IT8985664A1 - AUTOMATIC WEAPON FOR SHOOTING CARTRIDGES WITHOUT CASE AND GUN POWDER - Google Patents

Description

DESCRIPTION

? ' It is known that the term firearm refers to all those weapons which, regardless of shape and size, use the force of expansion produced by the combustion of the gunpowder to launch the projectiles. Is the gunpowder contained in a cartridge case at the top? of which the projectile is fixed which has a bottom in the rear part in which a percussion detonator is inserted which serves to trigger the explosion of the gunpowder contained in the cartridge case. The shell-bullet assembly is called a cartridge.

Since? ' for the ready use of the weapon and? It is always necessary to have an adequate supply of cartridges available, they constitute a potential danger in themselves as for accidental causes the gunpowder contained in the shells can? to blow up.

There can be various situations in which this possibility? can? ' occur: first of all the case in which in combat the stock of ammunition near the weapon or deposited in the warehouses is hit by enemy fire. It is understood that in this case the effects of the explosion can be devastating especially if the weapon and ammunition are installed aboard naval vessels, or aboard self-propelled land vehicles, or even if they are installed on air vehicles.

As regards in particular the case in which the weapon and the relative ammunition are installed on aircraft, there is the further danger that, in the event of an emergency landing of the aircraft, the sliding of the fuselage against the ground can? easily cause the self-ignition of the gunpowder of the ammunition causing the explosion of the aircraft itself. It is for this reason that in all cases in which the pilot is at the helm of an aircraft that exhibits operating anomalies such as to suggest a landing, an emergency landing is not attempted, but the pilot launches with the parachute abandoning the plane. There is therefore in this case the further major inconvenience due to the loss of the plane and the damage that this can cause. cause to things and people due to the explosion that follows when the plane crashes to the ground.

Another drawback of traditional firearms consists in the fact that each cartridge they use has a preponderant part of the weight and volume constituted by the cartridge case with the gunpowder; there?' it is particularly penalizing in airplanes where weights and volumes must be kept to the minimum possible value. Moreover, only the part of the volume and weight of the cartridges corresponding to the weight and volume of the bullets can? transformed into a volume of useful fire.

A further drawback in the use of known cartridges is constituted by the fact that after the shot, the cartridge case during the extraction phase can be taken out. get stuck, jamming the weapon and thus interrupting the firing action.

Not the least disadvantage of firearms is the high cost of the cartridges, above all due to the incidence of the cost of gunpowder, of the material and of the processing for the execution of the cartridge case.

It is an object of the present invention to provide an automatic weapon which eliminates the aforementioned drawbacks.

The main purpose of the invention is to realize an automatic weapon by means of which projectiles are launched without the need for cartridges with cases filled with explosive gunpowder.

A further object of the invention is? to create an automatic weapon which, using shells without shells and related explosives, allows, compared to known firearms, the reduction of weight and volume of the ammunition at the same level. of achievable fire volume.

Another purpose of the invention is to realize an automatic weapon which presents, at parity, volume of fire of known firearms, significantly lower operating costs.

Not least object of the invention is the realization of an automatic firearm which, by using ammunition without a case, reduces and almost eliminates the problems of jamming of the firearm during operation.

The aforementioned and other purposes which will be better highlighted hereinafter are achieved through the realization of an automatic weapon which, in accordance with the claims, is characterized by the fact that it comprises: - at least one central body within which a chamber is made outbreak;

- at least one rifled-core barrel without a cartridge chamber fixed to the central body of the weapon;

- a bolt, sliding within a seat made in the central body of the weapon and between the combustion chamber on one side and the breech of the barrel on the opposite side, where said bolt has holes for the communication of the combustion chamber with the bottom of the projectile placed in launch position or with an air collector; - a magazine for conveying the bullets to the bolt;

- means for moving the shutter,

in which the launch of the projectile occurs due to the thrust on the bottom of the projectile itself generated by the detonation of an air-fuel mixture in super critical conditions within the combustion chamber.

With the use of the weapon according to the invention, the launch of the projectile occurs due to the thrust on the bottom of the projectile itself generated by the detonation of a fuel air mixture introduced into the combustion chamber and compressed in super critical conditions.

Advantageously, according to the invention, an automatic weapon is produced which, although having the same capabilities of use as known firearms, has a greater safety of use since it launches shells without shells and gunpowder.

