RU2134859C1 - Hydropneumatic gun - Google Patents

Abstract

FIELD: sporting equipment, in particular, sporting guns for underwater shooting, applicable in pneumatic rifles. SUBSTANCE: the barrel of the hydropneumatic gun accommodates a working piston having an opening equal to the diameter of the harpoon tail section; the harpoon is made in the form of two cylinders, and its traveling section is positioned in the compression zone of the pressure piston and linked with the working piston; the pneumatic spring is located in the interior of the pressure piston and linked with the discharge revolving lever of the harpoon-line. Controllable check valve communicating the compression zone of the pressure piston with the overboard space is installed in the gun body. The axial line of the pneumatic spring working stroke is positioned at on angle to the barrel axial line. EFFECT: fuller utilization of the pneumatic spring power, enhanced reliability, enhanced accuracy of fire. 3 cl, 2 dwg

Description

 The invention relates to sports weapons, namely to sports guns for spearfishing.

 A hydropneumatic spearfishing gun is known, comprising a body, a barrel, a harpoon, a trigger whisper, a pressure piston compression zone connected by a channel to the outboard space, a non-expendable air spring. In this gun, the harpoon is pushed out by water due to the energy of a non-expendable pneumatic spring, which is a stationary tubular cylinder and a movable piston. The internal cavity of the air spring is connected through a check valve to the body of the gun and is filled with pre-compressed air. The movement of the movable piston of the air spring is carried out by pumping in the intake water with a hand pump, which leads to additional air compression in the air spring cavity. When the trigger is pulled, the movable piston of the air spring pushes water, which in turn pushes the harpoon (1).

This design does not provide rational use of air spring power due to the fact that the diameter of the barrel is equal to the diameter of the harpoon, and the diameter of the harpoon is limited by operational requirements and the length of the acceleration of the harpoon is equal to the length of the barrel;
high rate of fire due to the use of a hydraulic pump;
ease of use due to the fact that the harpoon-line cannot be wound before the harpoon is loaded into the barrel and the harpoon travel (firing force) is adjusted before and after loading the gun with a harpoon;
high accuracy of the shot due to the movement at the time of the shot masses of air springs, water in the discharge zone, and the harpoon in one direction.

 Also known is the design of a hydropneumatic spearfishing gun (prototype) comprising a body, a barrel, a harpoon, a trigger whisper associated with a pressure piston, a compression zone of a pressure piston connected by a channel to the outboard space, a non-expendable pneumatic spring whose internal cavity is connected to the body of the gun through check valve. In the gun of this design, the harpoon is pushed out by water due to the energy of a non-expendable pneumatic spring, which is a tubular fixed cylinder, inside which a movable piston is connected, connected with the cocking lever by a rod passing through the end wall of the housing. The air spring is plunged into combat state by the platoon lever, and the trigger device is connected to the movable piston (2).

This design does not provide rational use of air spring power due to the fact that the diameter of the barrel is equal to the diameter of the harpoon, and the diameter of the harpoon is limited by operational requirements and the acceleration length of the harpoon is equal to the length of the barrel, while the length of the barrel is insignificant to the total length of the stream due to the impossibility of changing the design of the air spring (decrease) initial platoon length;
ease of use due to the fact that the harpoon-line is not wound before refueling in the barrel and the harpoon travel (firing power) is adjusted before and after loading the gun with a harpoon;
high accuracy of the shot due to the movement at the time of the shot masses of air springs, water in the discharge zone and the harpoon in one direction.

The objective of the invention is a more complete use of air spring power;
change (decrease) of the air spring along the length when platooning into a combat position;
increased reliability of the structure by reducing critical movable sealed seals;
reduction in size (length) of the gun relative to a given barrel length;
providing harpoon-line laying before the harpoon is introduced into the trunk;
ensuring the adjustment of the stroke of the harpoon before and after the gun is fully charged with a harpoon;
improving the accuracy of the shot by changing the moment of recoil during the shot.

 To achieve this, in a well-known hydropneumatic gun having a body, a barrel, a harpoon, a trigger whisper connected to the discharge piston, a compression zone of the discharge piston connected by an outboard channel, a non-expendable pneumatic spring, the internal cavity of which is connected through the receiver and the non-return valve to the gun body , the cocking lever of the discharge piston with a ratchet mechanism, a working piston is placed in the barrel, in which the hole is concentrically made equal to the diameter of the tail of the harpoon, and the outer di a meter of the working piston is equal to the internal diameter of the barrel, while the harpoon is made in the form of two cylinders of different diameters, and its tail is located in the compression zone of the pressure piston and connected to the working piston, and the air spring is placed in the internal cavity of the pressure piston and is made of two tubular pistons of different sections with the possibility of axial movement relative to each other and interconnected through a sealed movable seal, while the air spring is connected with a rotary lever for resetting the harpoon-line, mouth copulating in the back of the gun.

