FR3001798A1 - Weapon device i.e. rifle, for hunting game, has cylinder with necessary elements for projection of ammunition at specific rate, and arming rod that is arranged to cross brake that is pushed by spring, where brake is pulled by thrust - Google Patents

Abstract

The device i.e. rifle, has a cylinder that is arranged with necessary elements for projection of ammunition at a specific rate. An arming rod (24) is arranged to cross a brake (8) that is pushed by a return spring (10). The brake is pulled by a thrust axis. A lever (5) is compressed by the spring. A set of limps is arranged to block the arming rod with regard to the each projection of ammunition. A blocking spring is arranged with a steel strip and a door strip. The spring is compressed without slackening.

Description

The present invention aims to use the shooter's muscular strength to propel ball and shot cheaply, noise and pollution because this invention removes the sleeves, powder and primer that will no longer defile nature. The shot will be quieter and the hunt will be more athletic (compared to bow hunting). This patent consists of six figures: 1.Figure I shot of the shotgun Ifigure II cut of the shotgun completed Ifigure III cut of the shotgun ready to fire (armed) 4.figure IV cut of the spring tension mechanism 5.figure V 6. Figure VI section of the barrel with the baffle. Operation figure I This rifle is armed with the force of an arm by operating a retractable cocking lever (12). This off-hunting lever is de-limbed and docked on lever poses (8) provided on the butt (9). The firing mechanism is unarmed. The spring (6) is relaxed, the spring guide (43) is relaxed. We see the butt (9) and the lever doors (8). The return spring (10) on the cocking rod (7). The viewfinder (5), the piston (4), the cylinder (3), the air borrowing pipe (30), the barrel (2) and the sight (4). The silencer (35) can be added if you want silence during the perfect shot because the baffle cylinder (44) eliminates most of the noise. We see the valve (15) which opens at the moment of firing, the rotary magazine (14), the barrel (21). The push rod (13) controlled by the retractable lever (12), the spring guide (49). The trigger (11) which is controlled via a trigger rod (32), a trigger (three pieces) Figure IV. A trigger spring (31) ensures the return of the arming of the firing trigger FIG. Figure II in section shows the different parts operating to make the energy propelling the ammunition in this case, they are in propulsion mode. The valve (15) is open, the piston (4) is at the maximum low point pushed by the cocking rod (7). The cylinder (3) supports all these parts presented including a compression cage (36) which has the role figure IV to arm the spring and hold them in position. The spring guide (45) which is attached to the arming rod (7) compressor. This spring (1-5 at the barrel outlet on the cocking rod (7) is fixed with a return spring (10) which is compressed and will pull the piston (4) to position it at the disarmed stage (Figure III). shows in section the piston cylinder in the armed position (ready for firing) Thanks to the coming and going of the cocking lever (12) acting on the arming mechanism (IV), the cocking rod (7) has moved back and the spring (6) is compressed by the spring guide (15), the arming rod (7) protrudes from the cylinder (3) and the return spring (10) is seen stretched to trigger the firing; press the trigger (11) which, via the trigger rod (32), will trigger the release mechanism (37) Fig. IV demonstrates the spring tension mechanism and also triggers the shot. a housing (16) housed in the cylinder (3), it comprises the cocking rod (24) which passes through it, a tension spring (17) pushes a brake (8) which passes through the cocking rod (24). It is this brake (8) which advances the cocking rod (24). Outside the housing (16) are positioned a locking spring (19), a trigger (37) which is also traversed by the cocking rod (24) and a steel strip (also traversed) is positioned on a slat door hold in the off position the cocking rod (24) cocking rod are integral (38). The lever by a lever axis (46) will act on a force axis (23) on the thrust axis (22) to control the brake (8) which advances the cocking rod (24). Figure V section showing the operation of the valve (15) 35 and the rotary yoke (27). The valve (15) presses to close the air during compression on the cylinder (3). A guide of sou- (21). These parts are used when the brake (8) moves back to advance the (24). The numbers (19), (20), (21), (37) of the trigger (11) and the retractable cocking trigger rod (5) fixed to the casing (16) poppet (39) provides maintenance of it. A hinge (26) pushes on a caliper (47) and levering releases the valve (15) from its housing. It is the piston (4) which at the end of the race, causes this withdrawal movement by pressing. A mobile wand fixed to the cylinder (3) by a thread (48) will charge the barrel (2) of ammunition without releasing the compressed air. There is provided a bolt (40), bolt (40), a rotary yoke (27) equipped with fins (41) which will operate in half-turns pushed by compressed air coming from the pipe (30). ).

