CS198962B1 - Stretching,charging and locking mechanism for fire arms,especially air rifles - Google Patents

Description

The invention relates to a firearm tensioning, charging and closing mechanism, which is especially intended for use with airguns, which are equipped with a fixed barrel preferably located above the main barrel of the air barrel, i.e. the longitudinal axis of the barrel lies outside the longitudinal axis of the barrel.

Known types of air rifles are mostly equipped with break-barrels, sometimes also called tipping barrels, and their tensioning, charging and closing mechanisms are quite complex and with prolonged use of the weapon, they show considerable unreliability of some of its parts, especially sealing elements, which has a negative effect on shooting accuracy. A further drawback of the known types of tensioning, charging and closing mechanisms is that they are either imperfectly solved, especially in view of the advantageous quick and easy handling, or they are not mechanically resistant enough, they wear easily, so that proper operation and performance of airguns deteriorates. One of the drawbacks of existing airguns is that the arrangement of the lever ratios and the arrangement of the rotary bearings and the joints of the tensioning mechanism are not solved so that by exerting a small manual thrust force achieves the greatest possible energy to compress the very strong piston bands. A very common drawback of known types of air rifles is that they are generally not well resolved with regard to quick and easy operations and easy replacement of worn parts by shooters themselves and at shooting stations during races and the like.

198 962

198882

As regards airguns which find the barrel located above the master cylinder, their tensioning, charging and closing mechanisms are particularly complex, do not allow the use of conventional elements. In addition, these mechanisms require particular demands on the overall design of the weapon, while not guaranteeing the versatile reliability and insufficient life of the individual components.

The invention overcomes the described drawbacks and the object of the present invention is to provide such an air rifle tensioning, charging and closing mechanism which, with the utmost simplicity, even with the smallest number of components, guarantees reliable and safe operation even with prolonged use of the weapon. Moreover, the invention allows the use of easy-to-manufacture parts, which are inexpensive to manufacture and do not require any particular precision requirements.

The invention further aims to provide a perfect and reliable mechanism with respect to use in high quality air rifles, i.e., primarily those designed for high firing performance and versatile reliability, particularly in terms of shooting accuracy.

The invention thus provides a new solution for the tensioning, charging and closing mechanism, especially for high-quality airguns, which allows a very comfortable way of tensioning the airgun system, reliably closes the charging chamber and automatically opens and closes the weapon lock when handling the tensioning lever. The invention further allows not only easy loading of bullets, but also calibrates each loaded bullet. Finally, the solution according to the invention avoids the effect of wear of the sealing elements in the pressure system of the weapon.

From the above it is evident that meeting all of these requirements places considerable demands on solving individual problems, which has been successfully solved by the invention, as finally proved in the tests. The great advantage of the invention is furthermore that the solved mechanism is very simple and that it perfectly fulfills all the required functions necessary to achieve high shooting performance.

The principle of the invention is that the tensioning, charging and closing mechanism for firearms, in particular air rifles, which is provided with a tensioning lever and a sliding shelf, a cylinder ee with a strap and a catch for the pietas stored therein, is designed so that By means of another pivot, one end of the connecting rod is attached by means of another pivot, the other koneo is connected by means of a bolt to the euport carrying the charging plug.

A further part of the invention then consists in that the centers of the pivot pin, pin and bolt lie in a common line in the rest position when the charging pin is inserted into the charging chamber. Another important aspect of the invention is that the euport is slidably mounted in dovetail guides formed on the cylinder, and that the charging plug is provided with a cavity for connecting the discharge channel from the cylinder space e with the charging chamber. The charging plug is then attached to the support by a pin located in the recess formed in the charging plug.

An equally important aspect of the invention is that the charging strap is at

188882 instead of the end of the barrel, there is a seal, the charging piston being abutted by its one end by a ring, the other end of which lies in a recess formed in the slide. On the bolt passing through the support, a tooth is provided for engagement with a recess provided in the piston wall, and on the piston retainer is formed another tooth adapted to engage with a recess in the piston.

Finally, it is to be understood that the tensioning mechanism formed by the tensioning lever articulated on the pivot pin on which the connecting rod connected to the bolt passing through its other end is attached by means of a further pivot pin is positioned together with the main weapon above the cylinder. The tensioning lever is then provided with a handle extension and the longitudinal axes of the pivot pin, the pin and the bolt are parallel to each other and perpendicular to the horizontal plane passing through the longitudinal axis of the cylinder.

An example of one embodiment of the invention is described and schematically shown in the drawings, wherein FIG. 1 is a cross-sectional view of a functional portion of the air rifle mechanism in a rested state, that is, in an un tensioned state, and FIG. FIG. 3 is a top view of the tensioned mechanism of the present invention; and FIG. 4 is a cross-sectional view of the functional portion of FIG. 3 in the tensioned state; and FIG. 5 is a cross-section showing the support guide in dovetail grooves. cylinders.