 A controlled check valve is installed in the body of the gun, connecting the compression zone of the discharge piston with the intake space.

 The axial line of the stroke of the air spring is located at an angle to the axial line of the barrel.

 The figure shows a general view of a hydropneumatic spear gun for cocking the air spring cocked (side view) - FIG. 1, when the air spring is not raised (top view) - FIG. 2.

 Hydropneumatic spearfishing gun, comprising a housing 1 with a discharge piston 2 located therein, which is connected to the trigger device through the sear 3 and the line release lever 4 through the movable slider 5, as well as to the cocking lever 6, equipped with a ratchet mechanism (in the drawing, shown), an air spring made of a tubular piston 8 and a tubular piston 9, a sealing collar 10 is installed in the internal cavity of the injection piston. In this case, the air spring can change (decrease) in length by an amount L equal to the stroke injection piston. The upper cavity of the air spring is connected through a check valve 12 with the body of the gun. In the barrel 14 there is a working piston 15 with section S, in which a through hole is made equal to the diameter d of the tail of the harpoon, and at the ends of the barrel there are stops 16 and 17. The harpoon 18 is made in the form of two cylinders of different diameters D and d, while the front part of the harpoon with a diameter D is half the cross section of the trunk S (Fig. 2), and on the channel connecting the discharge zone of the combat piston L with the outboard space, an adjustable check valve 19 is connected to the control handle 20. The central axis of the air spring is located at an angle "alpha" to the centerline of the trunk (Fig. 1).

 The gun works as follows. Through a non-return valve 12, compressed air is pumped into the internal cavity of the pneumatic spring using a pump (conditionally not shown), while the tubular piston of the pneumatic spring 9 and the pressure piston 2 occupy the extreme right position (Fig. 2). The working piston 15 is in the extreme right position.

 Then cock the discharge piston 2 using the lever 6 (Fig. 2.), equipped with a ratchet mechanism (not shown conditionally), providing a phased application of forces when cocking. When the discharge piston 2 is moved to the leftmost position, it is fixed by the sear 3 (Fig. 1), the rotary line reset lever is cocked into the working position by means of the slider 5, and the water is pulled through the barrel into the compression cavity L. The platoon lever 6 returns to its original position ( Fig. 2), a harpoon-line is laid (not shown conditionally), after which the tail of the harpoon 18 (Fig. 2) is inserted into the through hole of the piston, then the harpoon 18 with the piston 15 moves into the barrel until it stops 16 (Fig. 1), while the water from zone L through the check valve 19 goes into rtnoe space (Fig. 2). The design provides harpoon charging to a partial barrel length to provide a short sharp shot. If a short shot is necessary after full charge, by pressing the lever 20 we open the check valve 19 and extend the harpoon 8 with the piston 15 to the desired size; while water from the outboard space enters the compression chamber L, and the piston 15 holds the tail of the harpoon 18 by means of a sealing collar 7.

When you press the trigger of the trigger, the sear 3 releases the tubular discharge piston 2, which, under the action of the air spring, creates an excess pressure P, under which the water presses on the working piston 15 with section S with force F = PS, which, acting on the piston 15, pushes it from the trunk along the length L ^* , doing the work A ^* = FL ^* . When reaching the stop 22 of the end of the barrel, the piston 15 stops, and the harpoon continues to act on the force F ^* from the water pressure P (F ^* = PS ^* , where S ^* is the cross-sectional area of the tail of the harpoon, diameter D) for the length L ^** to full the harpoon exits the trunk, and the work A ^** = F ^* L ^** is performed.

Sources of information
1. Copyright certificate of the USSR N 106092 according to class. F 41 B 11/08.

 2. USSR author's certificate N 438322 according to class. F 41 B 11/08.

Claims (3)

 1. Hydropneumatic spearfishing gun, comprising a housing, a barrel, a harpoon, a trigger whisper associated with a pressure piston, a compression zone of a pressure piston connected by a channel to the outboard space, a non-expendable pneumatic spring, the internal cavity of which is connected to the body of the gun through a receiver and a check valve , a cocking lever of a pneumatic spring with a ratchet mechanism, characterized in that a working piston is placed in the barrel, in which a hole is concentrically made equal to the diameter of the tail of the harpoon, and the outer di a meter of the working piston is equal to the internal diameter of the barrel, while the harpoon is made in the form of two cylinders of different diameters, and its tail is located in the compression zone of the pressure piston and connected to the working piston, and the air spring is placed in the internal cavity of the pressure piston and is made of two tubular pistons of different cross-sections with the possibility of axial movement relative to each other, interconnected through a hermetic movable seal, and in the rear of the gun there is a rotary lever for resetting the harpoon-line, connected th with air spring.  2. The shotgun according to claim 1, characterized in that a controlled check valve is installed in the shotgun body connecting the compression zone of the discharge piston with the outboard space.  3. The gun according to claim 1, characterized in that the center line of the air spring is located at an angle to the Central longitudinal axis of the barrel.

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