EP0330580A1 - Cylinder crane holding device in a revolver - Google Patents

Abstract

The invention relates to a device for holding the barrel pivot of a revolver, this device having to ensure the longitudinal locking of the barrel pivot while allowing the pivot to be unlocked with a view to its dismantling. According to the invention, there is provided a stopper (42) slidably mounted in the barrel pivot (3), said stopper having an end (44) projecting below the barrel pivot (3) to engage in an associated groove (47) formed in the carcass (2) of the revolver. The stop (42) is partially accessible laterally by an oblong opening (18) of the barrel pivot (3), so as to allow unlocking of said pivot by means of an elongated tool by erasing the end (44) of the sliding stop (42). Application to the manufacture of revolvers.

Description

The present invention relates to the field of revolvers, and more particularly their barrel pivot.

According to a principle nowadays more and more widespread, the barrel pivot comprises an axis mounted rotating on the carcass of the revolver and being able to tilt parallel to the axis of the barrel between a closed position in which the axis of the barrel is in the plane of symmetry of the revolver and an open position in which the chambers of said barrel are cleared for loading or ejecting ammunition.

The invention relates more specifically to the problem of maintaining the barrel pivot when the latter is no longer in the closed position, this maintenance having to be provided to prevent the barrel pivot and the barrel which it carries from escaping forwards by sliding the pivot axis in the associated housing formed in the casing of the revolver.

Many solutions have already been proposed to solve this problem, and we will briefly recall the typical holding devices responsible for ensuring this function.

The most traditional solution adopted for the axial retention of the barrel pivot consists in providing a circular groove machined in the vicinity of the free end of the axis of the pivot, an attached holding member being then provided to penetrate this groove, and maintain the pivot without interfering with the pivoting thereof.

The retaining member is frequently a nipple screw arranged transversely: the end of this stop screw engages in the circular groove, and performs the function of retaining the pivot.

This solution has proved unsatisfactory, because the stop screw can loosen; moreover, this constitutes an apparent part, and several machining operations remain necessary.

As a variant, the stop screw was replaced by a movable cleat transversely to the axis of the pivot, this cleat being oscillating or sliding, and subjected to the action of a spring ensuring the maintenance in position. Such a system is for example illustrated in French patent No. 2,487,062. The same drawbacks are naturally found as above.

In other revolvers, a removable trigger guard is provided, supporting part of the trigger mechanism. In this case, a pin of the trigger guard was used to fulfill the function of a holding member, the end of this pin coming to engage in a circular groove (of trapezoidal section) machined in the vicinity of the free end of the pivot axis.

This solution has significant drawbacks, the main of which is the complication of the operations for dismantling the barrel pivot, since these operations necessarily involve dismantling the trigger guard.

It has also been proposed, for revolvers whose barrel with threaded ends is surrounded by a barrel (revolver with interchangeable barrels, with associated barrels), to extend down the rear part of the barrel: this made it possible to define a face of support against a portion of which was still in contact with the front face of the barrel pivot. This system has the disadvantage of providing a special sheath, with tight tolerances for the machining of its rear face; moreover, the disassembly of the barrel pivot naturally involves the prior disassembly of the sheath.

Other known systems can finally be mentioned to complete the state of the art.

US Pat. No. 2,958,151 describes a revolver whose barrel support can be released laterally, by depressing a stud serving as a barrel pivot axis. US Patent No. 975,685 describes a rotating stopper mounted in the rear part of the barrel and coaxial to it, one of the two angular positions of said stopper authorizing the release of the barrel pivot axis. US Patent No. 678,274 describes a revolver whose barrel pivot axis is fixed in rotation in the carcass, the barrel pivot being retained longitudinally by the head of a screw mounted at the end of said axis.

Finally, mention may be made of known systems in which no stopper associated with the barrel pivot is provided, as illustrated for example in American patent No. 1,518,027.

The object of the invention is to produce a device for holding the barrel pivot which is more efficient than the prior devices which have just been described, with a structure which is simpler and less expensive to obtain, rapid and easy disassembly of the barrel pivot, without affecting the precise positioning of the barrel axis in the closed position.