In addition, said automatic weapon, use bullets without case and gunpowder, also allows for equal? ' of volume of fire compared to traditional firearms, the advantage of a greater economy of operation and a lower weight and volume occupied by the ammunition.

According to a preferred embodiment, the automatic weapon of the invention is constituted by a barrel connected to the central body of the weapon and communicating with a combustion chamber made inside the central body itself, within which the detonation of a air-fuel mixture. Between the breech of the barrel and the combustion chamber runs a shutter which performs the function of picking up each bullet from the magazine, arranging it coaxial to the barrel in the launch position and, after launch, connecting the chamber with an intake manifold of air. According to a further embodiment, the automatic weapon of the invention has a combustion chamber generated by the stroke of a piston inside the central body of the weapon.

The objects and advantages described will be better highlighted during the description of a preferred embodiment of the invention given by way of indication but not of limitation, represented in the attached drawing tables, where:

- in fig. 1 shows the automatic weapon of the invention with the bolt in the phase of withdrawing the projectile from the magazine;

- in fig. 2 shows the automatic weapon of the invention with the bolt and the projectile arranged coaxially with the barrel in the launch position:

- in fig. 3 shows the automatic weapon of the invention in the phase of launching the projectile;

- in fig. 4 shows the automatic weapon of the invention in the launch phase of the projectile in the case in which the installation of a gas-air piston for the recovery of the combustion gases for the compression of the air is envisaged; - in fig. 5 shows the automatic weapon of the invention in the phase of compressing the air in the combustion chamber, by means of the gas-air piston exploiting the action of the gases recovered from the previous explosion;

- in fig. 6 shows an embodiment variant of the invention with the shutter in the phase of withdrawing the projectile from the magazine;

- in fig. 7 shows the automatic weapon of fig. 6 with the bolt and the projectile arranged coaxially with the barrel in the launch position;

- in fig. 8 shows the variant of fig. 6 of the automatic weapon of the invention in the phase of launching the projectile;

- in fig. 9 shows the variant of fig. 6 of the automatic weapon of the invention after the launch of the projectile in the phase of feeding the combustion chamber with air;

- in fig. 10 shows a further variant of the automatic weapon of the invention in the execution suitable for single-shot firing.

As can be seen in fig. 1, the automatic weapon of the invention indicated as a whole with 1, is composed of a barrel 2 with a rifled core 9 whose section is cylindrical for its entire length and therefore has no cartridge chamber. The barrel 2 and? connected to the central body 8 of the gun which in correspondence with the breech 3 of the barrel has a bolt 4 which slides orthogonally to the axis 5 of the barrel inside a guide seat 6. Facing the bolt 4 and on the opposite side to the breech 3 of the barrel there is a combustion chamber 7 obtained in the central body 8 of the weapon which is therefore included between the bolt 4 and the internal bottom 45 of the central body 8.

By analogy with the known firearms, also for the weapon of the invention the action of launching the projectile will come? called shot.

The automatic weapon indicated as a whole with 1 also includes a tank 19 loaded with compressed air which is connected by means of a pipe 20 equipped with a pressure reducer 14 to a manifold 15 into which the air flows from the tank 19.

Observing fig. 1 it is noted that the guide seat 6 allows the bolt 4 to slide vertically between the breech 3 of the barrel 2 and the combustion chamber 7. During this movement, through the holes 29 and 28 made in the bolt 4, the bolt itself alternatively puts the combustion chamber 7 in communication with the air manifold 15 through the tube 21, as can be seen in fig. 1, or the combustion chamber 7 with the bottom of the projectile 18 arranged in the hole 28 of the shutter, as can be seen in fig. 2.

The operation of the automatic weapon of the invention takes place starting from the situation configured in fig. 1 where the weapon is in the position in which the bolt 4 contains, within a hole 28, the bullet 18 received from the magazine 17. Starting from this position, when the counter-clockwise rotation of the eccentric 22 releases the bolt 24, this, pushed downwards by the vertical pressure of the spring 40, also brings down the bullet 18 contained in the cylindrical hole 28, which we will call the loading iron and arranges it with the bottom facing the combustion chamber 7, as can be seen in fig. 2. The accuracy of the positioning of the projectile 18 is guaranteed by the head 30 of the bolt 4 which, when the projectile is in the firing position, contrasts against the central body 8 of the weapon which locks it in position, as can be seen in fig. . 2 and in fig. 3.

