The present invention relates to a pistol firing pin safety device.
For safety reasons, it is generally necessary in firearms to ensure that the firing pin can only strike a chambered cartridge when the trigger is actuated, even in case of fall, break or exaggerated wear of the trigger tail directly controlling the firing pin. This type of safety, called firing pin safety, is generally controlled by a translating or rotating part actuated by the control chain. This part is generally kept in the safety position by a spring.
Document WO2017/080537 describes such a device in which the blocking of the firing pin is ensured by a rotating part. The drawback of these devices is that the inertia of this blocking part can cause it to be unblocked under the effect of an impact, for example caused by a fall. Indeed, depending on the orientation of the fall, the inertia (both in rotation and in translation) can cause a movement of the firing pin safety and therefore a chance deactivation of the safety. This phenomenon can also appear simply during shooting. Now, it is precisely during such falls or such intensive shooting that the risk of accidental disengagement of the firing pin is high.
One object of the invention is therefore to improve the firing pin locking safety, in particular during accidental falls.
A first aspect of the invention relates to a pistol comprising a firing pin safety device integrated into a slide of the pistol comprising a firing pin comprising at least one safety lug and a firing pin butterfly safety positioned on an axis of rotation fastened to the slide and parallel to the axis of translation of the firing pin, said butterfly safety being able to rotate in a vertical plane between a firing position and a blocking position, said butterfly comprising at least one bearing surface on which the at least one lug rests when said butterfly is in the blocking position, the center of mass of said butterfly being on its axis of rotation and the axis of rotation being a main axis of inertia of said butterfly.
According to preferred embodiments of the invention, the slide comprises one, or an appropriate combination of at least two, of the following features:
1. Firing pin
2. Firing pin lock (safety butterfly)
3. Firing pin stop
4. Right firing pin spring
5. Slide
6. Left firing pin spring
7. Slide insert
8. Extractor prong
9. Firing pin head
10. Left firing pin safety lug
11. Right firing pin safety lug
12. Spring bearing surface
13. Firing pin spring housing recess
14. Firing pin safety lug housing recess
15. Recess equivalent to the return spring housing in order to balance the butterfly
16. Return spring housing
17. Bearing surface of the right firing pin safety lug
18. Bearing surface of the left firing pin safety lug
19. Return spring of the firing pin
20. Firing pin axis
21. Spring support
22. Stop surface of the springs 4,6
23. Cartridge headspace bottom (or breech bottom or breech face)
24. Case
25. Lateral extension of the firing pin
26. Firing pin safety control trigger tail
27. Axis of rotation of the safety butterfly
28. Firing pin trigger tail
29. Guide channel of the firing pin
30. Firing pin stop surface during dry fire
31. Firing pin safety butterfly spring
The present description essentially describes an example weapon implementing all of the aspects of the present invention. The person skilled in the art will easily understand that the various aspects of the invention, although usable separately, have synergies that will appear clearly in light of this example and of several described variants.
In the present description, a solid is said to be balanced when it rotates about a fixed axis if its center of mass is on the axis of rotation and the axis of rotation is a main axis of inertia for this solid.
According to the invention, the firing pin safety is no longer ensured by a mass in translation or in rotation along any axis, but by a firing pin safety butterfly 2 which is balanced on its axis of rotation 27. As a result, the absence of unbalance on the butterfly 2 ensures that an impact cannot cause it to rotate.
To this end, an example butterfly is shown in
When the trigger is actuated, a firing pin safety control trigger tail 26 pushes below the right lateral surface of the butterfly 2, so as to cause it to rotate on its axis 27. This rotation results in freeing the bearing surfaces 17,18 from the trajectory of the two lugs 10,11 of the firing pin 11, allowing the latter to continue its travel until it emerges from the breech face 23. The two lugs 10,11 are then placed in two housings 14 arranged in the butterfly. This positioning is shown, from the rear, in
It is important to note that a single lug 10 or 11 suffices to block the firing pin on one of the surfaces, and that, while the illustrated part is symmetrical, it would also have been possible to imagine an asymmetrical part with the aforementioned elements on one side and a simple counterweight on the other side correcting the unbalance caused by said elements. Nevertheless, the use of a firing pin having a lug on each side makes it possible to balance the forces and to reduce the torque caused by the bearing of the firing pin 1 on the butterfly 2.
The butterfly 2 is advantageously kept in the safety position by one or several springs 31, typically a torsion spring bearing on the one hand on one (or two) grooves 15, 16 arranged on the lateral parts of the butterfly 2 and on the other hand on the slide 5.
Advantageously, the firing pin safety butterfly 2 is controlled by a firing pin safety trigger tail 26 fastened to the frame (or a chassis inserted into the frame) via a horizontal axis perpendicular to the axis of the barrel, this firing pin safety control trigger tail also being balanced on its axis so as to prevent an accidental control of the safety butterfly 2.
The release safety trigger can either be integrated into the firing pin release trigger 28, or be integrated into a separate part (as shown in
Preferably, the shooting control chain actuated by the trigger is positioned so as to control the rotation of the firing pin safety butterfly 2 before releasing the firing pin 1. This sequence can either be obtained by a greater travel of the firing pin trigger tail 28, or more advantageously by using a separate firing pin safety trigger tail 26.
Number | Date | Country | Kind |
---|---|---|---|
20171206.4 | Apr 2020 | EP | regional |