RU2045732C1 - Pneumatic harpoon weapon - Google Patents

Abstract

FIELD: harpoon throwing at underwater hunting due to compressed-air energy. SUBSTANCE: to inject air into the receiver manually, it is necessary to push the brake bushing as for as it will go. As a result, the barrel comes over the breechblock sealing ring and, moving forward, presses the spring-loaded washer with a rod secured on it. The washer reaches the inner surface of the rear plug, the rod moves out and forms a line dropping gear. The thrower turns and fixes the barrel. Then the brake bushing is unscrewed through 7-8 revolutions, the harpoon is screwed in the piston seat, and the piston is pushed through up to the stop against the breechblock. Air to be found in the barrel gets compressed and penetrates through the radial holes in the barrel under a hose, which lets it through into the receiver, and at the back motion of the piston cuts off compressed air in the receiver from the barrel space beyond the piston. Then, for air injection the harpoon is withdrawn until the piston comes out of the barrel and drawn in the barrel again up to the stop against the breechblock. EFFECT: improved design. 3 dwg

Description

 The invention relates to weapons for throwing shells without the use of warheads, namely for throwing a harpoon due to the energy of compressed air, and is used for underwater shooting.

Known hydropneumatic harpoon gun containing a receiver with front and rear plugs, a barrel movably mounted in it, a casing between the barrel and the receiver, a piston in the form of a ring with external internal seals that is installed between the receiver and the barrel casing, a valve made in the form of a nipple, a trigger with a sear, harpoon with a shank [1]
This gun has sufficient reliability and satisfactory performance. However, increased demands are made on the design of the gun in terms of the corrosion resistance of the parts, since after the shot, the water that has fallen into the accumulator is not completely removed. In addition, the design of the gun does not have a movable rod serving as a spreader, which causes inconvenience during operation.

The closest in design to the invention is a pneumatic spear throwing gun containing a receiver with front and rear plugs, a barrel with a shank movably mounted in it, a caprolon piston with sockets for the harpoon shank, a piston brake in the form of a muzzle with a damper sleeve, a valve in the form of a shutter installed in the housing, which is spring-loaded to the shaft end, acting as a valve seat, a trigger with a sear, a whisper connection with the barrel mounted inside the receiver a, and a regulator at range [2]
The disadvantage of this gun is the design complexity, lack of reliability and low performance.

 The complexity of the design of the gun lies primarily in the large number of parts of the mechanism for adjusting the battle force, the mechanism of the movable rod, which serves as a spreader and piston brake.

 In a shotgun, the rod serving as a line spreader, when fired, moving away from the seal on the bolt, interacts with the barrel. As a result, the barrel is braked by pressure from the pressure of compressed air on the rod, which leads to a decrease in the rate of filling the barrel with compressed air and a decrease in the power of the shot.

 The lack of reliability of the gun is associated with the deformation of the piston made of caprolon when it hits the damper sleeve during shots. This leads to jamming of the piston in the barrel. In addition, the design of the well-known gun does not allow the installation of barrels of various lengths in order to change the strength and accuracy of the battle, which confirms its low performance.

 The purpose of the invention is to simplify the design of the gun, increasing its reliability and performance.

 This is achieved by the fact that in the known pneumatic gun containing a receiver with front and rear plugs, a barrel movably mounted in it, a piston with a sealing ring and a harpoon socket in the barrel, a valve, a shutter with a sealing ring, a rod mounted for moving in the rear plug, piston brake, range control, trigger mechanism, the valve consists of the end part of the barrel in which radial holes are made, and a hose mounted on the end part of the barrel above the hole mi, the shutter is mounted in the rear plug with the possibility of longitudinal movement to adjust the battle force, and the shutter o-ring is made to interact with the inner surface of the barrel, and the shutter is equipped with a spring-loaded washer that is attached to the rod, the piston is stepped and provided with additional o-rings, this piston brake is made in the form of a brake sleeve fixed to the barrel with a stepped inner channel and throttling holes.

 Figure 1 shows the gun in the position of the parts after loading, General view; figure 2 the rear of the gun in the position of the parts after the shot; figure 3, the piston during its movement inside the brake sleeve (arrows indicate the direction of movement of water, which is squeezed out by the piston from the sealing space).

 The pneumatic harpoon gun contains a receiver 1 with front 2 and rear 3 plugs, a barrel 4, a piston 5 located in the barrel 4 with a socket for a shank 6, with compression rings 7 and sealing brake rings 8, a harpoon 9, a brake sleeve 10 with throttling holes 11 and drainage holes 12, a shutter 13 with an o-ring 14, radial holes 15 in the end part of the barrel 4, a hose 16, a washer 17 worn on the shutter 13, a spring-loaded stem 18 mounted on the washer 17, a muzzle 19, a casing 20, an emphasis 21 on barrel 4, handle 22, f handle ikator 23, trigger, consisting of trigger 24, sear 25, fuse 26. Tight installation of barrel 4 in front plug 2 is provided with a sealing ring with washer 27, on the bolt 13 there is a handle 28 on its outer side. In addition, receiver 1 , front 2 and rear 3 plugs, shutter 13 and stem 18 have seals.

 Air harpoon gun works as follows.

