RU2082933C1 - Pneumatic underwater gun - Google Patents

Abstract

FIELD: pneumatic underwater gun. SUBSTANCE: gun has barrel, barrel mouthpiece, receiver, piston and grip with trigger mechanism. At loading harpoon is inserted in barrel and enters piston hole with its end-piece. At end of loading, when piston rear seal passes hole in barrel, chamber, connected to receiver through check valve, is formed. With further backward motion of piston, air flows into receiver. Prior to cocking, harpoon with piston moves forward, pressure in sealed chamber drops, and push force in harpoon is reduced. After trigger is pulled and harpoon starts moving piston rear seal passes hole in barrel and receiver air acts on piston. EFFECT: improved design. 3 dwg

Description

 The invention relates to a pneumatic underwater gun and is used in pneumatic weapons to throw various shells.

 Analogs of a pneumatic gun are known from the art (ed. St. N 1126805), which contains a barrel, a receiver, a muzzle, a piston, a handle with a trigger in its design.

 Its main disadvantage is the great effort of the descent.

 The prototype of the invention is a pneumatic gun (ed. St. N 1208463) containing a barrel, a muzzle, a receiver in communication with the bore of the barrel, a piston with a seal in a predetermined part, with the possibility of forming behind the piston a chamber with a movable pressure relative to the pressure in the receiver when placed on platoon, check valve in the rear of the barrel, harpoon, handle with a trigger.

 The disadvantage of the gun is the complexity of the design and reduced efficiency of energy use.

 The proposed design of the gun provides a reduction in the force ejecting the harpoon at the initial moment of the shot by several times and a decrease in the pulling force. This increases the accuracy and reliability of the trigger.

 The pneumatic gun contains a barrel, a muzzle, a receiver, a piston having a seal at the rear, a check valve at the rear end of the barrel, a harpoon, a handle with a trigger. Unlike the prototype, the piston also has a seal in the front part, the holes for communicating the barrel and receiver cavities are made at a distance from the rear end of the barrel, sufficient to form a chamber behind the piston with a decrease in pressure relative to the pressure in the receiver.

 In FIG. 1 shows a shotgun in a combat platoon in section; in FIG. 2 compensation scheme of the throw-up moment of the recoil force; in FIG. 3 diagram of a trigger locking a harpoon in a muzzle.

 The gun contains a barrel 1, a muzzle 2, a receiver 3, a piston 4 with front and rear seals, a handle 5 with a trigger. When loading the harpoon 6 is introduced into the barrel and with its shank enters the blind hole of the piston, and water is displaced from the hole through the gap between the harpoon and the walls of the hole, compressed air flows from the barrel into the receiver through the hole 7 in the barrel. At the end of loading, when the rear piston seal passes through hole 7, a chamber 8 is formed, which is connected through the air to the receiver through the check valve 9. As the piston and the harpoon move further back to the limiter 10, air flows from the chamber through the valve into the receiver. Before putting on a combat platoon, harpoons with a piston are moved forward under the action of air pressure remaining in the chamber, the chamber is sealed and the pressure in it begins to drop. When set on a combat cock, the pressure in the chamber will be approximately the same time less than the pressure in the receiver, as much as its final volume is greater than the minimum when the piston moves backward, accordingly, the buoyancy force on the harpoon will be proportionally reduced. After pressing the trigger and starting the harpoon, the rear piston seal leaves the chamber, and air from the receiver begins to act on the piston with maximum force. When the harpoon moves along the trunk, water from the "harpoon-barrel" cavity flows out through the hole 11 at the top of the muzzle, and the hole cross section is selected so that the angular momentum of the reactive force of the outflowing water compensates for the angular momentum of the recoil force relative to the point of application of the hand force to the handle. At the end of the working piston, when its leading edge passes through the hole 11, a quasi-hermetic cavity is formed with water displaced by the piston through the harpoon-muzzle, harpoon-hole in the piston, piston-barrel-hole 11 channels. The total hydraulic resistance of these channels and the nature of its changes are selected so that they provide smooth and shockless braking of the piston. The length of the blind hole in the piston is many times greater than the length of the braking distance of the piston, and the harpoon comes out of it after the piston stops against the muzzle.

Claims (1)

 Pneumatic underwater gun containing a barrel, a muzzle, a receiver in communication with the bore, a piston with a seal in the rear, with the possibility of forming behind the piston a chamber with reduced pressure relative to the pressure in the receiver when placed on a cocking, check valve in the rear of the barrel, harpoon , a handle with a trigger, characterized in that the piston has a seal in the front part, and the hole for communicating the cavity of the barrel and receiver is made from the rear end of the barrel at a distance that provides Seal location at the rear of the piston for opening during arming.

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