Patent Application
20250180312
This application claims priority from European Patent Application No. 23425064.5, filed Dec. 1, 2023, the entire disclosure of which is incorporated herein by reference.
The present invention concerns in general a firearm with a break-barrel group, in particular a long firearm, such as a rifle, with a closing device suitable for preventing the barrel group from tilting.
“Rifle” type firearms have been around for decades in many different forms and types. Various types of rifle have been developed for many types of shooting. For example, and without limitations, there are single-shot shotguns, double-barrelled shotguns (double shotgun), over/under shotguns, bolt-action shotguns, semi-automatic shotguns, and so on. Technology continues to evolve to meet the diverse needs of the shooting enthusiasts. Many factors are taken into account in the design of single- or double-barrelled rifles, including appearance, weight, sensitivity, ease of use, end-use, and individual shooter's preferences.
In the single- and multi-barrelled rifles, a break-barrel group is generally provided to allow the extraction of casings as well as the refilling of new cartridges. In such firearms, therefore, there is typically also a closing device that has the function of allowing or preventing the barrel group of the firearm from tilting with respect to the body of the rifle, also known as the “frame”.
Typically, the closing devices are positioned inside the firearm except for an actuation element, generally known as an opening lever or “lever”, i.e. a manual mechanical member that protrudes outwards to be actuated by the user. Typical closing devices of the state of the art include the longitudinally moved latch, the transversely moved bolt and the longitudinally moved bolt.
The externally operable actuation elements are generally configured to move the latch or the bolt, as the case may be, between a release position in which the tilting of the barrel group is not hindered and a locking position in which such tilting is prevented. Typically, in the locking position, the bolt or the latch protrudes at least partially from the rifle body to engage corresponding shapings made on the barrels. In the release position, the bolt or the latch is retracted inside the rifle body, not engaging the barrels, which are thus free to tilt with respect to said rifle body.
The known closing devices have a number of unresolved disadvantages. In particular, the complexity of the known closing devices provided with elastic elements that work off-axis, typically leads to movements of the latch or bolt that are not completely linear or completely balanced, resulting in a high degree of wear.
Last but not least, the known closing devices are characterized by a certain structural complexity that makes their assembly on the frame body laborious and scarcely automatable.
In light of the above, the problem underlying the present invention is to devise a firearm with a break-barrel group that can be controlled to open and close effectively and functionally.
Within the scope of this problem, an object of the present invention is to make a firearm with a break-barrel group whose closing device is particularly reliable.
A further object of the present invention is to study a firearm with a break-barrel group whose closing device is poorly subject to wear and has a longer life cycle than the state of the art.
Yet another object of the present invention is to design a firearm with a break-barrel group that is versatilely actuatable and adaptable to a plurality of actuation elements.
In accordance with a first aspect thereof, the invention therefore concerns a firearm comprising at least one frame and a barrel group, wherein the barrel group comprises at least one barrel and is mounted in a tilting manner with respect to the frame. The frame houses at least one closing device configured to act between the frame and the barrel group so as to selectively prevent the barrel group from tilting with respect to the frame.
According to the present invention the closing device comprises:
The Applicant has identified that by making the closing device with a pair of mutually independent clamping elements, each associated with a respective buffer capable of exerting an axial thrust force in parallel to and/or substantially along the development axis of the respective closing element, it is possible to considerably reduce the wear of both clamping element itself and of the seat in which it is housed.
The Applicant has therefore studied a solution which, despite its only apparent simplicity, is able to reliably maintain the firearm in its own closed configuration. At the same time, the particular closing device studied by the Applicant allows a return to the open configuration in an effective and functional manner.
Last but not least, the elements that make up the closing device have a structure that can be advantageously actuated in a versatile manner through actuation elements of different types, such as a rotatable lever or a translatable slider.
The present invention may have at least one of the preferred following features; the latter may in particular be combined with one another as desired in order to meet specific application needs.
In a variant of the invention, each buffer of the pair of buffers comprises a support carrying a first elastic element interposed between the support and a respective clamping element, wherein optionally the support comprises a first shank shaped to carry and/or cooperate with the respective first elastic element in exerting the axial thrust force and a second shank shaped to achieve a stable coupling to the frame.
In a variant of the invention, each buffer of the pair of buffers is mounted on a respective side of a rear portion of the frame.
Advantageously, the specific construction of the support of the buffer and its particular positioning facilitate mounting the buffer on the frame, thus making it possible to easily implement an automation of the production operations of the firearm.
In a variant of the invention, each clamping element of the pair of clamping elements is housed inside the frame in a sliding manner between a position in which a first end part of the clamping element protrudes towards a housing seat of the barrel group located at a front portion of the frame and a position in which the first end part is retracted and substantially does not protrude into the housing seat of the barrel group.