The combustion chamber 7 contains the air 107 previously introduced into it through the hole 29 of the shutter 4 and coming from the manifold 15 connected to the tank 9. In particular inside the tank 19 and? contained air, the high pressure of which is reduced through the pressure reducer 14 before being introduced into the manifold 15 inside which it is also heated by the resistance 12. When the air is compressed and heated to certain values, flowing from the manifold 15 within the combustion chamber 7 can find themselves in super critical conditions such as to be able to instantly ignite a mass of atomized fuel with which it should come into contact so as to generate a detonation exactly as happens in diesel engines. Experimental tests carried out on a prototype of the weapon of the invention have made it possible to determine the optimal conditions for the air to cause the detonation to occur, conditions which correspond to a pressure of about 22 atmospheres and a temperature of around 60 degrees. Therefore, as can be seen in fig. 2, when the eccentric 22 continuing in its anticlockwise rotation against the head 10 of the actuating rod of the pump 11 connected to a fuel tank (not shown in the figure) through the pipe 13, through the pipe 16 and the injector 23 a quantity is introduced in the combustion chamber 7 of atomized fuel. Is it formed like this? within the combustion chamber 7 a mixture which immediately detonates.

The gases 207 which are produced cause the launch thrust along the core of the barrel 2 on the bottom of the projectile 18, as can be seen in fig. 3, and thus trigger the firing of the bullet.

The eccentric 22 in the meantime has continued to rotate counterclockwise and when it comes back into contact with the bottom of the bolt 4, it pushes the latter upwards, compressing the spring 40. The weapon then returns to the position of fig. 1 from which the cycle restarts for a second shot and so on.

The firing ends when the trigger or the button which caused the rotation of the eccentric 22 is released, giving rise to the first shot.

The emission of the combustion air inside the combustion chamber 7 can be carried out by taking it also in the external environment using the force of expansion of the gases 207 produced by the explosion.

As can be seen in fig. 4 in this case the pipe 20 upstream of the pressure reducer 14 which conveys the air to the manifold 15, as well as to the tank 19 containing compressed air, and? also connected through the pipe 32 with the air chamber 25 of a gas-air piston 26 whose gas chamber 27 is? connected via pipes 31 to core 9 of chamber 2.

In this situation, the first shot takes place using compressed air contained within the tank 19, after which the gas 207 produced by this first shot, through the pipe 21, enters with direction 33 into the gas chamber 27 of the gas piston 26. The piston 34 moves in direction 35 and compresses the mass of air 125 contained within the air chamber 25, a mass that flows with direction 36 through the pipe 32 and the pressure reducer 14 into the manifold 15. Meanwhile, as can be seen in fig . 5, the shutter 4 has returned to open, putting the combustion chamber 7 in communication with the manifold 15 so that the air 125 coming from the air chamber 25 of the gas-air piston 26 is introduced into the combustion chamber 7 .

It is observed that for the operation and? a valve 37 is required on the outlet duct from the tank 19 which is commanded to close after the first shot thus avoiding the flow into the tank 19 of the compressed air 125 coming from the air chamber 25.

Furthermore, the air chamber 25 must be provided in the pipe 28 communicating with the external environment by means of a one-way valve 39 which prevents the air from escaping in the compression phase, but allows the chamber 25 to be filled with air coming from the outside at the end. of each shot when the air 125 has been exhausted. It can be understood on the basis of what has been described how the automatic weapon of the invention achieves all the intended purposes.

First of all, it has been seen how by means of the automatic weapon of the invention it is possible to fire cartridges without case and gunpowder which are therefore constituted only by the bullet 18 and that? as the launch energy is obtained from the detonation of a combustible mixture inside a combustion chamber 21. All the dangers deriving from accidental ignitions and consequent explosions of ammunition deposits for firearms composed of bullets are therefore avoided with cartridge case and gunpowder.