The cartridges or bales are arranged in a magazine (49) and magazine (50) pushed by a spring. By its rotary movement, the pushed ammunition will enter the barrel (2) and will be ejected with each shot, replaced by another ammunition. Figure VI shows the section of the silent gun and compressed air. The barrel (2) targeted on the cylinder (3) is surrounded by a cylindrical tube. The baffle (44) of compressed air which expels the ammunition (25) at the end of the barrel (2) caused by one or more outlets (43). This air is pushed back into the cylinder (44) and passes into the baffles and exits through the outlet (43) near the cylinder (3). This arrangement prevents hearing the sound of "champagne cork" at the exit of the projectile. If we want to further improve the noise suppression, a silencer (35) will be screwed into barrel (2). The compressed air pipe (30) is seen supplying compressed air to the rotary yoke (29). It is explained that the shot cartridges can be ejected in a tight or expansive sheaf; the procedure used will be that the barrel is always scratched to eject the balls with high precision (centrifugal force). The cartridges of diameter to follow the stripes which the barrel is equipped, will leave the barrel (2) by scattering their shot, those which will be smaller will not turn and because, the charge of lead will remain grouped because the cartridge in accompanying the shot, will protect the lead shot from scattering and will stay tight.35

Claims (7)

CLAIMS1) To provide hunters and shooters on target, a silent weapon, economical, ecological (not socket) and sporty (energy is provided by muscle strength). He is presented with a rifle that should achieve these goals. The penetration power of ammunition will also be roughly equivalent to powder ammunition, but the slower rate of fire will allow game to escape. The explanations and details of this weapon will be found in the figures: Figure I shows this weapon in general section; FIG. II weapon in firing position; FIG. III weapon in standby position; FIG. IV operation of arming and firing; Fig. V operation of the valve and rotary yoke -figure VI operation of the muffler and the like. 2) Device according to claim 1 characterized in that Figure IV a stationary arming box in the cylinder (3) comprises 20 elements for providing energy necessary for the projection of ammunition. It is an arming rod (24) which passes through a spring-loaded brake (8) (17). This brake is driven by a thrust pin (22) and is supported by a force axis (23) controlled by a reverser (51) and actuated by the lever es-25 camotable (5). The cocking rod will advance with each movement of this lever (5) compressing the spring (6). 3) Device according to claim 1 characterized in that figure IV a system being provided outside the box (16) for locking the cocking rod (24) each advance thereof by the brake 30 (8) and will serve to completely release this cocking rod (24) when firing. It is composed of a locking spring (19), a trigger (37), a steel strip (20) and slat door (21). The firing trigger system is composed of a trigger (11), a return spring (31), a double trigger rod (38). 4) Device according to claim 1 characterized in that fi-gure V when triggering firing, the piston (4) pushed by the rod (7) compresses the air and lastly hits a joint (26) which thanks to calluses (17) and two valve guides (39) cause the valve (15) to move backwards, which ejects the compressed air to the assembly 5) Device according to claim 1 characterized in that gure V a two-piece bolt (29), bolt (40) (27) equipped with vane (41) propels fi-plays a rotary yoke by or l l compressed air by a pipe (30). This mechanism by making a U-turn will allow the compressed air not to escape by the retraction of a new munition pushed by the loader (49) and loader (50) equipped with spring. 6) Device according to claim 1 characterized in that Figure II and III the ammunition projection mechanism is com- posed of a cylinder (3) which is provided with a cocking rod (7) (7) is where is fixed a piston (4) end. This arming rod; FIG. 11 is a shot characterized by a lower diameter (not being driven by the barrel if the stripes or an expansive shower 20 shows the elements included in the shot, the spring (6) is compressed the spring (6) is relaxed . 7) Device according to claim 1 shot may be projected in a tight spray if it is fa- cartridge is manufactured moved by the housing (16) figure IV controlled by the retractable lever (12). This cocking rod (7) pushed by means of a spring guide (45) a spring (6). Figure III the cylinder (3): waiting for took place, that of a diameter equal to the barrel. This cartridge will come out of the barrel while turning and the shot will make an expansive sheaf. 30