It is more particularly a device for holding the barrel pivot of a revolver, said pivot comprising an axis mounted rotating on the carcass of the revolver and capable of tilting parallel to the axis of the barrel between a closed position in which the axis of the barrel is in the plane of symmetry of the revolver and an open position in which the chambers of said barrel are cleared for loading or ejecting ammunition, said holding device ensuring the longitudinal locking of the barrel pivot while by allowing said pivot to be unlocked so as to be able to separate it from the carcass of the revolver, and being characterized in that it comprises a stopper slidably mounted in the barrel pivot, said stopper having a bottom protruding end of the barrel pivot for engage in an associated groove formed in said carcass, and being partly accessible laterally by an oblong opening of the barrel pivot d e so as to allow unlocking of said pivot by means of an elongated tool by erasing said end of the retainer from said associated groove.

Preferably, the sliding retainer is housed in a hole in the barrel pivot opening out at the bottom of the latter, said hole relating to the unitary assembly constituted by the barrel pivot and the axis of said pivot. In particular, the hole and the body of the retainer sliding are staggered longitudinally so as to project only part of the end of said stopper, without risk that the stopper escapes from its housing after disassembly of the barrel pivot.

According to an advantageous characteristic, the sliding stopper is permanently subjected to the action of a spring tending to project the end of said stopper out of the barrel pivot.

Preferably in this case, the spring associated with the sliding stop is also housed in the bore in which the said stop slides, said spring being placed in abutment against the upper end of the stop. In particular, the sliding retainer is essentially cylindrical, with the exception of its upper end which forms a stop accessible by the oblong opening of the barrel pivot for the purpose of unlocking said pivot by means of an elongated tool.

Advantageously, the groove formed in the carcass of the revolver has a section whose front face is conical, in order to tend to apply the barrel pivot against said carcass, thanks to the action of the projecting lower end of the sliding stop, that it is preferably conical or hemispherical; in particular, the groove is substantially provided on a semicircle, along a plane perpendicular to the plane of symmetry of the revolver. As a variant, the groove made in the carcass of the revolver has a section whose front face is straight and parallel to the direction of sliding of the sliding stop.

According to another variant, the groove formed on the carcass of the revolver has a section whose front face is straight, and the direction of sliding of the retainer is inclined, in order to tend to apply the barrel pivot against said carcass, thanks to the action of the projecting lower end of the sliding stop, the latter being preferably conical or hemispherical.

According to yet another variant, the groove formed on the carcass of the revolver has a section whose front and rear faces are straight, and the sliding retainer is of the slotted end type, to define two lips received in said groove and which can be separated by an operating member, such as a stud screw.

Finally, according to a preferred characteristic, the oblong opening of the barrel pivot is provided on the internal face of the latter, so that the unlocking of said barrel pivot is only possible in the open position of said pivot.