In particular, the dangers resulting from the possibility of explosion of unused ammunition contained in an aircraft due to the violent impact in the ground when the pilot is forced to an emergency landing are completely eliminated. Does it follow from there? ' the advantage that in cases where the pilot deems it possible, the plane can? be recovered by making an emergency landing with no explosion hazards and can therefore be avoided dangers due to the fall of the plane after the pilot has launched with the parachute, as well as? ' the cost and loss of the plane itself,

AND? also achieved the purpose of creating an automatic weapon that, on par? ' of volume of fire compared to automatic firearms of the known type, occupies a smaller space and requires less weight for the storage of ammunition. In fact, the complete elimination of the cartridge case and the relative launch charge allow to recover both weight and volume, which is extremely important especially for weapons installed on board aircraft, naval vehicles or self-propelled vehicles on the ground.

As a consequence of the elimination of the gunpowder which constitutes the launch charge of the cartridge cases, the aims of obtaining a reduction in the production costs of ammunition have also been achieved and the possibilities have also been considerably reduced. of jamming of the weapon during operation.

An executive variant of the weapon of the invention based however? on the same idea of solution, and? represented in fig.

6 where it is observed that the automatic weapon indicated as a whole with 301, is composed similarly to the execution described above, by a barrel 302 without a cartridge chamber and connected to the central body 308 of the weapon and by a bolt 304 which slides orthogonally the combustion chamber 307 is arranged inside a guide seat 306 made in the opposite part of the barrel 302, which in this execution corresponds to the anterior chamber of a hollow cylindrical body 350 forming part of the central body 308. inside of said hollow cylinder 350 there is a piston 351 coaxial to the axis of the hollow cylinder itself which divides its internal volume precisely in a front chamber 307 and in a rear chamber 352 where inside the latter and? arranged a spring 353 whose extremity? they are respectively fixed to the bottom of the piston 351 and to the bottom of the hollow cylinder 350.

It is also always observed in fig. 6, that the rear chamber 352 of the weapon communicates through a pipe 354 with a tank 355 which in turn is also connected to the core 309 of the barrel 302 through a pipe 356. Said rear chamber 352 also communicates with a further tank 357 by means of a pipe 358. At the bottom, the rear chamber 352 has a valve 359 which puts the inside of the chamber in communication with the external environment. The rear chamber 352 will come? ' hereinafter referred to as the back pressure chamber.

According to this variant of the solution, the operation of the weapon starting from the situation configured in fig. 6, where the weapon is arranged with a projectile 318 inside the bolt 304 and with the combustion chamber 307 filled with air coming from the manifold 315 fed by the tank 319 through the pressure reducer 314. The pressure on the trigger or on the button firing activates the rotation of the eccentric 322 which releases the shutter 304 which is moved downwards by the spring 340, as shown in fig. 7 and places the 318 bullet in firing position. At this point the control 360 is actuated which opens the non-return valve 361 which in turn causes a compressed inert gas 457 contained in the tank 357 to flow through the pipes 358 with direction 362 into the back pressure chamber 352. gas acts on the bottom of the piston 351 which compresses the air 407 previously sucked in and present in the combustion chamber 307. At the same time the spring 353 inside the back pressure chamber 352 is stretched and accumulates elastic energy useful at a later time to make the piston return 351 in the initial position. When the inside of the combustion chamber 307 the ideal super critical temperature and pressure conditions have been reached to cause the detonation to occur, the eccentric 322 activates the pump 311 which through the pipe 316 puts fuel into the combustion chamber 307 through the? injector 323. The fuel mixed with the air detonates and the gases produced cause the firing of the projectile 318. At the same time, as can be seen in fig. 8, the pressure due to the explosion opens the unidirectional calibrated valve 363 inserted on the pipe 364 in communication with the core 309 of the barrel 202, so that through said valve and said pipe, the combustion gases 407 flow into the recovery tank 355 .

The entry of the burned gases into the tank 355 continues as long as the pressure inside it remains lower than the internal pressure of the bore of the barrel and therefore of the combustion chamber 307, after which the valve 363 closes automatically when the pressure at inside of the combustion chamber 307 is reduced due to leaks through the barrel 302 and becomes lower than the internal pressure of the tank 355.

At this instant, the return stroke of the piston 351 to the initial position is achieved by the elastic recovery of the spring 353 which returns to the initial position shown in fig. 6 by dragging the piston.

During this return phase of the piston (fig. 9) in the counter-pressure chamber 352 there is still the gas 457 of the tank 357 introduced during the previous compression of the air in the combustion chamber and which must therefore be expelled. For this purpose, during the return of the piston 351 the valve 359 is opened through which the gas 457 flows outwards.

