The invention relates to a chamber of a handgun. The invention also relates to a handgun with such a chamber.
A generic chamber is known from DE 20 2011 002 579 U1. It comprises a chamber body rotatable about a longitudinal axis and axially displaceable in the longitudinal direction of the weapon, a firing pin axially movable in the chamber body, and a small breech arranged at the rear end of the chamber body, in which a cocking mechanism that can be actuated by a cocking slide is accommodated to cock and uncock a firing pin spring that acts on the firing pin. The cocking mechanism for cocking and uncocking the firing pin spring contains a sliding sleeve that is axially movable within the breech and a lever arrangement by means of which the sliding sleeve can be axially displaced when the cocking slide is actuated. The lever arrangement consists of an operating lever arranged within the breech so as to be pivotable about a transverse pin and an intermediate lever linked to it, which is connected to a slide part of the cocking slide extending through the rear wall of the breech into the interior of the breech. A relatively large number of parts are required for this lever arrangement in this known chamber, which increase the cost and assembly effort. An elongated hole for the inward extending slide part of the cocking slide is also required on the rear side of the breech. This elongated hole must be covered by an additional cover plate to prevent contamination.
One aspect of the invention relates to a chamber of a handgun and a handgun with such a chamber, in which the chamber can be easily assembled and permits simple and reliable operation with fewer parts.
Accordingly, a chamber of a handgun and a handgun with such a chamber are disclosed herein. Expedient further developments and advantageous embodiments of the invention are also disclosed herein.
The chamber of a handgun according to the invention contains a chamber body displaceable along a longitudinal axis, a firing pin guided so as to be axially movable in the chamber body, a firing pin spring assigned to the firing pin, and a small breech arranged at a rear end of the chamber body, in which a sliding sleeve actuatable by a cocking slide is arranged to cock and uncock the firing pin spring. The cocking slide contains a control cam for axial displacement of the sliding sleeve by means of a slide part movable in a straight line in the direction of the longitudinal axis of the chamber body and projecting rearward relative to the breech when the cocking slide is displaced between a lower uncocked position and an upper cocked position. Only a small passage opening is required in the breech due to the slide part movable in a straight line in the direction of the longitudinal axis of the chamber body. The slide part only executes a straight linear movement and therefore only requires limited space. Since the slide part also requires only a small passage opening in the chamber body, costly covers to prevent entry of contamination are also unnecessary. The passage opening can be covered by the cocking slide in all possible positions so that no additional covers or costly protective measures are necessary. A large travel path of the cocking slide is also made possible with few components in the chamber according to the invention, so that simple and effective force transfer can be achieved for cocking of the firing pin spring. The cocking characteristics can also be simply altered without expensive modifications by changing the control cam within the cocking slide.
In a particularly advantageous and easy-to-assemble implementation, the slide part projecting rearward relative to the breech can be made in one piece with the sliding sleeve. The slide part in an expedient embodiment can be designed, for example, as a rearward projecting extension of the sliding sleeve. The slide part, however, can also be designed as a separate component, for example, in the form of a pin or the like. Only a small passage opening, designed, for example, as an elongated hole and running in the direction of the longitudinal axis of the chamber body, through which the rear end of the slide part extends, is necessary in the breech for the slide part.
In order to permit particularly low-friction connection between the control cam on the cocking slide and the slide part, a contact roller rotatable about a transverse axis can expediently be arranged on the rear end of the slide part for contact against the control cam.
In a further advantageous method, the slide part can be supported on a support roller mounted to rotate in the breech. A rotatable roller can also be arranged on a firing pin nut fastened on the rear end of the firing pin for guiding between the firing pin nut and the slide part.
The inclined control cam can be expediently arranged on the rear side of a downwardly narrowing triangular recess in the interior of the cocking slide. The cocking slide can be guided to move in a sloping guide groove on the back of the breech. A spring-loaded pushbutton can also be arranged in a recess on the guide groove to secure the cocking slide in an upper cocked position.
The invention also relates to a handgun with the chamber just described.
A control cam can be arranged on the chamber body of the chamber to move a breech holding element between a lowered off-safe position to permit firing by the trigger mechanism when the chamber is locked and a raised safe position to prevent firing by the trigger mechanism when the chamber is unlocked. A safety against undesired discharge can thus be achieved via the chamber when the chamber is not locked.
Additional details and advantages of the invention are apparent from the following description of a preferred embodiment example with reference to the drawing:
A chamber 1 and a trigger mechanism 2 of a handgun designed as a repeating weapon are shown in different views in
An axially movable firing pin 9 shown in
The trigger mechanism 2 contains trigger 14 that can be pivoted about a first transverse pin 13 within a trigger housing 12, which in the depicted embodiment example consists of a trigger blade carrier 15 rotatable about the first transverse pin 13 and a trigger latch 16 releasably fastened to the bottom of trigger blade carrier 15. A trigger guard 17 is fastened to the bottom of the trigger housing 12. The trigger mechanism 2 also contains a sear 19 mounted to pivot about a second transfer pin 18 in trigger housing 12, which contains a sear stop 20, apparent in
In order for the sear 19 to be movable by the operation of trigger 14 from its upper cocked position for securing the firing pin nut 11 into a lower half-cocked position to release the firing pin 9, according to
It is apparent from
The breech catch element 25 can be moved by a control cam 63, shown in
As can be seen from
It can be seen in
The triangular recess 47 in the interior of cocking slide 37 is designed with control cam 46 so that the sliding sleeve 41 is pushed forward axially in the direction of longitudinal axis 5 during movement of cocking slide 37 from the lower uncocked position, shown in
In
The trigger mechanism 2 in
By retracting trigger latch 16, the first counter stop 58 on the upper end of the trigger blade carrier 15 releases the front first stop 57 on transfer element 24, so that the transfer element 24 can rotate counterclockwise and the front first arm 54 can move downward. The second stop 60 on the second arm 56 of transfer element 24 then disengages from the second counter stop 61 on sear 19, so that the sear 19 can be rotated into the lower half-cocked position to release the firing pin 9 acted upon by firing pin spring 10.
When chamber body 6 is rotated into an unlocked position from a lowered off-safe position, shown in
In the locking position of chamber 1, shown in
If, on the other hand, the chamber stem 4 is raised in the locking position shown in
In the completely unlocked position of chamber 1, pin 27 reaches the longitudinal groove 28 of chamber body 6 running in the longitudinal direction, so that the chamber 1 can be pulled rearward to open the chamber breech. The longitudinal groove 28 has a stop surface 66, shown in
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Number | Date | Country | Kind |
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10 2022 102 808.9 | Feb 2022 | DE | national |