ITRM950253A1 - 12 GAUGE AND SIMILAR RIFLE WITH DETERMINED OPERATION WITH TWO DISTINCT CYLINDRICAL INERTIAL MASSES LOCATED ALONG THE TUBE OF THE - Google Patents

Description

APPLICATION FOR DEPOSIT BRIEF IND.AVENTE BY TITLE:

"12 GAUGE RIFLE AND SIMILAR WITH DE-TERM OPERATION BY MEANS OF TWO DISTINCT CYLINDRICAL INER-ZIAL MASSES LOCATED ALONG THE TUBE OF THE TANK".

THIS innovation, aimed at expanding the technique inherent in the years of fire for military, vein = thorium and defensive use, is based on rationalizing the mechanical organization to offer a new fundamental and necessary alternative to respond to the still numerous needs both in the construction field than in practical use, thus expanding the field of use.

TODAY, the industrial advances inherent in portable firearms are essentially based on the following mechanical operations:

GUNS called "Gas extraction" which during the shot exploit a fraction of the gas generated during the combustion of the powder along the barrel (pressure) to transmit the necessary impulse and automate the reset cycle for the next shot.

RIFLES called "barrel recoil extension", in which the barrel and the bolt recoil together as they are bound by a mechanical closure, until the bolt remains locked in opening; the barrel, under the thrust of the contrast spring, is loaded when the group recoils, it returns to its original position. the bolt, automatically released on closing, arranges the weapon for the new shot.

RIFLES called "Inertials" which during firing, the entire weapon, 'recoils against a consistent inertial mass located behind the bolt (which by inertia' tends to break still), in this phase, a fraction of the kinetic energy of recoil, it is stored in the compression of a spring which, by stretching it, transfers the elastic energy previously stored to the mass, which then sets in motion, releasing the shutter which opens the breech.

The object of this deposit is conceived for the cal.

12 and the like, method, based on physical principles not yet fully exploited in the field of arms, therefore not directly derived from the aforementioned operating systems, since, (in addition to the peculiar 'mechanical function)'. fundamental organs capable of transmitting the impulse necessary to guarantee the automatism, are located in the front area of the weapon (along the magazine tube under the barrel) this organization contributes to improving the rapidity of release of the .in relation to the more or less powerful ammunition bands, and consequently with more or less. recoil energy, thanks to the versatility and peculiarity of this system, which dynamically adapts to the ammunition of any size and charge of the .12 cal. - Furthermore, it does not require any cleaning interventions otherwise due to. parasitic cross-stations, accumulated by external factors, as the organs are well protected, safe, from failures that would nullify their effectiveness or hinder their functioning at the right time.

TEXT OF THE DESCRIPTION

PREMISE

According to a fundamental law of dynamics, every time a body acts on another rigid body, the latter reacts on the first with an equal force of opposite direction (Equality of action and reaction-NEWTON-)

In the case of firearms, at the moment of the shot, burnt gases push the bullet in opposite directions on one side, on the other the weapon which thus acquires a certain speed (recoil) and consequently a certain kinetic energy, to the eventual exploitation of the latter is implicitly associated with the possibility of automatic operation of the weapon itself.It can however be observed that the recoil speed is just a fraction of the instantaneous speed of the bullet, whose value is equal to the inverse ratio between the respective masses

MECHANICAL DESCRIPTION

The mechanical organization of the system is presented in a rather simple and rational way, it consists of fundamental elements: a metal cylinder inserted in the tank tube, with an attributed mass of about 115 grams, Fig A- free to slide along the tube itself, fig 1 - from a second cylinder of the same mass as the first fig. B - located in the most advanced position in which a first-class lever is pivoted fig 2 - and with a sturdy spring in front of it, suitably calibrated fig C- All functioning as follows Assuming that a relatively weak cartridge is fired, with a bullet with a total mass of about 32 grams and attributing to the weapon a mass of about 3500 grams having a barrel length of about 600 m / m,

