CZ307506B6 - A percussion mechanism of a self-loading gun - Google Patents

Abstract

A percussion mechanism of a self-loading gun comprising a cock (1) arranged pivotally in the rear part of the pistol frame (3), and coupled, by means of a rod (5), to the control cam (7) provided with a percussion protrusion (72) that is coupled to the percussion spring (11) and the trigger (8). The lifter (10) of the catch (9) of the percussion protrusion (72) of the control cam (7) of the cock (1) is pivotally mounted on the trigger (8). In the pistol frame (3), behind the control cam (7), there is a U-shaped percussion spring (11), the rear arm (110) of which abuts on the frame (3) and the front working arm (111) abuts on the rear part of the control cam (7).

Description

The invention relates to a drum mechanism of a self-loading pistol comprising a cock rotatably arranged in the rear part of the pistol frame, which is coupled by means of a rod to a control cam provided with a drum protrusion, which is coupled to a drum spring and is actuated.

Prior art

The VIG 007 speedfire pistol (www.vigrand.cz) of the Czech company VIGrand s.r.o is known. (Czech patent CZ 306500). It is a self-loading pistol, which has a frame and a fixed barrel fixed in it and a mechanism for locking the breech during the shot, located under the barrel. The percussion mechanism of the pistol consists of a trigger, a cock catch, a rotating cam, a cock rod, a cock and a fuse, as well as a drum spring and return springs and a cock catch. The detonator is housed inside the breech, the cock is housed in the rear of the pistol behind the breech, and the other components are arranged below the barrel in the trigger location area. In the first variant described in the CZ 306500 patent, the drum spring is mounted on the axis of the rotating cam, in the second variant (www.vigrand.cz) the drum spring is mounted below the axis of rotation of the rotating cam, with one end resting on the axis of the rotating cam and the other bent. at the end it engages in a hole in the lower part of the rotating cam.

To fire, the trigger must be pressed, as a result of which the cock catch is raised and the rotating cam, connected by a rod to the cock, is released. Due to the action of the drum spring, the rotating cam rotates vigorously counterclockwise and, by means of the cock rod, rotates equally vigorously counterclockwise, which transmits the blow to the firing pin at the end and a shot is fired. After the shot, the breech moves backwards and the cock is pulled, thus turning it clockwise. Using the rod, turn the tap clockwise with a rotating cam that compresses the drum spring and the tap catch engages the drum protrusion of the rotating cam. This pulls the cock out and ready for the next shot.

The advantage of said self-loading pistol percussion mechanism is its functionality.

The disadvantage is the large load on the axis of the rotating cam during the automatic energetic stretching of the cock by the movement of the breech during the shot.

The load is given by the fact that the rotating cam copies the lower part of the tap with its dimensions, i.e. the distance from the axis of rotation of the cam to the bearing axis of the tap rod in the cam is the same as the distance from the axis of rotation of the tap to the bearing axis of the rod in the tap. As a result, this distance appears small and the angle of rotation of the cam is as large (about 60 degrees) as the angle of rotation of the tap. For the same reason, the working stroke of the drum spring is the same, but the length of its working arm is small, which can cause a short life of the drum spring.

The object of the invention is to reduce the load on the axis of the rotating cam and to achieve a longer service life of the drum spring.

The essence of the invention

The object of the invention is achieved by a percussion device of a self-loading pistol, the essence of which consists in that a lifter for lifting the drum protrusion of the tap control cam is rotatably mounted on the trigger, while a U-shaped drum spring is mounted in the pistol frame behind the control cam, the rear arm of which rests on the frame and front working arm rest on the rear of the steering cam.

- 1 CZ 307506 B6

In a preferred embodiment, the drum spring is formed by a coil spring in which at least one thread is formed between the rear arm and the front working arm, thereby increasing the force effect of the drum spring.

The drum spring can be formed by a flat spring or a wire spring, and in a preferred embodiment the drum spring is formed by a pair of wire coil springs, the front working arms of which are connected by a cross member, thereby increasing the reliability of its contact with the control cam.

To increase the reliability of the mechanism, the lifter is provided at the end with a catch tooth for interacting with the free end of the catch of the drum protrusion of the tap control cam.

In order to reduce the stress on the drum spring and extend its service life, the tap control cam is rotatably mounted on an axis in the gun frame in the trigger location region, the distance between the axis of rotation of the control cam and the axis of the pin on which the rod is mounted on the control cam. between the axis of rotation of the tap and the axis of the pin for accommodating the rod on the tap.

Explanation of drawings

The invention will be described on the basis of the drawings, in which Fig. 1 shows a part of a pistol frame with percussion mechanism components in the initial state when the cock is in the forward position, Fig. 2 shows a part of a pistol frame with percussion mechanism components in a stretched state before firing when the cock is in the rear position, Fig. 3a is a side view of the control cam, Fig. 3b is a side view of the control cam, Fig. 4a is a side view of the drum spring and Fig. 4b is a side view of the drum spring.

Examples of embodiments of the invention

The drum mechanism of a self-loading pistol according to the invention comprises a cock 1 rotatably mounted on an axis 2 in the rear part of the pistol frame 3, as shown in Figs. 2 and 3. The cock 1 is provided with an opening in which a rod 5 is mounted on the pin 4, the other end of which is mounted on a pin 6 arranged in the control cam 7, which is rotatably mounted around the axis 71 in the pistol frame 3 below the barrel in the trigger location area 8. A drum protrusion 72 is formed in the upper part of the control cam 7 to interact with the free end 91 of the catch 9. The distance between the axis 71 of rotation of the control cam 7 and the axis of the pin 6 on which the rod 5 is mounted on the control cam 7 is greater than the distance between the axis 2 of rotation of the tap 1 and the axis of the pin 4 on which the rod 5 is mounted on the tap f.

