CZ305334B6 - Self-loading pistol cocking mechanism - Google Patents

Abstract

The cocking mechanism of a self-loading pistol according to the present invention comprises a frame (1) with a breech (2) mounted slidably and adjustably in the direction of the barrel axis thereon. A contact surface of a cock (7) is assigned during cocking to said breech (2) rear cocking surface (3) wherein the cock (7) is rotatably mounted in the frame (1). A rod (91) of a striking spring (9) mechanism is mounted on the cock (7). Through removal of a portion of a breech (2) body, there is performed in the breech (2) lower rear portion a contoured surface (21), which, if compared with the state before the removal of the breech (2) body portion, increases the distance between the point (A) of the breech (2) and the cock (7) interaction during cocking thereof in the course of the rearward movement of the breech (2) and the cock (7) axis of rotation (8).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mechanism for cocking a tap of a self-loading pistol comprising a frame on which a slide is displaceably displaceably mounted in the direction of the barrel. drum spring mechanism rod.

BACKGROUND OF THE INVENTION

There are known CZ-75 pistols manufactured by Česká Zbrojovka Uherský Brod, Czech Republic, pistols SIG - Saurer P 226, manufacturer J. P. Saurer & Sohn GmbH, Germany.

These are self-loading pistols with firing pin trigger mechanism of the tap type. When firing, the breech shell is pushed backward under the pressure of the dust gases and its rear surface pushes on the faucet, bringing the faucet to the unlocked position for the next shot. Due to the rear end of the breech, the tap rotates in a direction opposite to the drum and compresses the drum spring.

A positive feature of such firing pin trigger mechanism is the possibility of firing by lightly lowering the tap already cocked to the unlocked position, which helps to minimize the gun from the target when aiming at the moment the trigger is pressed while aiming.

The disadvantage is the increased recoil force felt by the shooter during cocking the breech when the breech is pushed back. The shooter has the same feeling when manually pulling the breech for supplying the cartridge into the cartridge chamber before shooting compared to the manual cocking of the breech when cocked.

The object of the invention is to reduce the recoil force felt by the hand of the shooter when the tap is automatically cocked.

SUMMARY OF THE INVENTION

The object of the invention is achieved by the cocking mechanism according to the invention, which is characterized in that in the lower rear part of the breech, by removing part of the breech body (2), a shaped surface is created. the point of interaction of the breech with the cock when it is retracted during the retraction of the breech and the axis of rotation of the withers.

This increases the linear distance between the axis of rotation of the faucet and the point of engagement of the breech on the faucet as it is cocked, that is, the arm of the force is increased from the breech to the faucet, and consequently reduced recoil. At the same time, the resistance of the percussion spring to the breech when the tap is stretched is reduced, since the difference between the length of the arm and the arm of the percussion spring to the breech increases. In a simple production variant, the shaped surface is formed by an inclined surface.

- 1 GB 305334 B6

Clarification of drawings

The cocking mechanism according to the invention is schematically shown in the accompanying drawings, in which: Fig. 1 shows a general view of the pistol with a cut at its rear at the point of interaction of the rear end of the breech with the rest; a cut in its back after cocking.

DETAILED DESCRIPTION OF THE INVENTION

A self-loading pistol with a cocking mechanism according to the invention comprises a frame 1, which is provided with a grip for holding the hands of the shooter. On the frame 1, in the known manner, a slide 2 is displaceably displaceably adjustable in the direction of the axis of the barrel, in the rear part of which a rear winding surface 3 is formed which bears against the contact surface of the tap. that it rotates it to a cocked position in which the tap 7 is ready to fire.

In the rear of the breech 2 is located firing pin 5, whose rear surface is intended to contact with the tap 7 and in the front part is created a firing pin to abut the cartridge capsule.

The faucet 7 is rotatably mounted in the frame 1, in the illustrated embodiment the faucet 7 is rotatably mounted on a pin 8 which is fixed in the frame i. The rod 7 of the drum spring mechanism 9 acting on the faucet 7 in a known manner the direction of its percussion movement, i.e. in a direction opposite to the movement of the tap 7 as it is stretched. The bearing axis of the bar 91 of the drum spring mechanism 91 is designated B in the figures.