During this return phase of the piston 351, the eccentric 322, as can be seen in fig. 9, raises the bolt 304 which receives a new bullet from the magazine. In the meantime, through the intake hole 329 of the shutter 304, the combustion chamber 307 is put in communication with the manifold 315 and there is therefore a new air intake phase.

At the end of this aspiration, the second from? beginning of the operation of? weapon which then fired the first shot, the weapon itself is in the condition in which the bolt 304 has prepared a new bullet in the firing position. The gas produced by the previous explosion and accumulated inside the tank 355 is used to fire the second projectile. When the pressure inside the back pressure chamber 352 after discharge through the valve 359 is lower than the internal pressure of the tank 355, valve 364 opens by making the gas 407 contained therein flow through pipe 365 into the back pressure chamber 352. ', a new compression phase this time carried out at the expense of the gases recovered from the previous explosion.

During this new compression phase, the valve 360 for discharging the tank 357 remains closed since the gas inside it serves only to effect the first compression of the air in the combustion chamber. All the compressions for the firing of the subsequent shots take place using the pressure generated by the exhaust gases of the bursts and accumulated inside the tank 19.

Will the operation of the air continue? ' automatically.

When you intend to stop firing bullets, releasing the trigger or button stops the flow of fuel to the injector and at the same time opens the pressure relief valve from the back pressure chamber.

Spring 353 returns to its relaxed position and the gun is ready to start a new firing cycle.

The executive variants of the automatic weapon of the invention can each be realized in the manual single shot variant.

This variant of single-shot operation is shown in fig. 10 applied to the embodiment solution in which the firearm has a fixed volume combustion chamber. It is observed in fig. 10 which in this case the shutter 504 is connected at the bottom by means of a pin 570 to a rod 571 and presents at one end a counterweight 572 with a tooth 573 in the trigger hook 574. It is understood that when the trigger 574 is pressed in direction 575 the counterweight 572 moves downwards in direction 576 causing the bolt 504 to lower and thus bringing the bullet 518. Meanwhile, the end? ' 577 opposite the trigger 574 of the rod 571 activates the pump 511 which it introduces. ; through the pipe 578, the fuel in the combustion chamber 507 and generates the shot. ; To reload the weapon, the rod 571 must be lifted and the weight 572 attached to the trigger 574. . The described embodiments of the invention relate to realizations of the weapon in which detonation in the combustion chamber occurs by ignition of the mixture by compression. The same detonating effect is also obtained by causing spark ignition (for example by means of a spark plug), modifying the composition of the detonating mixture. Given the advantages described above, it is extremely important that safety devices are provided for the automatic firearm of the invention to prevent detonation inside the combustion chamber if the bolt is accidentally placed in front of the combustion chamber, obstructing it. . In this situation, in fact, the ignition of the combustible mixture would cause the weapon to explode. Why? the burnt gases would find no way out. For this purpose, as can be seen in the figures, in the upper part of the central body 8; 308 of the weapon a sensor 100 is fixed {see fig. 6) which detects when the head 30; 330 of the bolt 4; 304 is in abutment against the central body 8; 308 of the weapon, this being the condition in which the bolt presents the hole in front of the combustion chamber to accommodate the bullet. If in the shutter there is an electric cable 101 connected to the sensor 100 (see fig. 6) it sends a control unit (not shown) for firing consent. Further safety devices may be applied to the weapon of the invention, such as for example warning sensors for the lack of projectile in the magazine, or safety devices against the possibility. of accedental firing which are not represented in the attached drawing tables and are not mentioned in the explanation, but which in any case must be understood as forming part of the invention. Furthermore, the automatic weapon of the invention instead of? a rod can be equipped with a plurality of of pipes communicating with the same combustion chamber.

Similarly, more central bodies can be arranged where the combustion chamber of each is connected to one or more barrels and this is the case. in order to increase the volume of fire.

However, it is understood that all said possible variations and modifications, based in any case on the same principle of implementation of the invention, must all be understood as protected by the present invention.