A trigger 8 is rotatably mounted in the frame 3 in a known manner, on which the lower end of the catch cam 9 of the control cam 7 is mounted at its lower end, at the upper end of which a catch tooth 101 is formed for interaction with the free end 91 of the catch 9. The trigger 8, catch 9 and the catch lifters 10 are coupled in a known manner to known return springs (not shown).

Arranged in the frame 3 of the pistol behind the control cam 7 is a U-shaped drum spring 11, the rear arm 110 of which rests on the frame 3 of the pistol and the front working arm 111, which is longer than the rear arm 110. rests at the rear on the upper part of the cam 7. .

In the illustrated embodiment, the drum spring 11 is coiled and at least one thread 112 is formed between the arms 110, 111. The coil spring 11 may be formed by a flat coil spring or several flat coil springs arranged side by side. Alternatively, the coil spring 11 may be formed by a wire coil spring or by several wire coil springs arranged side by side, wherein in the illustrated embodiment the drum spring 11 is formed by a pair of wire coil springs whose front working arms 111 are connected by a cross member 113.

-2GB 307506 B6

In an alternative embodiment, the drum spring 11 may be formed by one or more U-shaped flat or wire springs without a thread between the arms.

In the extended state before firing (Fig. 3), the cock 1 is in the drum position, is rotated clockwise and the control cam 7, connected to the cock 1 by means of the rod 5, is also in the drum position and is rotated clockwise. with respect to the rest position, or the post-shot position shown in Fig. 2. The free end 91 of the catch 9 of the drum protrusion 72 of the cam 7 is in the lower position and rests on the drum protrusion 72 in the upper part of the control cam 7, thereby preventing the control cam 7. to rotate counterclockwise by the action of the drum spring 11. The U-shaped drum spring 11 is compressed and pushes with its long front working arm 111 from behind onto the upper part of the cam 7, the trigger 8 is in the forward position and the jack mounted on the trigger 8. 10 of the catch 9 is in the lower position. Known return springs (not shown) of the trigger 8 and of the lift lifter 10 mounted thereon are released and are in the prestressed position.

To fire, the trigger 8 must be depressed. The trigger 8 rotates counterclockwise and lifts the lifter 10. The lifter 10 lifts up the free end 91 of the catch 9 of the drum 7 of the cam 7, which is caught on the catch tooth 101 of the lifter 10 and released cam 7. By the action of the drum spring 11 the cam 7 is energetically rotated counterclockwise and by means of the rod 5 it is equally vigorously rotated by the tap 1. The tap 1 transmits an energetic blow to the firing pin at the end and it breaks the cartridge capsule located in the cartridge. chamber mainly pistols.

After the shot, the breech is moved backwards by the action of energy from dust gases and is vigorously turned by tap 1 counterclockwise. By means of the rod 5, the tap 1 rotates the cam 7 clockwise equally vigorously and compresses the drum spring 11. As the drum protrusion 72 at the top of the cam 7 passes under the free end 91 of the cam catch 9, the free end 91 of the catch 9 lowers by its return spring comes into engagement with the drum protrusion 72 of the cam 7. The cam 7 stops in the drum position and the cock 1 stops in the drum position. The drum mechanism is pulled and the pistol is ready for another shot, for which the trigger 8 must be released and then pressed again. .

It can be seen from Figs. 2 to 3 that the angle of rotation (working stroke) of the cam 7 is much smaller than the angle of rotation of the cock 1 and that the working stroke of the upper long working arm 111 of the U-shaped drum spring 11 is also relatively small.

In this way, the invention ensures a much lower load on the axis of the cam 7, especially when the cock 1 is automatically pulled by the gun closure during firing, and a long service life of the drum spring 11.

Industrial applicability

The drum mechanism according to the invention is intended for self-loading pistols.

Claims (7)

PATENT CLAIMS A self-loading pistol drum mechanism comprising a cock (1) rotatably arranged in the rear of the pistol frame (3) and coupled by means of a rod (5) to a control cam (7) provided with a percussion protrusion (72) which is coupled to a drum spring (11) and a trigger (8), characterized in that a lifter (10) of the catch (9) of the percussion protrusion (72) of the control cam (7) of the tap (1) is rotatably mounted on the trigger (8), with the pistol in the frame (3) a U-shaped drum spring (11) is mounted behind the control cam (7), -3GB 307506 B6 whose rear arm (110) rests on the frame (3) and the front working arm (111) rests on the rear of the control cam (7). Drum mechanism according to Claim 1, characterized in that the drum spring (11) is formed by a coil spring in which at least one thread (112) is formed between the rear arm (110) and the front working arm (111). Drum mechanism according to Claim 1 or 2, characterized in that the drum spring (11) is formed by a flat spring. Drum mechanism according to Claim 1 or 2, characterized in that the drum spring (11) is formed by at least one wire spring. Drum mechanism according to claim 2, characterized in that the drum spring (11) is formed by a pair of wire coil springs, the front working arms (111) of which are connected by a crosspiece (113). Drum mechanism according to any one of the preceding claims, characterized in that the lifter (10) is provided at the end with a catch tooth (101) for interacting with the free end (91) of the catch (9) of the drum protrusion (72) of the control cam (7). faucet (1). Drum mechanism according to any one of the preceding claims, characterized in that the control cam (7) of the cock (1) is rotatably mounted on an axis (71) in the frame (3) of the pistol in the region of the trigger (8), the distance between the axis (71) the rotation of the control cam (7) and the axis of the pin (6) on which the rod (5) is mounted on the control cam (7) is greater than the distance between the axis (2) of rotation of the tap (1) and the axis of the pin (4). ) for mounting the rod (5) on the tap (1).