PISTOL FIRING DEVICE

Abstract

A pistol may include a firing device arranged in a slide. The firing device includes a strikerhaving a striker head, characterized in that the device has at least two parallel striker springs arranged laterally on the side of the striker axis and bearing on at least two bearing surfaces arranged perpendicularly to the axis of the striker.

Claims

1. A pistol comprising: a firing device arranged in a slide, said firing device comprising a striker comprising a striker head, wherein the firing device comprises at least two parallel striker springs arranged laterally on a side of an axis of the striker and bearing on at least two bearing surfaces arranged perpendicularly to the axis of the striker.

2. The pistol according to claim 1, wherein the at least two springs and the corresponding bearing surfaces are arranged symmetrically about the striker axis.

3. A pistol according to claim 1, wherein the strikercomprises at least two recesses arranged about the striker axis and configured to receive said at least two spring.

4. The pistol according to claim 1, wherein the at least two striker springs are two striker springs arranged on both sides of the striker axis.

5. The pistol according to claim 1, wherein said striker springs and said striker are arranged in a housing of a slide, said housing comprises a stop surface of the striker springs configured to take up a pressure of the springs on the bearing surfaces of the striker before the striker head emerges from a receiving bottom of the slide, such that the striker is allowed to follow a free path at the end of a percussion movement and to return to a rear rest position of the striker at rest without emerging from the receiving bottom.

6. The pistol according to claim 5, wherein a return spring bearing on the slide and applying a rearward force to the striker is arranged in said housing of the slide.

7. The pistol according to claim 1, wherein a mass of the striker is comprised between 1.5 and 6 g.

8. The pistol according to claim 5, wherein said housing is provided in a casing fastened to the slide.

9. The pistol according to claim 8, wherein said housing is made of a polymer.

10. The pistol according to claim 8, wherein said striker and said at least two springs are pre-assembled in said casing, said springs being held in position by a spring support comprising at least two spring guides inserted inside said springs.

11. The pistol according to claim 1, wherein the slide is substantially metallic and the striker comprises a support rod for the striker head sliding in a striker guide conduit provided in the metal of the slide.

12. The pistol according to claim 1, wherein said at least two springs the respective axes of which are parallel to one another are compression springs.

13. The pistol according to claim 12, wherein the respective axes of said at least two springs and the axis of the striker are coplanar.

14. The pistol according to claim 7, wherein the mass of the striker is comprised between 2 and 3 g.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] FIG. 1 shows a cross-section of an example of a pistol according to the present disclosure.

[0024] FIG. 2 shows a cross-section, in a top view and in a side view, of a slide of a pistol according to the present disclosure.

[0025] FIG. 3 shows a perspective view of a pistol striker according to the present disclosure.

[0026] FIG. 4 represents a perspective view of a safety catch for the blocking the striker.

[0027] Legend of the figures [0028] 1. striker [0029] 2. striker lock (safety catch) [0030] 3. striker stop [0031] 4. right-hand striker spring [0032] 5. slide [0033] 6. left-hand striker spring [0034] 7. slide insert [0035] 8. extractor claw [0036] 9. striker head [0037] 10. left-hand striker safety pin [0038] 11. right-hand striker safety pin [0039] 12. spring bearing surface [0040] 13. striker spring housing recess [0041] 14. striker safety pin housing recess [0042] 15. Equivalent recess to the return spring housing in order to balance the catch [0043] 16. Return spring housing [0044] 17. Bearing surface of the right-hand striker safety pin [0045] 18. Bearing surface of the left-hand striker safety pin [0046] 19. Striker return spring [0047] 20. Striker axis [0048] 21. Spring support [0049] 22. Spring stop surface 4,6 [0050] 23. Receiving bottom (or breechblock bottom or percussion bottom) [0051] 24. Casing [0052] 25. Lateral extension of the striker [0053] 26. Striker safety control trigger [0054] 27. Rotation axis of the safety catch [0055] 28. Striker trigger [0056] 29. Striker guide channel

DETAILED DESCRIPTION

[0057] The present description essentially describes an example of a gun implementing all of the aspects of the present disclosure. A person skilled in the art will easily understand that the different aspects of the present disclosure, although usable separately, have synergies which will become clearly apparent given the example and the few variants described.

[0058] The present disclosure relates to a pistol comprising a firing device wherein the percussion energy is supplied by at least two striker springs 4,6 arranged symmetrically on both sides of the striker axis 20, unlike the prior art where a single spring arranged concentrically about the axis is used.

