TR2023004056U5 - RIFLE SHED MECHANISM THAT MAKES A ROTATIONAL MOVEMENT WITHIN THE HORIZONTAL MOVEMENT OF THE CROWN HANDLE IN THE MECHANISM - Google Patents

Abstract

Our invention; It is used in all rifled and smoothbore rifles and is related to the firing mechanism on the upper body of the gun and the mechanisms to feed the cartridge into the barrel. The cocking lever (5) must be pulled back in order to take the cartridge into the firing mechanism (2) and insert it into the barrel (4). When the crown (5) is pulled back, the helical slotted cylinder (7) moves backwards, the helical slot (8) on it moves, the rotation shaft support head (10) fixed to the rotation guide inner shaft (11) inside, rotates on its own axis and moves to the rotation shaft (9). ) moves the stop head (10) until it stops. In this way, the need to close it by turning it downwards after pulling the crown (5) is eliminated. After this phase, the cock (3) necessary for the needle to hit the cartridge igniter is pulled back with the finger. This tensile force trigger mechanism (6) is activated when pulled, causing the cock (3) to hit the needle and the needle to hit the cartridge igniter in the barrel, thus igniting the cartridge.

Description

DESCRIPTION RIFLE BULLET MECHANISM WHICH MAKES A ROTATING MOVEMENT WITHIN THE MECHANISM WITH THE HORIZONTAL MOVEMENT OF THE COCKING HANDLE Technical Area: Our invention; It is used in all rifled and smoothbore rifles and is related to the firing mechanism on the upper body of the gun and the mechanisms to drive the cartridge into the barrel. The cocking lever (5) must be pulled back in order to take the cartridge into the inner part of the firing mechanism (2) and drive it into the barrel (4). When the crown (5) is pulled back, the helical slot (8) moves backwards in the helical slotted cylinder (7), the rotation shaft support head (10) fixed to the rotation guide inner shaft (11) inside, rotates on its own axis and attaches to the rotation shaft (9). ) moves the stop head (10) until it stops. In this way, the need to close it by turning it downwards after pulling the crown (5) is eliminated. After this phase, the cock (3) necessary for the needle to hit the cartridge detonator is pulled backwards with the finger. This tensile force trigger mechanism (6) is activated when pulled, causing the cock (3) to hit the needle and the needle to hit the cartridge detonator in the barrel, thus igniting the cartridge. System; stock (1), firing mechanism (2), hammer (3), barrel (4), cocking handle (5), trigger assembly (6), helical slot cylinder (7), helical slot (8), rotation shaft (9 ), consists of the rotation shaft support head (10) and the rotation guide inner shaft (11). Known State of the Technique: The cocking levers used in rifles and firearms, whether rifled or smooth-bodied, are generally used to retrieve the cartridge after being pulled from the top, and in the last stage to ensure contact of the needle with the cartridge by turning it towards the body of the rifle and bringing it closer. In this way, the rifle becomes ready to fire. In this type of rifles, during each shot, the cocking lever of the rifle must first be lifted up and pushed forward, then pulled back, carrying the cartridge to the barrel and closing the lever downwards. With the system that is the subject of our invention, the cartridge is carried into the barrel by pulling and releasing the cocking lever, and there is no need to move the cocking lever up or down. Explanation of Figures: The subject of our invention; "The rifle bolt mechanism that rotates within the mechanism with the horizontal movement of the cocking handle" is shown in the attached figures, and from these figures; Figure-1: It is the assembly perspective drawing of the "rifle bolt mechanism that rotates within the mechanism with the horizontal movement of the cocking handle". Figure-2: It is the assembly perspective drawing of the firing part of the "rifle bolt mechanism, which rotates within the mechanism with the horizontal movement of the cocking handle". Figure-3: "This is the detailed perspective picture of the firing part of the rifle bolt mechanism, which rotates within the mechanism with the horizontal movement of the cocking handle. Figure-4: "This is the detailed perspective picture of the rotation shaft of the rifle bolt mechanism, which rotates within the mechanism with the horizontal movement of the cocking handle. Figure-5: "This is the detailed perspective picture of the trigger mechanism of the rifle bolt mechanism that rotates within the mechanism with the horizontal movement of the cocking handle. Reference Numbers: This is our invention titled "Rifle bolt mechanism that rotates within the mechanism with the horizontal movement of the cocking handle", which is the subject of our useful model application. They are numbered as shown in the attached figures and the parts names corresponding to the numbers are below. Firing mechanism, winding lever trigger assembly, helical slot cylinder, helical slot rotation shaft, rotation shaft rest head -L-LCOO\ICDO1-ICii3f\)-L rotation guide inner shaft. Detailed Description: Our invention; It is related to the bolt mechanism of the rifle, which rotates within the mechanism with the horizontal movement of the cocking handle, and its feature is that the cocking lever (5) must be pulled back in order to take the cartridge into the inner part of the firing mechanism (2) and drive it into the barrel (4). The rotation shaft support head (10) fixed to the rotation guide inner shaft (11) inside the helical slot (8) moving backwards in the helical slotted cylinder (7), rotates on its own axis and moves the support head (10) until it rests on the rotation shaft (9). ) moves. In this way, the need to close it by turning it downwards after pulling the crown (5) is eliminated. To fire the gun, after the stock (1) attached to the gun body is placed on the user's shoulder; When the winding lever (5) is pulled back, the helical slot (8) moves backwards in the helical slotted cylinder (7), the rotation shaft support head (10) fixed to the rotation guide inner shaft (11) inside, rotates on its own axis and moves to the rotation shaft (9). ) by moving the resting head (10) until it stops, the cartridge is placed into the barrel (4). After this phase, the cock (3) necessary for the needle to hit the cartridge detonator is pulled backwards with the finger. This tensile force trigger mechanism (6) is activated when pulled, causing the cock (3) to hit the needle and the needle to hit the cartridge detonator in the barrel, thus igniting the cartridge. With the rifle bolt mechanism, which rotates within the mechanism with the horizontal movement of the cocking handle, which is the subject of our invention, the necessity of turning the handle onto the body and laying it down by simply pulling the cocking handle (5) back, the mechanism is automatically cocked from the inside without turning the handle, is eliminated. The rotation shaft (9) is also; The rotation shaft is the part that releases the support head (10) after locking it to the barrel (4) and locks the rotary head again when the rotary head is separated from the barrel when the handle is pulled back. This part is also the part that keeps the rotation shaft stop head (10) fixed while feeding from the magazine. TR TR TR