• - la figure 1 est une vue en perspective d'un revolver, équipé d'un dispositif de maintien du pivot de barillet conforme a l'invention, le pivot de barillet étant en position d'ouverture ;
• - la figure 2 est une vue en élévation du pivot de barillet avec son axe, sans les organes mobiles qui l'équipent tels que poussoir de déverrouil­lage, verrou et arrêtoir coulissants ;
• - la figure 3 est une coupe selon III-III de la figure 2, permettant de mieux distinguer le perçage incliné traversant de haut en bas le pivot de barillet, ledit perçage étant destiné à recevoir un verrou et un arrêtoir coulissants ;
• - la figure 4 est une vue en bout partielle du revolver de la figure 1, dont le pivot de barillet est verrouillé en position de fermeture ;
• - la figure 5 est une vue en perspective du verrou coulissant normalement monté dans le pivot de barillet ;
• - la figure 6 est une vue en perspective de l'arrêtoir coulissant normalement monté dans le pivot de barillet, ledit arrêtoir constituant l'un des moyens essentiels du dispositif de maintien conforme à l'invention ;
• - la figure 6a est un détail illustrant schématiquement la section de la gorge ménagée dans la carcasse du revolver pour recevoir l'extrémité inférieure de l'arrêtoir de la figure 6, ladite gorge présentant une face avant conique ;
• - la figure 6b est un détail illustrant une variante de la disposition précédente, avec une gorge présentant une face avant droite, parallèle à la direction de coulissement de l'arrêtoir ;
• - les figures 7 à 10 sont des vues illustrant la structure du poussoir de déverrouillage muni de son axe ;
• - la figure 11 est une coupe transversale du revolver, dont le pivot de barillet est encore en position de fermeture, mais dont le verrou coulissant présente une extrémité effacée grâce à l'actionnement du poussoir associé ;
• - la figure 12 est une coupe analogue à la précédente, en position d'ouverture du pivot de barillet, sur laquelle on a également illustré l'utilisation d'un outil allongé pour effacer l'arrêtoir du pivot de barillet en vue du déverrouillage dudit pivot (le pivot peut être alors dégagé longitudinalement, c'est-à-dire perpendiculairement au plan de la figure) ;
• - la figure 13 est une coupe analogue à celle de la figure 11, illustrant une position intermédiaire du pivot de barillet, dans laquelle l'extrémité libre du verrou coulissant rencontre à la fermeture dudit pivot une arête de la carcasse de revolver ;
• - la figure 14 est une vue en perspective illustrant la manière particuliè­rement ergonomique avec laquelle on procèdeau déverrouillage du pivot de barillet avec une seule main, en agissant sur le poussoir et en poussant simultanément sur le barillet ;
• - la figure 15 est une vue en perspective complétant la précédente, en illustrant la position d'ouverture complète du pivot de barillet, et en montrant également comment le pouce de la main avec laquelle on déverouille ledit pivot, est naturellement au niveau de la tige de l'éjecteur, de façon à éjecter rapidement les munitions ; - la figure 16 est une vue en perspective complétant la précédente, illustrant la manière avec laquelle on procède au déverrouillage du pivot de barillet en utilisant un outil allongé pour effacer l'arrêtoir coulissant de la gorge associée ;
• - la figure 17 est une vue en élévation du pivot de barillet avec son axe, analogue à la vue de la figure 2, mais selon une variante dans laquelle l'axe du perçage destiné à recevoir un verrou et un arrêtoir coulissants est incliné, en vue d'une position oblique de l'arrêtoir monté dans le pivot du barillet (l'axe de coupe III-lII est maintenu, car la figure 3 reste essentiellement valable) ;
• - la figure 18 est une variante de la figure 6, illustrant un arrêtoir à tête tronconique ;
• - la figure 18a est un détail analogue à celui de la figure 6a, illustrant le cas d'un arrêtoir oblique dont la tête, ici tronconique, coopère avec la face avant de la gorge, laquelle face avant est droite dans le cadre de cette variante ;
• - la figure 19 est une vue en perspective d'une autre variante d'arrêtoir coulissant, du type à extrémité fendue pour définir deux lèvres pouvant être écartées par une vis à téton (non représentée) reçue dans un filetage dudit arrêtoir ;
• - les figures 20a et 20b sont des détails illustrant en coupe la disposition relative entre l'arrêtoir de la figure 19 et la gorge associée, respective­ment avec les lèvres resserrées et les lèvres écartées.

Other characteristics and advantages of the invention will appear more clearly in the light of the description which follows and of the appended drawings, relating to a particular embodiment, with reference to the figures in which:

• - Figure 1 is a perspective view of a revolver, equipped with a barrel pivot holding device according to the invention, the barrel pivot being in the open position;
• - Figure 2 is an elevational view of the barrel pivot with its axis, without the movable members which equip it such as unlocking pusher, lock and sliding stop;
• - Figure 3 is a section on III-III of Figure 2, to better distinguish the inclined bore through from top to bottom the barrel pivot, said bore being intended to receive a lock and a sliding stop;
• - Figure 4 is a partial end view of the revolver of Figure 1, the barrel pivot is locked in the closed position;
• - Figure 5 is a perspective view of the sliding latch normally mounted in the barrel pivot;
• - Figure 6 is a perspective view of the sliding stop normally mounted in the barrel pivot, said stop constituting one of the essential means of the holding device according to the invention;
• - Figure 6a is a detail schematically illustrating the section of the groove formed in the carcass of the revolver to receive the lower end of the retainer of Figure 6, said groove having a conical front face;
• - Figure 6b is a detail illustrating a variant of the previous arrangement, with a groove having a straight front face, parallel to the sliding direction of the stop;
• - Figures 7 to 10 are views illustrating the structure of the release pusher provided with its axis;
• - Figure 11 is a cross section of the revolver, the barrel pivot is still in the closed position, but whose sliding lock has an end obliterated by the actuation of the associated pusher;
• - Figure 12 is a section similar to the previous one, in the open position of the barrel pivot, on which the use of an elongated tool has also been illustrated to erase the retainer of the barrel pivot for the purpose of unlocking said barrel pivot (the pivot can then be released longitudinally, that is to say perpendicular to the plane of the figure);
• - Figure 13 is a section similar to that of Figure 11, illustrating an intermediate position of the barrel pivot, in which the free end of the sliding bolt meets the closing of said pivot an edge of the revolver carcass;
• - Figure 14 is a perspective view illustrating the particularly ergonomic manner with which one proceeds to unlock the barrel pivot with one hand, acting on the pusher and simultaneously pushing on the barrel;
• - Figure 15 is a perspective view supplementing the previous one, illustrating the fully open position of the barrel pivot, and also showing how the thumb of the hand with which the said pivot is unlocked, is naturally at the level of the rod the ejector, so as to rapidly eject the ammunition; - Figure 16 is a perspective view supplementing the previous one, illustrating the manner in which the unlocking of the barrel pivot is carried out using an elongated tool to erase the sliding stop of the associated groove;
• - Figure 17 is an elevational view of the barrel pivot with its axis, similar to the view of Figure 2, but according to a variant in which the axis of the bore intended to receive a lock and a sliding stop is inclined, in view of an oblique position of the retainer mounted in the pivot of the barrel (the cutting axis III-III is maintained, since FIG. 3 remains essentially valid);
• - Figure 18 is a variant of Figure 6, illustrating a tapered head retainer;
• - Figure 18a is a detail similar to that of Figure 6a, illustrating the case of an oblique retainer whose head, here frustoconical, cooperates with the front face of the groove, which front face is straight in the context of this variant ;
• - Figure 19 is a perspective view of another variant of a sliding retainer, of the split end type to define two lips which can be separated by a stud screw (not shown) received in a thread of said retainer;
• - Figures 20a and 20b are details illustrating in section the relative arrangement between the retainer of Figure 19 and the associated groove, respectively with the lips tightened and the lips apart.