 Air is pumped into the receiver 1. To do this, manually press the brake sleeve against the stop on the axis of the gun. In this case, the barrel locates on the sealing ring 14 of the shutter 13 and, advancing further, presses on the spring-loaded washer 17 with the rod 18 fixed thereon. The washer 17 reaches the inner surface of the rear plug 3, at the same time, the stem 18 extends, forming an active spreader. In this case, the emphasis 21 of the barrel 4 passes over the sear 25, the latter rotates under the action of a spring and fixes the barrel 4. Then, the brake sleeve 10 is unscrewed by 7-8 revolutions, and the trigger mechanism is put on the safety lock 26. After that, the shank 6 is removed from the harpoon 9, screwed the harpoon 9 into the thread, which is in the piston seat 5 and pushes the piston all the way into the bolt 13. In this case, the air in the barrel 4 is compressed and enters through the radial holes 15 on the barrel 4 under the hose 16, which passes it into the receiver 1. When the piston moves backwards 5, the hose 16 cuts off the compressed air in the receiver 1 from the piston volume in the barrel 4. So the first portion of air is pumped into the receiver 1. Further injection is carried out by pushing the harpoon 9 until the piston 5 leaves the barrel 4 and pushing it again into the barrel 4 until it stops in the shutter 13 .

After pumping the receiver 1 to a working pressure of 35-40 kgf / cm ² , the brake sleeve 10 is wrapped to failure, the harpoon 9 is pushed to its extreme forward position and, having removed from the fuse 26, they make an idle shot. Then the harpoon 9 is turned out, put on the shank 6.

 It should be noted that removing the shank 6 from the harpoon 9 is required only when there is no air pressure in the receiver 1. In case the gun is pumped up, the shank 6 of the harpoon 9 enters the socket of the piston 5 pressed by pressure, pushes the piston 5 all the way into the bolt 13, and when moving in the opposite direction, the piston 5 rests on the shank 6 of the harpoon 9 due to friction.

 In the combat position, the piston 5 is held in the barrel 4 due to the vacuum in the piston space, the harpoon shank 6 is held in the piston seat due to the friction force, the washer 17 is pressed by the barrel 4 to the rear tube 3, and the rod 18 fixed to it is extended from the rear tube 3 . On the rod 18, forming an active spreader while this is wound tench (figure 1).

 When you press the trigger 24, it rotates around the axis and through the link acts on the sear 25, which releases the stop 21 on the barrel 4 and the barrel moves forward under pressure from the receiver into the casing 20. After the barrel 4 leaves the seal 14 on the shutter 13, the air compressed in the receiver 1 begins to exert pressure on the piston 5, and the washer 17 with the rod 18 returns to its original position and releases the line (Fig. 2). When entering the brake sleeve 10 of the piston 5, the shank of the harpoon 6 leaves the socket of the piston 5, where it is under the action of friction. Harpoon 9 by inertia flies to the target.

 The braking of the piston 5, equipped with a compression compression ring 7 and two sealing brake rings 8, occurs in the brake sleeve 10, when the brake sealing rings enter the larger and smaller diameters of the brake sleeve 10 and water is squeezed out of the resulting closed volume through the throttling holes 11.

 The degree of throttling of compressed air between the end of the barrel 4 and the bolt 13, depending on the magnitude of the movement of the barrel, determines the strength of the gun. Changing the amount of movement of the barrel by rotating the casing 20 in the muzzle 19, establish the necessary battle force. Immediately before the shot, operational adjustment of the battle force is carried out, for which the shutter 13 is rotated to the handle 28 in one direction or another.

 The advantages of the proposed gun compared with the prototype are as follows.

 Due to the simpler valve design, the mechanism for adjusting the battle force, the spreader mechanism, as well as the piston brake, the gun is simpler in design and retains buoyancy with a significantly smaller volume. In the proposed shotgun, the barrel is not braked by the force of the pressure of the compressed air in the receiver on the rod, which allows to increase the power of the shot. The reliability of the gun increases due to the fact that the piston is not braked when it hits a damper sleeve with a shock absorber, but when water is squeezed out of the seal between the large and small internal diameters of the brake sleeve through throttling holes. Two braking rings on the piston are involved in braking. In the proposed design, the gun is put into combat position before the harpoon enters the barrel, therefore, the loading force at the end of the piston movement in the barrel channel will not increase due to counteraction from the pressure of compressed air on the barrel end and from the return spring of the rod. In addition, the design of the proposed gun allows you to set the barrels of various lengths in order to change the strength and accuracy of the battle.

Claims (1)

 PNEUMATIC GARPOON GUN, containing a receiver with front and rear plugs, a barrel mounted in it, a piston with a sealing ring and a harness for a harpoon shank, a valve, a bolt with a sealing ring, a rod mounted for displacement in the rear plug, a brake a piston, a range controller, a trigger mechanism, characterized in that the valve consists of an end part of the barrel in which radial holes are made, and a hose mounted on the end part of the barrel above the holes, the bolt is fixed in the rear plug with the possibility of longitudinal movement to adjust the battle force, and the sealing ring of the bolt is made to interact with the inner surface of the barrel, and the bolt is equipped with a spring-loaded washer, which is fastened to the rod, the piston is stepped and provided with additional sealing rings, while the brake the piston is made in the form of a brake sleeve fixed to the barrel with a stepped inner channel and throttling holes.