Advantageously, such positioning allows to pass from a locking condition of the barrel group in which the first end part is positioned so as to be able to engage a portion of the barrel group, for example a hook, to a condition in which the release of the barrel group is ensured in the absence of jamming or blockages.
In a variant of the invention, the closing device comprises a manoeuvring group configured to impart to each clamping element of the pair of clamping elements a force in opposition to a force exerted by a buffer on the respective clamping element.
In one embodiment of the invention, wherein the manoeuvring group comprises an actuation element arranged externally to the frame, wherein the actuation element is made as an opening lever and is coupled to an upper end of a control shaft housed internally to the frame in a rotatable manner about a rotation axis, wherein a lower end of the control shaft is coupled to each of the pair of clamping elements, so that a rotation of the control shaft imparted through the lever actuation element causes a translation of the clamping elements in opposition to the force exerted by the respective buffer.
Preferably, the lower end of the control shaft comprises:
Advantageously, the embodiment with lever actuation element ensures that with a rotational movement of the same, the control shaft acts uniformly on both clamping elements, applying an opposing substantially coaxial to the thrust force of the buffers. In this way, no moments are created on the clamping element that could lead to wear or degradation of the seat thereof.
In one embodiment of the invention, the manoeuvring group comprises an actuation element arranged externally to the frame, wherein the actuation element is made as a slider movable in translation in the direction of a front portion of the frame and is coupled to a lever mechanism inside the frame that engages the pair of clamping elements, so that an advancement of the slider actuation element towards the front portion of the frame causes a translation of the pair of clamping elements in opposition to the force exerted by the respective buffers.
Advantageously, also the embodiment with slider actuation element ensures that the lever mechanism acts uniformly on both clamping elements, applying an opposing substantially coaxial to the thrust force of the buffers. In this way, no moments are created on the clamping element that could lead to wear or degradation of the seat thereof.
Preferably, the lever mechanism cooperates with a releasable locking rod housed in the frame movably along its own rod axis and configured to retain the lever mechanism in an engagement position corresponding to a position of maximum translation of the pair of clamping elements in opposition to the force exerted by the respective buffers.
Advantageously, the locking rod reliably ensures that the lever mechanism maintains the engagement position at which the pair of clamping elements is maintained in a maximum backward configuration from the housing seat of the barrel group.
More preferably, the releasable locking rod cooperates with a release rod housed in the frame movably along its own rod axis, between a configuration of greater protrusion from the frame at the housing seat of the barrel group in which it does not cooperate with the releasable locking rod and a configuration of lesser or no protrusion from the housing seat of the barrel group in which it cooperates with the releasable locking rod to disengage it from the lever mechanism.
Advantageously, thanks to the protrusion condition of the release rod from the housing seat, said release rod is actuated by the barrel group itself, when the latter is returned to the closed configuration in which it engages said seat. In this way, therefore, by returning the barrel group to the closed position, there is an automatic release of the lever mechanism from the locking rod.
Further characteristics and advantages of the present invention will become clearer from the following detailed description of some preferred embodiments thereof, made with reference to the appended drawings.
The different features in the individual configurations can be combined with each other as desired according to the following description, if the advantages resulting specifically from a particular combination are to be availed of.
In such drawings:
a are, respectively, a perspective sectional view along a second vertical plane of the parts of the firearm shown in
For the illustration of the drawings, use is made in the following description of identical numerals or symbols to indicate construction elements with the same function. Moreover, for clarity of illustration, certain references may not be repeated in all drawings.
While the invention is susceptible to various modifications and alternative constructions, certain preferred embodiments are shown in the drawings and are described hereinbelow in detail. It must in any case be understood that there is no intention to limit the invention to the specific embodiment illustrated, but, on the contrary, the invention intends covering all the modifications, alternative and equivalent constructions that fall within the scope of the invention as defined in the claims.
The use of “for example”, “etc.”, “or” indicates non-exclusive alternatives without limitation unless otherwise indicated. The use of “comprises” and “includes” means “comprises or includes, but not limited to”, unless otherwise indicated.
In addition, measurements, values, shapes and geometric references (such as perpendicularity and parallelism), when associated with words such as “about” or other similar terms such as “almost” or “substantially”, are to be understood as “unless there are measurement errors” or “unless there are inaccuracies due to production and/or manufacturing errors” and, above all, “unless there is a slight deviation from the value, measurement, shape or geometric reference to which it is associated”.
Moreover, the use of terms such as “first”, “second”, “main” and “secondary” does not necessarily identify an order, a relationship priority or relative position; these terms can simply be used to distinguish between similar components.
Last but not least, relative positioning terms such as “upper”, “lower”, “front”, “rear” or “side” generally refer to the normal configuration of use, in this specific case to the grip configuration of the firearm in order to proceed with shooting.