Claims (3)

CLAIMS 1) Automatic weapon characterized by the fact of including: - at least one central body {8; 308) within which a combustion chamber is made (7; 307; 507); - at least one barrel (2; 302) with a rifled core without a cartridge chamber, fixed to the central body of the weapon; - a bolt (4; 304; 504) sliding within a seat (6) made in the central body of the weapon and comprised between the combustion chamber on one side and the breech (3) of the barrel {2; 302) on the opposite side, where said obturator has holes (28; 29} for the communication of the combustion chamber with the bottom of the projectile (18; 318; 518) arranged in the launch position, or with a manifold (15; 315) air intake; - a magazine (17) for conveying the bullets to the bolt; - a combustion chamber (10) communicating through holes (27; 28, 29) and by moving the bolt (4) alternatively with the core of at least one barrel (2), or with the bottom of one or more projectiles (18) arranged in a launch position, or again with an air intake manifold (13); - means (22,40; 322; 571) for moving the shutter; - means (11, 23; 311, 323) for introducing the fuel into the combustion chamber; - means for putting the combustion chamber in supercritical conditions, in which the detonation of an air-fuel mixture in super critical conditions within the combustion chamber (10) results in the launch of a projectile (18) through the barrel (2, 302). 2) Automatic weapon according to claim 1), characterized by the fact that the combustion chamber (7), made at? inside of the central body (8) of the? weapon is delimited on one side by the bolt (4), it is delimited on the opposite side by the internal bottom (45) of the central body (8) of the weapon itself. 3) Automatic weapon according to claim 1), characterized by the fact that the combustion chamber (307), made inside the central body (308) of the weapon, is delimited on one side by the bolt (304) and on the side opposite by a piston (351) sliding axially within a cylindrical body (350) obtained in the central body (308) of the weapon, said piston (351) also delimiting within said cylindrical body (350) and from the opposite side of the combustion chamber ( 307), a back pressure chamber (352). 4} Automatic weapon according to claim 1), characterized by the fact that the shutter (4 .; 304; 504) has a loading hole (28) with an axis orthogonal to the body of the shutter itself able to receive a projectile (18; 318; 518) conveyed by the magazine (17) and an intake hole {29} with an oblique axis with respect to the bolt body itself for communication with the combustion chamber (7; 307; 507) on one side and with the manifold air intake (15; 315) on the opposite side. 5) Automatic gun according to claim 1), characterized by the fact that the means which realize the supercritical conditions in the combustion chamber are an air intake manifold (15; 315) connected by means of a pressure reducer (14; 314) to a tank (19; 319) containing compressed air. 6) Automatic weapon according to claim 5), characterized in that the air intake manifold (15) internally has a heating resistor (12). 7) Automatic weapon according to claim 1), characterized in that the air intake manifold (15} is connected to the barrel (2) of the weapon through the interposition of a gas-air cylinder (28} in which the gas chamber (27) communicates with the core (9) of the barrel (2), while the air chamber (25) communicates with the air intake manifold (15) and with the external environment. 8) Automatic weapon according to claim 3), characterized by the fact that the means that realizes the supercritical conditions in the combustion chamber is compressed gas (457) introduced into the back pressure chamber (352) and coming from an external tank (357) of accumulation, where said compressed gas generates the compression of the mixture in the combustion chamber by moving a piston (351). 9) Automatic weapon according to claim 3), characterized by the fact that the means which realizes the supercritical conditions in the combustion chamber is gas (407) from the recovery of previous explosions introduced into the counter-pressure chamber (352) and coming from a tank ( 355) external storage, where said recovery gas generates the compression of the mixture in the combustion chamber by moving a piston (351). 10) Automatic weapon according to claim 3), characterized by the fact that the means which realizes the supercritical conditions in the combustion chamber is at least one spring (353) contained in the counter-pressure chamber (352) and having an end. fixed to the bottom of the piston (351) and the end? opposite fixed to the bottom of the counter-pressure chamber (352) itself, where said spring (353) generates the compression of the mixture in the combustion chamber by moving a piston (351). 11) Automatic weapon according to claim 3), characterized in that the air intake manifold (15; 315) communicates with a cylinder (19; 319) of supply compressed air. 12) Automatic weapon according to claim 1), characterized in that the means which moves the shutter {4; 304) and? a rotating cam (22; 322). 13) Automatic weapon according to claim 1), characterized by the fact that the means which carries out the displacement of the shutter is a rod (571) pivoted at one end. of the shutter (504) and driven by gravity by a weight (572). 14) Automatic firearm according to claim 1), characterized in that the means which carry out the injection of the fuel into the combustion chamber are an injector (23; 323) inside the combustion chamber and fed by a pump (11).