FIG. 1 illustrates a revolver comprising a carcass 2 on which is mounted a barrel pivot 3 supporting a barrel 4. The barrel of the revolver is here in one piece with the carcass thereof, but this in no way constitutes a limitation for the present invention.

As can be seen in FIG. 2, the pivot 3 comprises a barrel axis 5, the stepped bore 6 of which can conventionally receive an ejector rod 7 and the associated spring (not shown), the rod 7 ending , behind the barrel, by a star member 8. The barrel pivot 3 also comprises a pivot axis 9 having a stepped bore 10. The two main axes 11 and 12 of the barrel pivot are parallel and, when said pivot is mounted on the carcass of the revolver, the axis 11 is located in the plane of symmetry of the weapon. Conventionally, the barrel pivot 3 can tilt parallel to the axis of the barrel between a closed position in which the axis of the barrel 11 is in the plane of symmetry of the revolver 1, and an open position in which the chambers 13 of said barrel 4 are cleared for loading or ejecting ammunition.

The revolver 1 comprises a particular locking device ensuring the maintenance of the pivot 3 when the latter is in the closed position.

The locking device essentially comprises a pusher 14, the particular structure of which will be better understood with reference to FIGS. 7 to 10, and a sliding lock 15, the structure of which is more particularly visible in FIG. 5. According to a characteristic aspect of this device for locking, the pusher 14 and the sliding latch 15 are mounted on the barrel pivot 3, said pusher being accessible laterally, on the side opposite that of the tilting of the barrel 4, and cooperating directly with the sliding latch 15 to erase the end normally received, in the closed position of the barrel pivot 3, in an associated notch 16 formed in the carcass 2 of the revolver (see in particular FIGS. 4 and 11), the arrangement of the pusher 14 enabling the pivot of the barrel 3 with the same hand as that which pushes barrel 4 in the opening direction.

The unlocking pusher could be slidably mounted, however a simpler and more reliable structure is obtained by providing a pusher such as the pusher 14 illustrated here, pivotally mounted around an axis 17 parallel to the pivot and barrel axes.

Returning to FIG. 2 and to the associated cross-section of FIG. 3, there is the presence of a relatively complex recess formed inside the barrel pivot 3. An oblong slot 18 allows lateral access to the 'recess of the barrel pivot 3, this light 18 being formed on the inner face of said pivot, so that the latter is hidden when the barrel pivot is closed. There is also the presence of two through holes, one 19 opening in the upper part of the barrel pivot 3, the other 20 opening in the lower part of said pivot. As can be seen in Figure 3, the upper through hole 19 corresponds to a bore 21 ′ in which the lock 15 is slidably mounted. In FIGS. 2 and 3 there is also a blind bore 22 with an axis parallel to the axes the barrel pivot 3, said bore making it possible to receive the axis 17 of the unlocking pusher 14; in practice, the small diameter end of the axis 17 will be crimped or glued into the blind bore 22 of the barrel pivot 3. It will also be noted the presence of a blind bowl 23 intended to receive the end of a spring associated with the unlocking pusher 14, said spring being visible in FIGS. 4, 11, 12, 13.