In the lower rear portion of the breech 2, a shaped surface 21 is formed which reduces the rear stretcher face 3 and displaces the breech 2 contact point A with the tap 7 when the tap 7 is stretched away from the axis of rotation of the tap 7. the faucet 7 in retraction of the breech 2, thereby reducing the recoil transmitted through the gun frame to the shooter's hand. The tapping point A of the slide 2 with the tap 7 when stretching the tap 7 is in fact formed by a line which, in the cross-section of the embodiment of FIGS. 1 and 2, represents a point and whose length corresponds to the width of the tap.

At the same time, the difference between the length of the force arm from the rear of the breech 2 on the faucet 7 and the arms of the percussion spring 9 on the faucet 7 is increased, of the tap 2 and the tap 7 and the arm of the action of the percussion spring 9 on the tap 7 is the distance between the axis of rotation of the tap 7 and the bearing axis B of the drum spring mechanism 9. This reduces the resistance of the tap 7 and the percussion spring 9 to the slide 2.

An equivalent shaped surface 51 is formed in the lower rear of the firing pin 5 to the shaped surface 21 in the lower rear of the firing pin 5 so that the firing pin 5 does not interfere with the breech 2 with the tap 7. In the illustrated embodiment, the shaped surfaces 21 and 51 are formed by inclined surfaces one plane.

From the point of view of the force action, it is advantageous to move the point A of the relative contact of the breech 2 with the tap 7 while stretching the tap 7 as far away from the axis of rotation of the tap 7.

The shaped surfaces 21 and 51 may also be formed by other suitable means, a cylindrical recess, a square or a rectangular recess, a general surface.

The cocking mechanism 7 operates as follows:

-2GB 305334 B6

In the initial state, after manually tapping the tap 7, the slide 2 is in the forward extreme position, closing the channel mainly by the cartridge case. The firing pin 5 is in its rearmost position by its return spring and not reaching its cartridge capsule with its firing pin. The faucet 7 is in the cocked position in the percussion position ready to strike the firing pin 5 for firing. The percussion spring 9 is compressed in the readiness to throw the faucet 7 in the percussion direction to transmit the hammer 7 impact to the firing pin 5.

When the trigger is actuated by the shooter, the faucet 7 is pulled from its percussion position and by the action of the expanding percussion spring 9 transmits a shock of energy to the firing pin 5, which breaks the capsule-lighter capsule with its striker and fires. By the action of dust gases the bullet flies out of the canal and the slide 2 begins its movement backwards - recoil. With its rear surface 3 it pushes the slide 2 against the tap head 7 at point A and begins to cock the tap 7 and compress the drum spring 9. The resistance force of the tap 7 and the drum spring 9 against the slide 2 when cocking the tap 7 depends that is, the distances between the axis of rotation 8 of the tap 7 and the point A of the breech 2 to the tap 7, and also the difference between the arm of the force from the breech 2 to the tap 7 and the arm rotation of the tap 7 and the bearing axis B of the drum spring mechanism 9. As the arm extends from the breech 2 to the tap 7, the anti-slip resistance of the breech 2 by the tap 7 and the drum spring 9 decreases causing recoil. As the slide 2 is moved backwardly into interaction with the tap 7, the tapered shaped surface 21 of the slide continuously enters, which continues to continuously extend the tap 7 and set it to the percussion position.

Industrial applicability

The mechanism of cocking the tap of the self-loading pistol in comparison with the prior art provides less resistance to the tap and the percussion spring of the breech when it is retracted after firing and correspondingly reduces the recoil on the gun frame and gunner's hand at the beginning of the breech. In addition, the invention facilitates manual stretching of the breech

Claims (3)

A cocking mechanism for a self-loading pistol tap comprising a frame (1) on which a slide (2) is displaceably displaceably mounted in the axial direction of the barrel, whose rear cocking surface (3) is associated with the cocking surface (7); which is rotatably mounted in the frame (1), and on the faucet (7) is mounted a rod (91) of the drum mechanism (9), characterized in that in the lower rear part of the breech (2) 2) a shaped surface (21) is provided which, in comparison with the condition prior to the removal of a part of the breech body (2), increases the distance between the breech (2) and the tap (7) and the axis of rotation (8) of the tap (7). Mechanism according to claim 1, characterized in that an equivalent shaped surface (51) is formed in the lower rear of the firing pin (5) to the shaped surface (21) in the lower rear of the breech (2). Mechanism according to claim 1 or 2, characterized in that the shaped surface (21) in the lower rear of the breech (2) and the shaped surface (51) in the lower rear of the firing pin (5) are formed by an inclined surface.