SU1725065A1 - Mechanism for winding pneumatic spring gun with parallel cylinder under barrel - Google Patents

Abstract

The invention relates to airguns, namely to the mechanisms of airgun arresting. The purpose of the invention is to improve the convenience of weapons in operation by reducing the amount of overturning the moment arising during the cocking of weapons. The cocking mechanism of a pneumatic spring gun with a parallel under-barrel cylinder arrangement comprises a cocking lever 1 with an axis 2 placed in a cylinder 9 and a thrust 3, and a sear 6 with a spring 7 pivotally mounted in the sleeve 8 of the cylinder 9. During the cocking operation, the cocking lever 1 turns clockwise on axis 2. In this case, the ha 3 pulls the sleeve 8 back, and it compresses the spring 5. At the end of the stroke, the sear 6 engages with the piston 4. Then the cocking lever 1 returns to its original position. In this case, the ha 3 pulls the sleeve 8 with the piston 4 fixed forward. The cocking lever 1 is locked in the rest position. The weapon is ready to fire. 3 il. cl

Description

The invention relates to airguns, namely, to mechanisms for inflating a pneumatic spring weapon.

A known mechanism for cocking a pneumatic spring weapon with a parallel under-barrel cylinder arrangement, in which the function of the cocking lever performs the barrel. When cocked, the guns rotate counterclockwise, around an axis located in the front of the box at the muzzle of the barrel, in front of the compression chamber. The barrel leans forward and takes a position at an angle of 90-100 ° to the axis of the box. In this case, a ha ha, hingedly connected to the barrel, moves the piston from the mainspring forward.

A known mechanism for cocking a pneumatic spring gun with a parallel double-barrel cylinder arrangement, comprising a piston with a combat spring, and a cocking lever with a thrust. In this case, the lever axis is located in the cylinder in front of the compression chamber closer to the muzzle of the barrel. The pivotally mounted sear with a spring is housed in a sleeve (liner) fixedly mounted inside the cylinder.

When cocking the weapon, the cocking lever is rotated counterclockwise around an axis, while the ha on the lever moves the piston with the combat spring forward.

The disadvantages of the known cocking mechanisms are the inconvenience in operation associated with the inconvenience of the gun cocking process, since during cocking a tilting moment occurs, which tends to tear the weapon away from the support.

The purpose of the invention is to increase the convenience of weapons in operation by reducing the amount of overturning moment arising during cocking of weapons.

At the time of the greatest tension of the cocking lever, the arm is in a conveniently bent state. In addition, this mechanism is useful when cocking the weapon when shooting prone.

The goal is achieved by the fact that in it the axis of the cocking lever is located behind the compression chamber, and the tractor is pivotally connected to a sleeve made with the possibility of longitudinal movement inside the cylinder.

FIG. Figure 1 shows the cocking mechanism, the position of the parts after the shot, the general view; in fig. 2 - the same, the position of the parts when cocked in FIG. 3 - the same position of the parts when the cocking lever returns to its initial position.

The cocking mechanism contains the cocking lever 1, the axis 2 of the cocking lever, t gu 3,

pivotally mounted on an axis in a lever, piston 4 with a mainspring 5, sear 6 with a spring 7, pivotally mounted in a sleeve 8. The latter is installed with the possibility of longitudinal movement in the cylinder 9, above which is located the barrel 10 with the breech 11. The glands 3 with the bushing 8 are made with the help of an axis 12. A groove 13 is made on the piston 4.

squeeze. In the initial position (Fig. 1), the piston 4 is in the rearmost position under the action of the mainspring 5, and the sleeve 8 in the front one. Arm 1 is closed and locked. The sear 6 is turned counter-clockwise and rests on the piston.

The mechanism works as follows.

When cocking the weapon, the cocking lever 1 is rotated around the axis 2 clockwise, while the ha 3 retracts the sleeve 8, the latter compresses the spring 5, When the sleeve 8 reaches the groove 13 on the piston 4, the sear 6 engages with it .

Further, when turning the lever 1, the counterclockwise counterclockwise (when it returns to its original position), the ha 3 withdraws the sleeve 8 with a fixed piston 4,

Claims (1)

compressed combat spring 5 forward. This releases the compression chamber 14. The locking lever 1 is fixed in the forward position. The weapon is ready to fire. Invention Formula The cocking mechanism of a pneumatic spring gun with a parallel cylinder underside, containing a cocking lever with an axis located in the cylinder and a tight and spring-loaded sear that interacts with the piston and is located in a sleeve installed inside the cylinder with a compression chamber located under the breech for the purpose of increase the convenience of weapons in operation by reducing the amount of overturning moment arising during cocking of weapons, in it the axis of the cocking lever is located behind the compression chamber, and pivotally connected to the sleeve, made with the possibility of longitudinal movement inside the cylinder.