The sliding latch 15, like the associated bore 21 ′, are preferably cylindrical for reasons of manufacturing convenience. As can be seen in FIG. 5, the latch 15 has the shape of a cylindrical rod, having an upper inclined end facet 24, and a cylindrical pin 25 at its lower end; the latch 15 also has a lateral notch 26 in the lower part thereof, so as to define a shoulder 27 allowing cooperation between the unlocking pusher 14 and the sliding latch 15.

If we now examine Figures 7 to 10, we see that the unlocking pusher 14 has an outer actuating portion 28, the upper part of which is preferably striated to facilitate actuation of the pusher; on the inner side, this actuating portion comprises, in the upper part, a blind bore 29 intended to receive the other end of the aforementioned spring, and, in the lower part, a stop face 30 normally in abutment against the barrel pivot 3 under the action of said spring. The pusher 14 also includes an internal actuating lug 31 intended to cooperate with the shoulder 27 of the sliding latch 15. The lug 31 is disposed on the other side of the pusher axis 17 relative to the outer portion d actuation 28 accessible for the operation of said pusher. As can be seen in FIGS. 4, 11, 12, 13, the actuating lug 31 passes into the lateral notch 26 of the sliding latch 15, said lug thus ensuring both the actuation of the sliding latch 15 for unlocking the barrel pivot 3, and retaining said lock in the open position of said pivot. The unlocking pusher 14 is permanently subjected to the action of a spring 32 (already mentioned above) tending to maintain it in a position in which the external actuating portion 28 projects slightly at the level of the lateral face of the pivot. barrel 3, as shown in Figure 4. In fact, the pusher 14 is held by the associated spring 32 in abutment against the barrel pivot 3 by the inner face 30 of the outer actuating portion 28 of said pusher coming to bear against an associated facet 33 of the barrel pivot 3.

The sliding latch 15 is in turn permanently subjected to the action of a spring 34 tending to push it towards the outside of the barrel pivot 3. The sliding latch 15 being housed in the bore 21 ′ of the barrel pivot 3 , the aforementioned spring 34 will preferably also be housed in said bore, and disposed under the lower end of the latch 15, in particular on the lower stud 25 thereof.

The axis 35 of the bore 21 ′ (FIG. 3) is slightly inclined relative to the plane of symmetry of the revolver 36 (FIG. 4) when the barrel pivot 3 is in the closed position: in this way, in the closed position of the said pivot barrel, we are assured of a precise bearing contact between a reference facet 37 of the barrel pivot 3 (Figures 2 and 4) and an associated facet 38 of the carcass 2 of the revolver (Figures 1 and 4), which ensures a correct geometric position of the barrel axis 5 relative to the barrel.

In Figure 4, the barrel pivot 3 is in the closed position. In this position, the upper end of the sliding bolt 15 is engaged in the associated notch 16 of the carcass, and there is a precise contact between the reference facets 37 and 38 arranged here in the plane of symmetry 36 of the revolver . The sliding latch 15 is held in this position by the action of the spring 34; the unlocking pusher 14 is itself held in a non-protruding position by the action of the spring 32. It should be noted in FIG. 4 the presence of an operating clearance preferably provided in this position between the lug d actuation 31 of the plunger and the shoulder 27 of the sliding bolt 15: this operating clearance constitutes additional security for reliable locking of the barrel pivot, since the lug of the unlocking plunger cannot counteract the action of the spring 34 in the closed position of the barrel pivot.

When the operator wishes to unlock the barrel pivot, he only has to act on the unlocking pusher 14, which automatically erases the upper end of the sliding bolt 15 from its associated notch 16. This action is illustrated in FIG. 11, on which one also distinguishes the index finger 39 from the hand of the operator who acts on the release button 14, the other fingers 40 of the same hand being as for them naturally in contact with the barrel 4 of the revolver. This position is illustrated in perspective in Figure 14: the highly ergonomic aspect of the revolver structure is clear from this figure, because the operator easily proceeds to unlock the barrel pivot with his left hand, whose fingers come naturally in a favorable position for this maneuver, the force exerted on the unlocking pusher being organized more in the same direction as the force exerted directly on the barrel of the revolver. This results in particular from the fact that the unlocking pusher is accessible laterally, on the side opposite to that of the tilting of the barrel 4, contrary to what happens for known revolvers. FIG. 15 illustrates the barrel pivot in the fully open position, and in particular shows that the thumb of the hand which opened the pivot naturally falls in front of the end of the ejector rod 7, so that the operator can easily press on this rod to eject the ammunition. All the movements of the hand causing the revolver barrel to pivot over an angular range of the order of 90 ° are completely natural and ergonomic. The replacement of the barrel is easily done, by an action with the thumb of the operator's left hand on it, while the revolver is still held in his right hand. The barrel pivot 3 with its barrel 4 is then raised until the upper end of the sliding bolt 15 comes into contact with the carcass 2 of the revolver, to arrive at the position illustrated in FIG. 13. In this position, the inclined face 24 meets an edge 41 the carcass, which makes the sliding bolt 15 penetrate inside its housing against the action of the spring 34, until one reaches the closed position in which the end of the sliding bolt can be received in the associated notch 16, thus arriving at the position illustrated in FIG. 4.