Fig. 1 schematically shows an exemplary embodiment of the invention on the overall configuration of a weapon system, in this case an air rifle provided with one cylinder 2 in which a piston 1 is received. The air rifle barrel 2 is mounted outside the longitudinal x-axis of the cylinder 2. . The piston 1 is provided with a thick strap 2 which, with its one end, rests on a recess in the bearing 6, while the other end of the strap 2 passes through a recess 2 formed in the piston 1 and abuts on the inner part of the piston bottom. 8, near which, preferably in close proximity to it, a drain channel 2 is formed connecting the space within the cylinder 2 to the barrel 2;

Under the cylinder 2, there is a catch 11 for the piston 1 and a trigger 12 in the housing 10. This catch

1.1 is provided with a tooth 33 adapted to engage a notch 32 formed in the wall of the piston 1.

In the bearing 6, which firmly closes the rear end of the cylinder 2, a pivot pin 13 of the tensioning lever 14 is provided. This tensioning lever 14 is of a flat design and its shape is particularly apparent from FIGS. 2 and 3. The pivot 12 is guided perpendicular to the main a flat part of the tensioning lever 16 to which is attached a handlebar extension 12, the length of which depends on the overall structure and appearance of the air rifle.

A hole 16 is formed in the flat part of the tensioning lever 14 through which the pin 17 of the tie rod 18 passes. This tie rod 18 is engaged with its other end in a bolt 19 which is accommodated in the slide 20. The slide 20 is provided with guide grooves at its bottom. On this slide 20, which is a sliding member, a bolt 12 is mounted and at the same time the charging piston 21 is β sealed 22. The bolt 19 is provided with a tooth 31 adapted for sliding.

188902 engagement β by recess 35 formed in the wall of Piet 1. The charging slice 21 is secured to the slide 40 by means of a pin 23, and a recess 24 is formed in said pin 21 to allow slight movement of the charging slider 21 in o and x direction.

The seals 22 mounted on the charging shoe 21 correspond to the shape and design of the end 10 of the barrel 20 on which it rests. The charging reel 21 bears a strong ring 25, the other end of which rests on the recesses formed in the slide 20.

As shown in particular in FIG. 2, the center of the pivot 13 of the tensioning lever 14 is centered on the pin 17 of the tie rod 18 and the center of the bolt 19 on a common line x. This arrangement provides the advantage of the fixed closing of the closing system of airguns, or all three functional center S _1, SG and is located in a dead position and auport 20 aa when closing the barrel 2, a charging plunger 21 is fixedly supported through a connecting rod 18 about the pivot pin 13 of the tension lever 14th

The charging reel 21 located on the sliding slides 20 extends far into the charging chamber 26 in the barrel to charge the missile to the beginning of the grooved portion 26 formed behind the charging chamber 26 in the barrel. provided with a cavity 29 for the passage of compressed air from the cylinder chamber 2 through the discharge channel 2. the cavity 29 into the charging chamber 26 of the barrel 2 *

In the position shown in Figures 1 and 2, when the weapon system is closed, the seal 22 provided on the charging strap 21 is pressed by a thick strap 25 against the barrel 30 of the barrel.

The recess 24 formed at the end 28 of the charging strap 21 allows a slight axial movement of the charging strap 21 by applying pressure from the straps 25 in the longitudinal oay direction of the barrel 2 *.

Figures 3 and 4 show that when the air rifle mechanism is tensioned, when the auport 20 is pulled away from the barrel 2, there is sufficient space to insert the projectile into the barrel charging chamber 26. chamber 26 up to the grooved barrel part 27 thereby causing each bullet to be reliably calibrated with a correctly selected diameter of the loading chamber 26 and the grooved part 27 of the barrel 2 each time the bullet is loaded.

The device according to the invention works as follows:

By deflecting the handle 15 from a position parallel to β by the longitudinal z-axis, which is shown in FIG. 2, to the position shown in FIG. 20 from the charging chamber 26 of the barrel 2 · S ₁ Wednesday pivot 12 ^»S ^ 2 pits 7 and bolts 19. lying on a common line, as shown in FIG. 2, the relative position changing Eva, £ pin 1 rotates and deflects and consequently, its center Sg also changes its position, as can be seen from FIG. 3.

12 on the support 20. The centers Sj of the pivot pin 12, Sg of the pin 16 and the plume 12 no longer lie on one common line, but on two lines which form an acute angle with each other and intersect at the center Sg of pin 17.

1M 96 2

By changing the position of the bolt 19 set in the euport 20. the support in the dovetail guide 14 formed in the cylinder 2 and the support 20 mounted on the support 20 are moved and moved away from the charging chamber 26 formed in the gun barrel. As the slide 20 is moved away from the rear end 30 of the barrel 2, the tooth 31 formed on the bolt 12 simultaneously exerts a pressure on the recess 60 provided in the piston shank, which is moved in elable motion in the cylinder 2. This sliding movement continues until the cut-out 32 formed in the wall of the piston 1 is caught by the catch tooth 33

11. at this point, the compression of the slings stored in the piston 1 is terminated, and at the same time the port 20 is pulled along the dovetail guide 34 formed on the cylinder 2 to the furthest position relative to the tapered end 30 of the barrel. at the end 30 of the barrel 2, a sufficiently large space is created for introducing the projectile into the loading chamber 26 formed in the barrel end 30.