With reference to
The firearm 10, hereinafter for brevity's sake also “weapon 10”, comprises a frame 11 to which a stock 14 and a barrel group 12, illustrated in
The barrel group 12 comprises at least one barrel extending along a longitudinal development axis A of the barrel. By way of example, but not limitation, in the illustrated embodiments, the barrel group 12 comprises two overlapping barrels extending along the longitudinal development axis A. However, in alternative embodiments, the barrel group may comprise a single barrel or two side-by-side barrels.
The frame 11 houses therein a trigger device configured to trigger the firing of a cartridge and a closing device 30 configured to selectively prevent the barrel group 12 from tilting with respect to the frame 11. For clarity of illustration,
By way of example, the trigger device (shown with reference to the embodiment of
The closing device 30 is configured to act between the frame 11 and the barrel group 12, when the firearm 10 is in the closed configuration; in particular, the closing device 30 is manoeuvrable between a locking position (shown in detail in
In a preferred embodiment illustrated in detail in
As shown in
In particular, the clamping elements 31′,31″ are housed inside the frame 11 in a sliding manner between a position in which a first end part 31a of the clamping element 31′,31″ protrudes towards a housing seat of the barrel group 12 located at the front portion 11d of the frame and a position in which the first end part 31a is retracted and substantially does not protrude into the housing seat of the barrel group 12.
Consequently, when the barrel group 12 is in the closed position, the clamping elements 31′,31″ engage a respective hook 13 made on the barrel group 12, as shown in
The closing device 30 also comprises a pair of buffers 32, 33 each mounted on a respective side 11b of the rear portion 11c of the frame 11. Each buffer 32, 33 comprises a support 32 carrying a first elastic element 33, interposed between the support 32 and a respective clamping element 31′,31″ and exerting an axial thrust force on the respective clamping element 31′,31″ substantially in parallel to and/or substantially along the longitudinal development axis B′,B″ thereof, so that, in the absence of applied forces, the clamping elements 31′,31″ protrude from the frame 11 with their first end part 31a, towards the housing seat of the barrel group 12.
Referring also to
The upper shank 32a is shaped so as to counteract a thrust exerted along the longitudinal development direction of the respective clamping element 31′,31″ in opposition to the force exerted by the first elastic element 33. Advantageously, each buffer 32,33 is shaped to exert on the respective clamping element 31′,31″ a force substantially linear and parallel to the longitudinal development axis B′,B″ of the clamping element 31′,31″ itself. In this way, the wear of the clamping element 31′,31″, as well as of the seat in which it is housed are reduced to a minimum.
The closing device 30 further comprises a manoeuvring group 40, 50 configured
to impart to each clamping element 31′,31″ of the pair of clamping elements a force in opposition to a force exerted on each clamping element 31′,31″ by the respective buffer 32, 33.
In the embodiment of
In particular, the lower end of the control shaft 36 comprises a first peg 37 configured to engage a seat 38 made on an insert 39 in turn configured to engage a first clamping element 31′. To this end, the first clamping element 31′ comprises a through hole 34 complementary to the insert 39 and configured to receive it therein in the substantial absence of plays. In alternative embodiments not illustrated, the seat 38 is made directly on the first clamping element 31′ or on an element integral thereto.
In this way, when the control shaft 36 is brought into rotation by actuating the opening lever 35, the first peg 37 transfers to the first clamping element 31′ a substantially longitudinal thrust exerted in proximity to the longitudinal development axis B′ of the first clamping element 31′.
The lower end of the control shaft 36 further comprises a second peg 41 configured to cooperate with a profile made at a first end of an arm 42 pivoted on the frame 11. A second end of the arm 42 engages a first pin 43 housed in a cavity (not illustrated) made on a second clamping element 31″. In this way, when the control shaft 36 is brought into rotation, by acting on the opening lever 35, the second peg 41 cooperates with the profile of the pivoted arm 42, bringing the arm 42 into rotation. The rotation of the arm 42 causes on the first pin 43 a tangential thrust along a direction substantially coinciding with the longitudinal development axis B″ of the second clamping element 31″.
In this way, therefore, a rotation of the control shaft 36 about the rotation axis C cause on both clamping elements 31′,31″ the application of a substantially linear thrust force, substantially at the height of the respective development axis B′,B″. These forces lead both clamping elements 31′,31″ to move backward, retracting the respective first end part 31a and decoupling it from the corresponding hook 13.
b show a second preferred embodiment of a firearm according to
the present invention which differs from the first embodiment, in particular for the manoeuvring group 50 of the closing device 30.