It should be noted that the known solutions for solving the problem of locking the barrel pivot conventionally include a pusher simultaneously ensuring unlocking and security, which required very tight tolerances: on the contrary, in the device which has just been described , unlocking and security are provided by two separate parts, each providing a function, which gives greater flexibility in the production of parts.

The figures of the appended drawing also illustrate an advantageous solution brought to the problem of maintaining the barrel pivot when the latter is no longer in the closed position: such maintenance must always be provided in order to prevent the barrel pivot and the barrel which it carries does not escape forward by sliding the axis of the pivot in the associated housing formed in the carcass of the revolver.

To solve this technical problem, a stopper 42 is provided, the structure of which will be better understood on examining FIG. 6. The stopper comprises an essentially cylindrical body 43, extending downwards by a lower end 44, and having in the upper part, one end forming a stopper 45; note also the presence of a blind bore 46 intended to receive the end of a spring to the action of which the stopper 42 is permanently subjected. The stopper 42 is slidably mounted in the barrel pivot 3, the sliding direction being defined by an axis 35, which may be straight, that is to say in a plane perpendicular to the main axes of the barrel pivot (Figure 2), or even slightly inclined relative to this plane (axis 135 of the variant illustrated in Figure 17). In addition, said retainer has an end 44 projecting below the barrel pivot 3 to engage in an associated groove 47 formed in the carcass 2 of the revolver (Figures 4, 11, 12, 13), while being partially accessible laterally by the oblong opening 18 of the barrel pivot 3 so as to allow the unlocking of said pivot by means of an elongated tool 100, by erasing said end of the retainer 42 from said associated groove (the unlocking tool 100 is not visible only in figure 12).

The sliding stop 42 is here housed in a bore 21˝ of the barrel pivot 3 emerging in the lower part thereof, as can be seen in FIG. 3. In fact, the bore 21˝ preferably relates to the unitary assembly constituted by the barrel pivot 3 and the axis 9 of said pivot: in practice, we first mount the pivot axis 9 (preferably fixed by gluing), then we proceed to the machining of the bore 21 ˝. The bore 21˝ and the body of the sliding retainer 42 are preferably staggered longitudinally so as to leave only one protrusion part of the end 44 of said retainer, without risk that the retainer 42 does not escape from its housing after disassembly of the barrel pivot 3. As can be seen in FIG. 3, it is advantageous to ensure that the hole 21 ′ of the sliding latch 15 and the hole 21˝ of the sliding stop 42 have a common axis 35, which considerably simplifies the machining operations. The sliding stop 42 is preferably permanently subjected to the action of a spring tending to project towards the end 44 of said stopper outside the barrel pivot 3. In particular, the aforementioned spring can be housed in the bore in which slides the sliding stop 42, said spring then being placed in abutment against the upper end of said stop. It is therefore extremely advantageous to ensure that the spring 34 acts not only on the sliding latch 1 5, but also on the sliding stop 42, as can be seen in FIGS. 4, 11, 12, 13.

Thus, for all the angular positions of the barrel pivot 3, from the closed position in FIG. 4 to the maximum open position in FIG. 12, the end 44 of the sliding stop 42 is received in the associated groove 47, under the permanent action of the spring 34, which automatically maintains the barrel pivot 3 as soon as it is no longer in the closed position.

Preferably, as illustrated in FIG. 6a, the groove 47 formed in the carcass 2 of the revolver has a section whose front face 47 ′ is conical, which tends to apply the barrel pivot 3 against said carcass, thanks to the combined action of the spring 34 and the projecting lower end 44 of the sliding stop 42. It is then advantageous to provide that this projecting end 44 has a substantially conical or hemispherical shape, so as to cooperate properly with the part before 47 ′ of the groove associated with the sliding stop. The groove 47 is moreover substantially provided on a semicircle, in a plane perpendicular to the plane of symmetry of the revolver 36. This is of course only an example, and we can just as easily provide a groove 47 whose front face 47˝ is straight and parallel to the sliding direction 35 of the sliding stop 42, that is to say perpendicular to the axis of the barrel pivot, as illustrated in FIG. 6b.

