Hammer assembly of the automatic mechanism of a firearm

Abstract

A hammer assembly of the automatic mechanism of a firearm, comprising a breech (4) that is pushed towards the barrel (3) by a return spring (6). On the breech (4) and/or in the breech case (3) a hammer carrier (10) is arranged in a sliding way that is pushed towards the breech by a striking spring (13). The hammer carrier (10) carries a hammer (11). The hammer (11) is arranged on the hammer carrier (10) movably between the front end position and the rear end position wherein between the front and rear end positions of the hammer (11), there is a play (F). The hammer (11) is pushed to the front end position by the hammer spring (12).

Claims

1. A hammer assembly of an automatic mechanism of a firearm, comprising a breech that is pushed towards a barrel by a return spring, a hammer carrier movably arranged relative to the breech and pushed towards the breech by a striking spring, and the hammer carrier carries a hammer, wherein the hammer is arranged on the hammer carrier movably between a front end position and a rear end position, wherein there is a play between the front end position and the rear end position of the hammer and the hammer is pushed by a hammer spring to the front end position.

2. The hammer assembly according to claim 1, wherein the front end position and the rear end position of the hammer are defined with stops.

3. The hammer assembly according to claim 1, wherein the striking spring is arranged concentrically around the return spring.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) The invention will be described in a more detailed way using a particular embodiment of the hammer assembly of the automatic mechanism of a firearm according to the invention, shown in drawings wherein individual figures illustrate:

(2) FIG. 1—a cross-section of a firearm with the inventive hammer assembly, the firearm being in the initial state with the striking mechanism tensioned;

(3) FIG. 2—the same firearm at the moment of actuation of the striking mechanism;

(4) FIG. 3—the same firearm at the moment of initiation of the cartridge primer;

(5) FIG. 4—the same firearm at the moment of deceleration of the breech;

(6) FIG. 5—the same firearm at the moment of impact of the hammer assembly to the rear position to the shock buffer;

(7) FIG. 6—the same firearm at the moment of breech deceleration by the impact of the hammer carrier to reduce the recoil; and

(8) FIG. 7—an axonometric view of the breech and carrier with the hammer.

DESCRIPTION OF PREFERRED EMBODIMENTS

(9) FIG. 1 shows a cross-section of a firearm with the hammer assembly according to the invention in the initial state with the striking mechanism tensioned.

(10) The firearm has a breech case 1 that the barrel 3 is attached to and a trigger mechanism case 2. In the breech case 1, a breech 4 is arranged, which is pushed towards the barrel 3 by a return spring 6. On the breech 4 and at the same time in the breech case 1, a hammer carrier 10 is arranged in a sliding way, which is pushed in the shooting direction towards the breech 4 by a striking spring 13. On the hammer carrier 10, a hammer 11 is arranged in such a way that it can be moved between the front end position and the rear end position. Between the front end position and the rear end position of the hammer 11, there is a play F and the hammer 11 is pushed by a hammer spring 12 of the to the front end position.

(11) The hammer 11 is, together with the carrier 10, held in the initial position (see FIG. 1) by the catch 9 of the hammer 11.

(12) The front end position and the rear end position of the hammer 11 are delimited with stops that are arranged on the hammer carrier 10.

(13) The striking spring 13 is arranged concentrically around the return spring 6.

(14) In an embodiment, which is not shown here, the hammer 11 may be firmly fixed to the hammer carrier 10. Such an embodiment is suitable when cartridges with a lower power than that the inventive assembly has been designed for are used, e.g., when the firearm is converted to training ammunition.

(15) When the trigger 8 is initially pulled (see FIG. 2), the catch 9 of the hammer 11 is pivoted and the carrier 10 with the hammer 11 starts to move towards the breech 4 by the action of the striking spring 13.

(16) FIG. 3 shows the moment of the contact of the hammer 11 with the striker 5 and breech 4. A shot is fired and the breech 4, together with the hammer 11, starts to move by the shot force backwards against the shooting direction. The hammer carrier 10 still moves in the shooting direction until the play F between the hammer carrier 10 and the hammer 11 is eliminated.

(17) At the moment of the impact between the hammer carrier 10 and the hammer 11 (see FIG. 4), the breech 4, which is moving together with the hammer 11 at the particular moment, is decelerated.

(18) Besides decelerating the breech 4, the impact also changes the movement direction of the hammer carrier 10 and causes its acceleration to a higher speed than that of the breech 4.

(19) Thus, the carrier 10 with the hammer 11 will get to the rear position delimited with the shock buffer 7 (see FIG. 5) during a shorter time period than the breech 4, and will start to move in the shooting direction against the movement of the breech 4. Subsequently, the carrier 10 and the hammer 11 will get in contact with the breech 4 (see FIG. 6). Thus, the breech 4 will not get to the rear position defined by the shock buffer 7, but is stopped by the impact of the carrier 10 and hammer 11. This considerably reduces the recoil perceived by the shooter.

(20) The preferred forms of the invention described above are to be used as illustration only, and should not be used in a limiting sense to interpret the scope of the present invention. Modifications to the exemplary embodiments, set forth above, could be readily made by those skilled in the art without departing from the spirit of the present invention.

(21) The inventors hereby state their intent to rely on the Doctrine of Equivalents to determine and assess the reasonably fair scope of the present invention as it pertains to any apparatus not materially departing from but outside the literal scope of the invention as set forth in the following claims.

INDUSTRIAL APPLICABILITY

(22) The system of a breech braked by the hammer assembly according to the invention is applicable in self-loading weapons, especially as a replacement of conventional dynamic breeches. Maintaining simplicity and reliability, it brings a considerable weight saving and at the same time a recoil reduction. Compared to other braked, or locked systems, it is then significantly easier to produce and maintain.

(23) The invention is especially applicable to firearms for lower power cartridges, used in machine guns, as e.g., 9×21 or 45 Auto. For the use of cartridges with an even lower power, e.g., 22 Long Rifle, the system can be easily adapted through a fixed connection of the hammer and hammer carrier. This way, the breech braking function is disabled in a targeted manner.

LIST OF REFERENCE SIGNS

(24) 1 breech case

(25) 2 trigger mechanism case

(26) 3 barrel

(27) 4 breech

(28) 5 striker

(29) 6 return spring

(30) 7 shock buffer

(31) 8 trigger

(32) 9 hammer catch

(33) 10 hammer carrier

(34) 11 hammer

(35) 12 hammer spring

(36) 13 striking spring