 20, 22) and locking tabs (38); a yoke (12) arranged in the receiver (11) and comprising a cocking lever (17) and locking tabs (36); said yoke (12) comprising a yoke body (24) closed at the rear by a breech plug (34) and housing a striker (30) and its percussion spring (32), the striker being adapted to cooperate with a expansion system (57); and integrated arming means configured to return the striker to the cocking position by actuating the lever (17) in a predetermined direction of rotation; characterized in that the arming means is adapted to selectively enable the firing pin (30) to be reset by a rotation of the lever counterclockwise or clockwise; and in that the yoke (12) can be put into place and locked in said cylinder head housing (11) with the lever (17) extending on the right or left side of the housing (11), and the means for armaments are operable in these two configurations for rearming. 2. Lock mechanism according to claim 1, characterized in that the arming means comprise: - a firing pin (50) guided parallel to the axis of the firing pin in the breech cap (34) and adapted to cooperate with the trigger system (57); a first notch (56) with rearming cam (60) in the rear part of the bolt body (24) cooperating with said coupling (50) to allow, in a position armed with the striker (30) and the coupling (50) facing the first notch (56), moving it forward, and, by actuating the lever (17), returning the striker to an armed position (D) by means of the reset cam (60) of the first notch; a second notch (56 ') with rearming cam (60'), angularly separated from the first (56), and adapted to cooperate with the striker hitch (50), to allow, in a position armed with the striker and the hitch (50) facing the second notch (56 '), moving it forwards, and, by actuating the lever (17), returning the firing pin to an armed position (G) by means of the cam resetting (60 ') the second notch (56'); wherein the first notch (56) is configured to reset the striker by turning the lever (17) clockwise and the second notch (56 ') counterclockwise. Locked mechanism according to claim 2, characterized in that the breech plug (34) is rotatably mounted with respect to the bolt body (24) so as to be pivotable along the axis of the bolt, preferably without displacement. axial, and thus perform a relative angular pivoting between the plug and the bolt body, to cooperate the striker coupling with the first notch (56) or the second notch (56 '). Locked mechanism according to claim 1, 2 or 3, characterized in that the cylinder head plug (34) is locked in rotation in the cylinder head housing (11). Locked mechanism according to one of the preceding claims, characterized in that the breech plug (34) is rotatably mounted relative to the bolt body (24) by means of a bearing comprising a ring (64) secured at the stopper and the other at the breech body (66). Locked mechanism according to claim 5, characterized in that the breech plug (34) comprises a sleeve (62) extending into the bolt body on which is fixed the first ring (64) of the bearing; and, the second ring (66) of the bearing is rotatably mounted around the sleeve (62) and rotatably associated with the bolt body (24). Locking mechanism according to claim 5 or 6, characterized in that the cocking lever (17) passes through the wall of the bolt body (24) and engages in the second ring (66) of the bearing, the lever arming device being preferably removably fixed by screwing. 8. latch mechanism according to any one of the preceding claims, characterized in that the locking lugs (36) of the yoke are 3 in number, each extends over about 60 °, and are distributed circumferentially on a regular basis. front section (26) of the bolt body (24). 9. latch mechanism according to any one of the preceding claims, characterized in that the housing (11) comprises: a locking path (42) on the right side of the housing, in particular for resetting the firing pin operated by a rotational movement anti-clockwise lever (17); and a locking path (42 ') on the left side of the housing (11), in particular for resetting the firing pin operated by a clockwise rotation movement of the lever (17). A firearm, in particular a rifle or rifle with manual repetition, comprising a lock mechanism according to any of the preceding claims.