The invention relates to the technical sector of firearms, and in particular repeater rifles with manual or automatic reloading.
Such a firearm generally comprises a receiver; a barrel mounted with one end on the receiver; in this end a chamber to house a cartridge, a breech equipped with a loading lever mounted, in a way so that it can slide, in the receiver in the prolongation of the barrel between an open position enabling a cartridge to be loaded into the chamber of the barrel and a closed position pressed against the barrel; a bolt associated with the breech enabling the cartridge to be locked in the chamber; and at least one return spring to return the breech to its closed position.
Such a rifle is loaded by the movement of the breech from the back to the front, i.e. from the open position of the breech to the closed position of the breech under the effect of the return spring.
This movement of the breech carries a new cartridge from the magazine or a new cartridge placed manually in front of the chamber of the barrel in order to introduce it into the chamber. This movement also brings about the rotation of the bolt to lock the cartridge in the chamber before firing.
The reverse movement of the breech from the front to the back, i.e. the backward movement, unlocks the cartridge in the chamber of the barrel and extracts this cartridge from the chamber in order to be able to put a new cartridge in the chamber or to enable maintenance of the weapon.
The backward movement of the breech can be effected manually by operating the loading lever to empty the weapon or to feed a new cartridge into the chamber, or automatically or semi-automatically by using the pressure of the gases developed by the combustion of the powder in the cartridge during firing.
To effect the backward movement, the user must overcome the tensile force of the return spring.
In known weapons, the return spring is a conventional compression spring whose resistance to the backward movement increases progressively during the backward movement towards the rear, requiring an increasing effort.
This increasing effort generally leads to a lack of comfort and a loss of stability between shots.
The patent application GB09914 of 1912 discloses a fire arm utilising a return spring for the breech, fixed with one end to the breech and with the other end to a fixed shaft, the spring having the form of a torsion spring formed by a flat strip wound around a shaft in the form of a spiral, the windings not being in mutual contact in order for the spring to exert a torsion.
The return spring disclosed in GB 09914 is complex to manufacture, the cross-section of the strip not being constant. The pulling force exerted by the spring is moreover not constant.
The purpose of the invention is to overcome these disadvantages and to provide a simple and safe reloading device when the mobile breech automatically returns to its closed position as soon as it is no longer retained by the shooter via the loading lever.
This purpose is achieved according to the invention by a firearm as described above, characterised in that the return spring is a tension spring of the constant force type, which is mounted between the breech and a fixed support with respect to the receiver and the barrel.
Contrary to the use of a conventional compression spring, the characteristic of the constant-force spring is that the user feels a constant resistance while the breech moves backwards to disarm the weapon, which results in greater comfort of use and greater stability between shots.
The constant-force return spring is preferably composed of a flat strip wound around itself around a winding axis which is transversal to the axis of the barrel in the form of a flat spiral with joined windings which are in mutual contact.
During the backward movement of the breech, the spiral unwinds while being able to freely rotate around its winding axis, the inner free end of the return spiral not being retained from rotating, which involves a practically constant retaining force to resist the unwinding.
Preferably the spring is mounted on a bobbin in a way that it can freely rotate around a transverse shaft mounted in the housing, with the outer end of the spring being fixed to the barrel, preferably at the level of the forend support that the barrel is generally provided with.
The outer end of the spring may be fixed to the barrel by means of a positioning shaft that extends parallel to the axis of the barrel and in a centring hole provided in the housing when it is in the closed position.
The breech-housing assembly is thus centred each time that a cartridge is loaded in the chamber of the barrel.
Depending on the force required to load a cartridge in the chamber, and according to the available space in the forend, several constant-force springs may be used whose forces are combined.
According to a specific embodiment of the invention, the spring is confined in a housing that is associated with the breech, and which is mounted, in a way so that it can slide, in the forend by means of at least one side runner connecting the housing to the breech.
In this way the spring is protected against any infiltration of dirt that could hamper its good operation and allows a compact build of the firearm.
For greater clarity, an example embodiment of a firearm with improved reloading according to the invention is described hereinafter by way of an example, without any limiting nature, with reference to the accompanying drawings, wherein:
The firearm 1 shown in the drawings as an example is a linear-bolt rifle essentially comprising:
In the case of the example shown, each return spring 15 consists of a tape or flat strip 16 with a constant rectangular section and wound on itself around a winding axis Y-Y′ which is transversal to the axis of the barrel, the spring being wound in the form of a flat spiral with the windings close to one another or in mutual contact.