Upon retraction of the tensioning lever 14 to the initial position shown in FIG. 2, after the projectile has been introduced into the charging chamber 26, the piety 1 is captured in the tensioned position, since the claw 33 of the catch 11 has engaged with the slot 32 formed in the piston wall. 1 as shown in FIG. Upon retraction of the tensioning lever 14 with the piet 1 retained in the position described by the claw 33 of the catch 11, the slide 20 is moved forward by the connecting rod 18 towards the charging chamber 2.6. When the end 28 of the charging piston 21 is pushed to the rear end 30 of the barrel 2, the charge piston 21 begins to advance the bullet previously inserted into the charging chamber mouth 26 into the charging chamber 26 until it reaches the grooved portion 27 of the barrel 2, thereby and when the diameter of the projectile calibrates, it forms them exactly to the diameter corresponding to the inside of the grooved part 27 of the barrel. As already mentioned, the piston piston 21 pushes the gun so far that it contacts the beginning of the grooved portion 27 of the barrel 24, which is provided immediately behind the charging chamber 26.

Just before the movement of the charging strap 21 is complete, the packing 22 of the charging strap 21 contacts the beveled end 30 of the barrel 30 provided at the inlet opening of the charging chamber 26 and then, after a short, final movement of the slide 20. is enabled by a recess 24 formed on the charging piston 21 in which the pin 23 can still be moved for a limited short distance. As a result, when the tensioning lever 14 shown completely in FIG. 2 is completely closed, the seal 22 of the charging strap 21 is pressed firmly by the force of the pressed-on straps 25 onto the beveled end 30 of the barrel 3. This creates a very reliable and perfectly impermeable seal and closing the pressure space for subsequent firing of the weapon, resulting in high reliability in firing. This design ensures, even after prolonged use of the weapon and the resulting wear of the seal 22, that the pressure chamber is always reliably sealed, since the ring 25 still compensates for any wear of the seal 22 provided on the charging strap 41. It is to be understood that even wear of the pivot pin 13 of the pin 17 or bolt 19 has no effect on the performance of the seal 22, which is constantly ensured by the arrangement according to the invention. '

9 8 9 B ²⁷ When the tensioning lever 14 is completely closed, the centers of the pivot pin 18, S _{2 of the} pin 17 and the bolt 19 are again aligned to a straight line or a dead position, again reliably securing the weapon loading system as shown in FIG. 2.

Of course, the arrangement according to the invention also has the advantage of perfect calibration of the projectiles, since each projectile is precisely calibrated during charging, thereby guaranteeing high accuracy of firing even in cases where lower quality ammunition is used in terms of manufacturing inaccuracies and manufacturing tolerances.

Claims (11)

Tensioning, loading and closing mechanism for firearms, in particular an airgun, having a tensioning lever coupled to a slide support, a cylinder with a strap and a piston catch therein, characterized in that on a tensioning lever (14) mounted on a rotatable One end of the connecting rod (18) is fastened by means of the pin (17), the other end of which is connected by means of a bolt (19) to the support (20) carrying the charging foot (21). Device according to claim 1, characterized in that the centers (S S) of the pivot pin (13), (Sg) of the pin (17) and (Sp of the bolt (19) lie in the rest position of the charging piston (21) in the charging chamber (26). ) on the common line (s). Device according to claim 1, characterized in that the support (20) is slidably mounted in a dovetail guide (34) formed on the roller (2). 4. Device according to claim 1, characterized in that the charging foot (21) is provided with a cavity (29) for connecting the discharge channel (9) of the cylinder (2) to the charging chamber (26). Device according to claim 1, characterized in that the charging piston (21) is attached to the support (20) by means of a pin (23) housed in the recess (24) of the charging piston (21). Device according to Claims 4 and 5, characterized in that a seal (22) is mounted on the charging piston (21) at a position opposite to the end (30) of the barrel (3), the charging piston (21) being abutted by one end. 25), the other end of which is formed by a recess formed in the slide (20). A device according to claim 1, characterized in that a bolt (19) on which a tooth (31) is formed to engage a recess (35) provided in the wall of the piston (1) is passed through the support (20). Device according to claim 1, characterized in that a cut-out (32) is formed in the piston (1) for engagement with the tooth (33) for the piston (1). ; 188962 Device according to claim 1, characterized in that the tensioning lever (14), the pivot pin (13), the pin (17), the tie rod (18) and the bolt (19) are located above the cylinder (2). Device according to claim 1, characterized in that the tensioning lever (14) is provided with a handle extension (15). Device according to claim 1, characterized in that the longitudinal axes of the pivot pin (13), the pin (17) and the bolt (19) are parallel to each other and perpendicular to the horizontal plane passing through the longitudinal axis (x) of the cylinder (2).