As a variant, it is possible to provide an oblique sliding stop, the head of which, hemispherical or frustoconical, cooperates with a groove whose front face is straight. The obliqueness of the stopper is obtained by providing an inclined drilling of the barrel pivot, as illustrated in FIG. 17: the axis 135 of the drilling is slightly inclined, for example at an angle of about 8 °, corresponding inclination to a lower orifice in front of the upper orifice (the other references are maintained so as not to unnecessarily complicate the presentation). The associated groove 147 of the carcass 2 then has a front face 147 ′ which is straight (FIG. 18a). The stopper used can be that of FIG. 6 (with a hemispherical head), or a stopper with a frustoconical head like that illustrated in FIG. 18: the sliding stopper 142 comprises an essentially cylindrical body 143, extending downwards by one end lower 144 forming the frustoconical head, and having in the upper part a stopper 145, without forgetting the blind bore 146 intended to receive in part the associated spring. Such an oblique pusher can give better results to ensure on the one hand a frank stop opposing the longitudinal displacement of the pivot-barrel assembly along the axis of the barrel, in the firing direction, and on the other hand a backlash between the end of the retainer and the front face of the associated groove.

The latter solution can be further improved, by avoiding having a large stroke of the retainer with regard to the possible groove depth (approximately 8 mm for 2 mm). The stopper 242 illustrated in FIGS. 19, 20a and 20b provides an interesting solution: this stopper comprises a substantially cylindrical body 243, the lower end of which is split, with two lips 248 and a central (axial) slot 249; we find the cleat 245, but the central bore 246 is at least partially threaded to receive a stud screw 250 (Figures 20a and 20b). During assembly, the lips 248 of the sliding stop 242 penetrate into the groove 247 of the carcass 2, a groove whose front faces 247 ′ and rear 247˝ are straight, the lips 248 being tightened (position in FIG. 20a ); then, the nipple screw 250 is driven in by screwing it, which has the effect of spreading the lips 248 (position in FIG. 20b). This solution makes it possible to perfectly maintain the free stop and the aforementioned backlash, by simple adjustment of the spacing of the lips of the stopper in the groove (without stopper stroke).

As has been said above, the upper end of the sliding stop 42 (respectively 142, 242) forming a cleat 45 (respectively 145, 245) is accessible by the oblong opening 18 of the barrel pivot 3, in view unlocking said pivot by means of an elongated tool 100. Such an operation is illustrated in FIG. 12, in which there is an elongated tool 100 of the Allen key type. As can be seen in FIG. 12, the operator inserts the short side of the tool through the oblong slot 18, so that the end of this short side comes into contact with the cleat 45 of the sliding stop 42, and the corner of the tool rests against the casing of the revolver. It is then easy to understand that by raising the elongated tool 100, it is possible to lift the sliding stop 42, and thus to release the end 44 of the latter from the groove 47, which has the effect of unlocking the barrel pivot 3. FIG. 16 illustrates this manipulation in perspective, and shows in particular the ergonomic nature of the device due to the natural position of the operator's left hand, the thumb of which can easily push the barrel pivot assembly forward for its release. The reassembly of the pivot will be done naturally with the reverse operations: we start by installing the pivot-barrel assembly, until the projecting end 44 of the sliding stop 42 comes into abutment against the carcass, then we use the elongated tool to erase this end and let it penetrate the associated groove made in the carcass.

It is easy to understand that the pivot-barrel assembly, after dismantling the latter, remains unitary, without the risk of the movable members of the latter escaping: the unlocking pusher 14 is permanently secured by its axis to the barrel pivot 3, the sliding bolt 15 is retained by the lug 31 of said unlocking pusher, and finally the sliding stop 42 is retained by the shoulder of the stepped bore provided in the lower part of the barrel pivot. There is therefore no risk of losing a part when this assembly is dismantled and handled.

It should be noted that the holding device which has just been described is much more satisfactory than the prior devices, and in particular than the traditional solution which consisted in providing a circular groove machined on the pivot axis and into which a stop screw. The permanent action of the spring 34 guarantees reliable retention of the barrel pivot relative to the carcass of the revolver. The structure of the holding device is also simple and inexpensive to obtain, and the disassembly of the pivot can be carried out easily and quickly.