Each return spring 15 is mounted on a bobbin 17 so that it can turn around a transverse shaft 18 which is coaxial with the winding axis Y-Y′ and perpendicular to the axis X-X′ of the barrel 6 and to the general plane of symmetry of the firearm 1 in such a way that the free inner end 19 of the spring 15 is allowed to rotate freely around the axis Y-Y′.
The free outer end 19′ of each spring 15 is folded at an angle and is provided with a passage for a positioning shaft 21 that is provided with a head 22 of a larger diameter that is housed in a hole of the forend support 12, and which is kept in place by a locking screw 24.
The free end 19′ of the springs 15 are fixed to the barrel by means of a holding plate 25, which is slid on the positioning shaft 21 and which is kept in place by a retaining circlip 26.
The positioning shaft 21 extends parallel to the axis X-X′ of the barrel 6 opposite a centring hole 27 of the housing 13, with the positioning shaft 21 being provided with a conical entrance 28.
The firearm may be equipped with a magazine 19, shown schematically by the dotted line in
A breech stop lever is mounted so that it can pivot in the receiver stopping the breech in a rear locked position via the side runners when the magazine 29 is empty of cartridges.
The operation of a weapon according to the invention is analogous to the operation of a conventional weapon.
When a cartridge has been fired, with a manual reloading rifle the shooter must move the breech 8 back by acting on the loading lever 9.
In so doing, the case of the spent cartridge is extracted from the chamber 7 and ejected. The return springs 15 are unwound at the same time and placed under constant tension.
The force required to make the breech 8 move back will be essentially constant thanks to the choice of ‘constant-force’ springs 15, which gives greater comfort for the shooter.
To load a new cartridge from the magazine, the shooter just has to release the loading lever to send the breech 2 in the direction of the barrel 6 under the tensile effect of the unwound springs 15, which exerts a combined tensile force on the housing and thus on the breech via the side runners 14.
Towards the end of the movement of the breech 8 in the direction of the barrel 6, the positioning shaft 21 enters the conical entrance 28 of the centring hole 27 of the housing 13, fostering the centring of the housing 13 in the forend 11.
It is clear that the invention is not limited to manual and linear reloading weapons.
It is also clear that the springs 15 can be mounted in the reverse sense by mounting the wound part on the bobbins 17 in a fixed way with respect to the barrel 6 and the breech 8 and by fastening the free end of the springs 15 directly or indirectly to the breech 8.
The presence of a bobbin 17 and a shaft 18 is not necessary. The springs 15 can be retained in the housing 13 by other means, for example by being confined in a volute formed by the housing 13.
It is clear that a single spring 15 may suffice in certain cases or that it will be necessary to use more than two springs 15.
The ‘constant-force’ springs 15 do not necessarily have to be realised by springs in the form of a wound flat strip.
Moreover, it is not excluded combining different types of springs in an assembly to realise a spring of generally constant force, or combining ‘constant-force’ springs 15 with types of conventional helical springs with progressive force.
It is clear that the invention is by no means limited to the examples described above, and that many modifications can be made to the weapon described above without departing from the scope of the invention.
Number | Date | Country | Kind |
---|---|---|---|
2012/0318 | May 2012 | BE | national |
Number | Name | Date | Kind |
---|---|---|---|
1057329 | Clarus | Mar 1913 | A |
1071023 | Borohardt | Aug 1913 | A |
2407157 | Hyde | Sep 1946 | A |
2765562 | Roper et al. | Oct 1956 | A |
3013355 | Weatherby | Dec 1961 | A |
3580132 | Vartanian | May 1971 | A |
3672255 | Findlay et al. | Jun 1972 | A |
3931690 | Soucy et al. | Jan 1976 | A |
4019423 | Johnson | Apr 1977 | A |
4475438 | Sullivan | Oct 1984 | A |
20110232473 | Gugliada | Sep 2011 | A1 |
Number | Date | Country |
---|---|---|
211157 | Mar 1907 | DE |
2 369 289 | Sep 2011 | EP |
979.941 | May 1951 | FR |
191209914 | Jan 1913 | GB |
Entry |
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KKF, Constant Force Springs, Jan. 17, 2013, http://catalog.lesjoforsab.com/pdf/en/chapters/112-118—EN.pdf. |
Number | Date | Country | |
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20130298436 A1 | Nov 2013 | US |