Similar to the first embodiment, the closing device 30 is configured to act between the frame 11 and the barrel group 12 (shown in
Also in the preferred embodiment of
In particular, when the barrel group 12 is in the closed position (shown in
In line with what is described in relation to the first embodiment, the closing device 30 comprises a pair of buffers 32, 33 in turn each comprising a support 32 mounted on a respective side 11b of the rear portion 11c of the frame 11 and a first elastic element 33. Each support 32 supports the first elastic element 33 in a position interposed between the support 32 and a respective clamping element 31′,31″ and so that the first elastic element 33 exerts on the respective clamping element 31′,31″ a linear thrust force substantially parallel and/or substantially along the longitudinal development axis B′,B″ of the clamping element 31′,31″.
The manoeuvring group 50 of the closing device 30 of the firearm in accordance with the second embodiment comprises an actuation element made as a slider 51 arranged externally to the frame 11 at the rear portion 11c of the frame and movable in translation in the direction of the front portion 11d of the frame. The slider 51 is coupled to a first lever 52 of a lever mechanism 52, 53 inside the frame 11 so as to advance it towards the front portion 11d of the frame 11 up to an engagement position. In the engagement position, the first internal lever 52 engages a releasable locking rod 57 configured to retain the first internal lever 52 in the advanced engagement position.
The first internal lever 52 is in turn hinged to a pair of second internal levers 53 of the lever mechanism 52, 53 at a first end thereof. In particular, the first internal lever 52 is coupled to the second internal levers 53 so that an advancement of the first internal lever 52 towards the engagement position causes a rotation of the second internal levers 53 around a pivot 55 and at the same time around a respective fulcrum pin 54 placed in an intermediate position with respect to the extension of the respective second internal lever 53.
Each of the second internal levers 53 engages, at its own second end, a respective clamping element 31′,31″ so that, when the second internal levers 53 are brought into rotation by the advancement of the first internal lever 52, the clamping elements 31′,31″ are made to translate in opposition to the force exerted by the respective buffer 32, 33. In this way both clamping elements 31′,31″ move backward, retracting the respective first end part 31a and decoupling it from the corresponding hook 13.
To this end, the second end of each second internal lever 53 engages a groove 44 located at a second end part of the respective clamping element 31′,31″ opposite the first 31a so as to drag said clamping element 31′,31″ into translation when the second internal lever 53 is brought into rotation.
The releasable locking rod 57 is housed in the frame 11 according to an arrangement substantially orthogonal to the base wall 11a of the frame 11 and movably along its own rod axis. The releasable locking rod 57 is normally kept in a position away from the base wall 11a by a second elastic element 58 and is guided in its translation by a second pin 46 which also acts as an end-of-stroke. The advancement movement of the first internal lever 52 causes a temporary displacement of the releasable locking rod 57 towards the base wall 11a, which takes on again the distanced position once the first internal lever 52 reaches the engagement position. In such a configuration, the locking rod 57 retains the first internal lever 52 in the engagement position. In fact, the first internal lever 52 is in abutment against a step portion obtained at a free end of the locking rod 57.
In order to release the first internal lever 52 from the engagement position, the closing device 30 comprises a release rod 59, housed in the frame 11 according to an oblique arrangement with respect to the base wall 11a of the frame 11 and movably along its own rod axis, between a configuration of greater protrusion from the frame 11 at the housing seat of the barrel group 12 (shown in
The release rod 59 is normally held in the position of greater protrusion by a third elastic element 56 and is brought into the position of lesser or no protrusion by the barrel group 12, when this engages its own housing seat provided at the front portion 11d of the frame. In this way, advantageously, by bringing the barrel group 12 into the closed position there is an automatic release of the first internal lever 52 from the locking rod 57. The clamping elements 31′,31″ are therefore no longer forced by the set of internal levers 52, 53 in the position with the first end part 31a retracting; on the contrary they are returned by the respective first elastic elements 33 into the protruding locking position, with coupling with the hooks 13 of the barrel group 12. This also results in an automatic return of the internal levers 52, 53 into the initial positions.
In order to ensure that in the open position of the barrel group 12 the trigger device is inoperative, the slider-like actuation element 51 comprises a lower portion shaped so as to cooperate with a safety element 45 arranged internally to the frame 11. The safety element 45 is made as a sheet metal and has an L-shaped profile. The safety element 45 is arranged in the frame in an oscillatable manner between a rest position in which the safety element 45 does not interfere with the group of trigger elements and a safety position in which it interferes with the group of trigger elements so as to make it inoperative. Advantageously, the slider-like actuation element 51 and the safety element 45 cooperate so that an advancement of the slider element 51 in the direction of the front portion 11d of the frame causes an oscillation of the safety element 45 such as to bring it into the safety position.
| Number | Date | Country | Kind |
|---|---|---|---|
| 23425064.5 | Dec 2023 | EP | regional |