In this case, since the primary recoil (the one that occurs while the bullet is still traveling along the barrel) affects the weapon as a whole, the recoil energy associated with it amounts to about 1/110 of that relative to the bullet During the firing phase, the entire weapon recoils against the two cylinders (A and B) which by inertia tend to remain stationary in the cylinder A, assumes a relative forward motion with respect to the rifle, an excursion of 4 m / m fi g 3 which vigorously pushes the lower appendage of the lever pivoted to cylinder B fig 4 - which by turning m counterclockwise causes the translation of the rod communicating to the shutter by approximately 10m / m fig 5 - with the consequent release of the shutter fig 6 - at the same time the bullet is found to travel in the barrel for a stretch of about 437 m / m since the path of the projectile amounts to about 110 times that relative to the excursion of the cylinder A (equivalent to that of the recoil) therefore in proximity to the muzzle, or both when the pressure inside the barrel has now dropped to safety levels, therefore the ideal moment for unlocking, which, pushed by the residual gases, runs in retraction, achieving the phases of extraction, ejection of the spent case and chambering of a new cartridge It should be noted that by firing such a weak cartridge, the cylinder B does not assume any movement of relative advancement with respect to the rifle as its inertia cannot overcome the resistance that the raollone C opposes to it, therefore it recoils integrally with the rifle Considering now to shoot a cartridge rather strong of about 56 grams (12 Magnum) while maintaining the characteristics of the weapon unchanged the primary recoil affects the rifle as a whole, the recoil energy associated with it amounts to about 1/63 of that relating to the bullet. enga carried out by cil A (as previously described) i.e. after just 4 m / m of excursion of the same at the same time, the projectile would find it traveling along the barrel for a stretch of about 250 m / m since the path of the bullet amounts to just 63 times that relative to the excursion of the A cylinder (equivalent to that of the recoil), i.e. when the pressure inside the barrel is still too high, therefore a premature release, quite dangerous for the shooter with imaginable consequences. , it comes into operation in the following way Given the high kinetic energy of the bullet and the consequent recoil speed and energy, in this phase of the shot the entire weapon recoils against the two cylinders which, when queued, assume the relative forward motion with respect to the rifle, compressing energetically the spring C in front of fig 8- with a maximum excursion of 7m / m fig 9- in the last 4 m / m of stroke, cylinder A, hits the lever of cylinder B-which, by rotating, determines the translation of the release-shutter rod fig 10

At the same time, given the maximum excursion of the cylinders (consequently an appropriately delayed release), the projectile travels along the barrel for a distance of about 437 m / m as this measure amounts to about 62 times that relating to the excursion of the cylinders themselves. (equivalent to that of the recoil) therefore in the vicinity of the muzzle, i.e. when the pressure inside the barrel has now dropped to safety levels, therefore the ideal moment to unlock the oct which, runs in retrospect, automatically completing the remaining operations Finally, considering to fire an intermediate cartridge from the bullet of about 44 grams, the rifle (given the moderate energy delivered) recoils against the two cylinders (as in the previous function) which, when queued, move forward relatively and compress the raollone with an intermediate excursion of 5, 5 m / m fig. 11- appropriately delaying the release, dynamically adjusting it to the energy supplied. travel along the barrel for a stretch of about 437m / m since this measure amounts to about 80 times that relative to the excursion of the straight cylinders (equivalent to that of the recoil), that is, as in the previous cases when the pressures are now close The stability of the closure is therefore ensured in all operating conditions with any 12 ammunition, since the deformation of the spring is greater the greater the initial momentum of the projectile and that in any case the opening of the breech (especially with the use of strong cartridges) can only occur after the spring has reached the necessary compre saloon, that is, when the pressures in the barrel are close to ceasing

O T T U R A T O R E FIG. 12-The bolt is the mechanical organ designed to stably close the breech, its unlocking must be carried out at the ideal moment, i.e. in the fraction of time in which the pressures in the barrel drop to safety levels, therefore not before or beyond this fraction, under penalty of malfunction The object of this deposit does not necessarily require the use of a specific shutter, since the classic pre-existing mechanics notoriously adopts organs capable of being operated in this way (as with inertial cylinders) even if with conceptually different methods

in order to guarantee a higher efficiency of the system, the cylinders can be suitably lightened by making some holes in a radial direction to them in order to alter the weight ratios in various ways, for an inertia more or less contrasting with the resistance of the spring with a specific adaptation to the cartridge that is more or less energetic

Claims (1)

CLAIMS: THE 12 CALIBER AND SIMILAR RIFLE WITH DETERMINED FUNCTIONING BY MEANS OF TWO DISTINCT CYLINDRICAL INERTIAL MASSES LOCATED ALONG THE TUBE OF THE TANK, IS CHARACTERIZED BY THAT THE ENTIRE MECHANICAL ORGANIZATION OR PART OF IT THEREFORE - ACTIONS: 1) It is characterized by having two distinct inertial cylinders located along the tank tube (in the under-barrel) sliding longitudinally; 2) It is characterized by the fact that a 1st inertial cylinder has a pivoted lever suitable for releasing the shutter; 3) It is characterized by the fact that it also includes a second cylinder capable of imparting movement to the lever located on the 1st cylinder and thus unlocking the shutter; 4) It is characterized by the use of a spring placed in front of the cylinders, designed to delay the release of the shutter in a varied and dynamic way; 5) It is characterized by the fact that the two inertial cylinders can be variously lightened or heavier in order to vary the effectiveness;