[0059] Indeed, the use of two springs makes it possible to reduce the length of each of the springs for a given energy and stress level. It is in this way possible to store sufficient energy in the springs while providing a long service life given the level of acceptable stresses in the springs, in particular with regard to the fatigue of the springs. However, the higher the energy, the more the percussion is provided, especially in adverse conditions.

[0060] The use of a plurality of springs with suitable length and working in parallel makes it possible to use a lower stiffness for providing the same level of energy. The goal thereof is also to reduce the energy required for the “racking” of the gun (manual rearming). Since the stiffness of the percussion springs is lower, it is therefore possible to reduce the force of the recuperator spring dimensioned so as to set the slide in firing position and tension the percussion springs. The present disclosure thus can be further used for improving the general comfort in using the gun and the service life thereof.

[0061] Advantageously, the placement of the springs next to the striker makes it possible to make the striker tapered and lighter. However, the lighter the striker, the more reliable the firing of the primer for the same potential energy stored in the percussion spring(s). Preferably, the weight of the striker is comprised between 1.5 and 6 g, preferably between 2 and 3 g.

[0062] According to a preferred embodiment, the striker comprises at least two symmetrical recesses 13 on both sides of the striker axis 20, so as to receive the at least two springs 4,6. Such recesses reduce the total weight of the striker and reduce the torque generated by each spring by moving the spring closer to the striker axis.

[0063] According to the prior art, the thrust of the spring is exerted only over a part of the striker stroke. The end of the striker stroke then takes place without any contact with the spring. Thus, a small return spring makes it possible to push the striker out of the receiving bottom. The vertical displacement of the cartridge during unlocking can then take place without rubbing on the striker and hence without any risk of breaking the striker. In the prior art, the free stroke of the striker is generally achieved by adding components, which leads to an increased complexity and an increase in the price of the gun.

[0064] According to a preferred embodiment of the present disclosure, after an initial stroke pushed by the springs, the percussion springs 4,6 no longer press on the striker but against a stop surface 22 of a housing in the slide 5 receiving the firing device according to the present disclosure. The striker thus travels freely from such point. It should also be noted that the use of a light striker makes possible the use of a very weak striker return spring and thus having little impact on the percussion energy stored in the system, the return spring being put in opposition to the percussion springs.

[0065] In general, the slide is the most expensive component of the pistol. A significant reduction in the price thereof can be achieved by using a plastic casing which eliminates costly machining operations in the slide.

[0066] Advantageously, said housing is provided in a casing 24 fastened to the slide 5. Preferably, said casing 24 is made of polymer while the rest of the slide is essentially metallic.

[0067] Advantageously, said striker 1 and said at least two springs 4,6 are pre-assembled in said casing 24, said springs being held in position by a spring support 21 comprising at least two spring guides inserted inside said springs 4,6.

[0068] In the case of a polymeric casing, guiding the striker so as to remain concentric with the primer can be an additional technical difficulty.

[0069] In order to solve such problem, the striker 1 is preferably guided throughout the stroke thereof in a channel 29 provided in the metal part of the slide 5 opening out into the receiving bottom 23. Guiding then takes place via a support shaft or rod for the striker head 9 in a bore opening out into the receiving bottom 23. Preferably, the slide is essentially metallic and the striker 1 comprises a support rod for the striker head 9 sliding in a cylindrical guide conduit for the striker 1 provided in the metal of the slide 5.

[0070] According to preferred embodiments of the present disclosure compatible with the above-described modes, the pistol further comprises a striker safety device integrated into the slide 5, the striker 1 comprising a lateral extension 25 comprising two safety pins 10,11 and a striker safety catch 2 arranged on a rotation axis 27 fastened to the slide and parallel to the striker translation axis 20, the safety catch 2 being apt to rotate in a vertical plane between a firing position and a blocking position, said catch 25 comprising two bearing surfaces 17,18 on which said pins 10,11 rest when said catch is in the blocking position and two recesses 14 which can let through said pins 10,11 when said catch is in the firing position, the center of mass of said catch 2 being on the rotation axis 27 thereof and the rotation axis 27 being a main axis of inertia of said catch 2.

[0071] The catch 2 is actuated in rotation by a safety control trigger 30, which is as such actuated by the fire control chain controlled by a trigger blade.