The above description shows that the invention provides a large number of advantages, thanks to the small number of parts required, for which the manufacturing tolerances are also wider, which leads to maneuvers as easy as ergonomic. for unlocking the barrel pivot and / or dismantling the pivot-barrel assembly.

The invention is not limited to the embodiment which has just been described, but on the contrary encompasses any variant incorporating, with equivalent means, the essential characteristics appearing in the claims.

Claims (13)

1. Device for holding the barrel pivot of a revolver, said pivot (3) comprising an axis (9) mounted rotating on the carcass (2) of the revolver and capable of tilting parallel to the axis of the barrel between a closed position in which the axis (11) of the barrel (4) is in the plane of symmetry of the revolver and an open position in which the chambers (13) of said barrel are released for loading or ejecting ammunition, said device holding ensuring the longitudinal locking of the barrel pivot (3) while allowing unlocking of said pivot so as to be able to separate it from the carcass (2) of the revolver, and being characterized in that it comprises a stopper (42, 142, 242) slidably mounted in the barrel pivot (3), said retainer having one end (44, 144, 244) projecting below the barrel pivot (3) to engage in an associated groove (47, 147, 247) in said carcass, and being partially accessible from the side ement by an oblong opening (18) of the barrel pivot (3) so as to allow unlocking of said pivot by means of an elongated tool (100) by erasing said end of the retainer (42, 142, 242) from said associated throat. 2. Device according to claim 1, characterized in that the sliding retainer (42, 142, 242) is housed in a bore (21˝) of the barrel pivot (3) emerging in the lower part thereof. 3. Device according to claim 2, characterized in that the bore (21˝) relates to the unitary assembly constituted by the barrel pivot (3) and the axis (9) of said pivot. 4. Device according to claim 3, characterized in that the bore (21˝) and the body of the sliding retainer (42, 142, 242) are stepped longitudinally so as to leave only a part of the end (44, 144, 244) of said retainer, without risk that the retainer (42, 142, 242) escapes from its housing after disassembly of the barrel pivot (3). 5. Device according to one of claims 1 to 4, characterized in that the sliding stop (42, 142, 242) is permanently subjected to the action of a spring (34) tending to project the end (44, 144, 244) of said retainer outside the barrel pivot (3). 6. Device according to claims 4 and 5, characterized in that the spring (34) associated with the sliding stop (42, 142, 242) is also housed in the bore in which slides said stopper, said spring being arranged in support against the upper end of the retainer (42, 142, 242). 7. Device according to claim 6, characterized in that the sliding retainer (42, 142, 242) is essentially cylindrical, with the exception of its upper end which forms a cleat (45, 145, 245) accessible by the oblong opening (18) of the barrel pivot (3) for unlocking said pivot by means of an elongated tool (100). 8. Device according to one of claims 1 to 7, characterized in that the groove (47) formed in the carcass (2) of the revolver has a section whose front face (47 ′) is conical, to tend to apply the barrel pivot (3) against said carcass, thanks to the action of the projecting lower end (44) of the sliding stop (42), the latter being preferably conical or hemispherical. 9. Device according to one of claims 1 to 7, characterized in that the groove (47) formed in the carcass (2) of the revolver has a section whose front face (47˝) is straight and parallel to the direction sliding (35) of the sliding stop (42). 10. Device according to one of claims 1 to 7, characterized in that the groove (147) formed on the carcass (2) of the revolver has a section whose front face (147 ′) is straight, and that the direction of sliding (135) of the retainer (142) is inclined, to tend to apply the barrel pivot (3) against said carcass, thanks to the action of the projecting lower end (144) of the sliding retainer ( 142), the latter being preferably conical or hemispherical. 11. Device according to one of claims 1 to 7, characterized in that the groove (247) formed on the carcass (2) of the revolver has a section whose front (247 ′) and rear (247˝) faces are straight, and that the sliding retainer (242) is of the split end type (244), to define two lips (248) received in said groove and which can be separated by an operating member, such as a stud screw ( 250). 12. Device according to one of claims 8 to 11, characterized in that the groove (47, 147, 247) is substantially provided on a semicircle, along a plane perpendicular to the plane of symmetry of the revolver (36). 13. Device according to one of claims 1 to 12, characterized in that the oblong opening (18) of the barrel pivot (3) is provided on the internal face of the latter, so that the unlocking of said pivot barrel is only possible in the open position of said pivot.

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