RU2071587C1 - Air-operated harpoon rifle for underwater shooting - Google Patents

Abstract

FIELD: underwater hunting. SUBSTANCE: air-operated harpoon rifle includes pneumatic accumulator and barrel placed concentrically. Volume of pneumatic accumulator is 10 times higher than volume of barrel. Diameter of harpoon is maximally close to inner diameter of barrel, their difference is not more than 1.0-2.0 mm. Area of hole for throw away of interbarrel water is twice as large as cross-section of barrel. Handle which can be adjusted for length and circumference is mounted on pneumatic accumulator. Loading valve integrated with limiter of piston stroke is located in rear plug of pneumatic accumulator. EFFECT: facilitated manufacture, improved functional reliability and efficiency. 4 dwg

Description

 The alleged invention relates to sports weapons, in particular, to pneumatic harpoon guns for sports underwater shooting.

 A pneumatic harpoon gun for sports underwater shooting is known, comprising a pneumatic accumulator, an attached back with an adjusting sleeve and a fuel valve, a barrel with a harpoon, a piston and a shock absorber having an opening for ejecting intra-barrel water, an adapter barrel and a barrel sleeve, partially connected outside the pneumatic accumulator. trigger, with gear whispering to a metal piston inside the pneumatic accumulator. ("Athlete-Submariner", collection, issue N 43, 1976 p. 43 47).

 The disadvantages of this device are the complexity of the design and manufacture, the small length of the barrel and harpoon with a large total length of the gun, the small volume of the pneumatic accumulator with a relatively large volume and inner diameter of the barrel, significantly exceeding the diameter of the harpoon, small area of the holes for ejecting water, a massive metal piston and a complex multi-part shock absorber piston, center of mass displaced at the rear end of the gun.

 Known pneumatic harpoon gun for sports underwater shooting, containing a barrel with a harpoon and a piston, attached to it a muzzle head and a back with a filling valve, a pneumatic accumulator, hermetically connected to a muzzle and a back, trigger, which provides for incomplete, portioned filling of the barrel with water loading, by using a special device in the muzzle, consisting of a cavity-chamber with a lip seal for a harpoon, a throttling channel of the cavity, in combination with a shank m harpoon in the form of a truncated cone (copyright certificate USSR N 642000, 1979 kl. the F 41B 11/08).

 The disadvantage of this device is also the complexity of the design and manufacture, small barrel length, low volume pneumatic accumulator, with a large volume and inner diameter of the barrel significantly exceeding the diameter of the harpoon, operational unreliability of the device for sealing the harpoon in the muzzle, which leads to the ingress of large amounts of water into the bore with reinforced resistance to its ejection through an insufficiently throttling hole when fired.

 Also known is a pneumatic gun for sports underwater shooting, containing a pneumatic accumulator with a muzzle attached and a tail-adjusting sleeve with radial holes, a sealing ring on them and a fuel valve located in the pneumatic accumulator barrel with a harpoon and a metal piston with a threaded hole in its end face, a trigger a mechanism in which a barrel with a piston is used as a pump in combination with a filling valve to control the pneumatic accumulator with compressed air internal sleeve, which is also used for rapid adjustment of the shot power (copyright certificate USSR N 996845, 1983 kl. the F 41B 11/08).

 The disadvantages of such a device include a complicated design, reduced operational reliability, a low-volume pneumatic accumulator with an increased volume and an inner diameter of the barrel significantly exceeding the diameter of the harpoon, a small barrel length, a massive, complicated metal piston requiring enhanced shock absorption at the end of the barrel, and a decrease in the persistent part of the front end face of the piston bearing increased shock loads, with a decrease in its durability and wear resistance, the possibility of damage to the threads in the end opening tii piston rear end of the harpoon when loading a gun. Operational adjustment of the power of the shot during spearfishing is practically not applicable, since this loses a convenient moment for an aimed shot at moving prey, leaving the affected area, in addition, in the known devices for pneumatic underwater guns, the shot force is insufficient and does not need to be adjusted.

 As a prototype, a pneumatic gun for spearfishing was selected, containing a tubular pneumatic accumulator with a head, a sleeve and a back attached to it, a hollow handle with a filling nipple welded to the pneumatic accumulator, a barrel with a harpoon and a piston located in the pneumatic accumulator, a trigger mechanism, a piston for laying and dumping .

 The tubular pneumatic accumulator is designed as a single tank with a hollow handle welded to it, pre-cut, bent and welded from a metal sheet. A filling nipple from a car camera is soldered into the hole in the handle, in the front-upper part of it. The rear edge of the pneumatic accumulator tube is closed by a flat round back that is tightly welded to it, with a groove for abutting the rear end of the barrel and a protrusion-limiter of the piston stroke. The front end of the pneumatic accumulator is closed by a flat ring welded to it, in which the front end of the barrel soldered to the edges of the ring opening passes. The barrel is mounted concentrically in the pipe of the pneumatic accumulator, its rear end abuts against the groove of the back, its front end extends beyond the ring of the pneumatic accumulator. At the rear end of the barrel, grooves are made for the passage of air from the pneumatic accumulator, at the front end of the barrel, from the beginning of its cutting, a threaded section, behind which there are four holes for ejection of intra-barrel water.

 A harpoon and a two-part piston with a sealing rubber conical sleeve are placed in the barrel. On the front end of the barrel is put on, through its side openings, a cylindrical-shaped sleeve-chamber with an upper hole-window, in the cavity of which there is a section of the barrel with holes for water discharge. The sleeve is pressed to the pneumatic accumulator ring by the head of the gun, which is screwed with its rear threaded channel onto the threaded end of the barrel. An axial longitudinal through channel is made in the head for the passage of the harpoon and, partially intersecting it, a transverse through hole for the rotary whisper, lateral external oblique grooves for the whisper-lever arm, the front tooth-bracket of the folding and line-throwing mechanism is soldered to the lower end of the head. The trigger mechanism consists of a rotary cylindrical sear with a central semicircular groove, an arched lever, and a rod with the end of it in the form of a trigger located on the front end of the spring rod. The rod is located in the guide rings soldered to the pneumatic accumulator; at the rear end of the rod, a sleeve ring is put on the handle refueling nipple body ("Athlete-Submariner". Collection. Issue No. 60, 1980, p. 34 38).

 In such a gun device, some of the shortcomings of the analog devices were eliminated, the number of parts was reduced, the volume of the pneumatic accumulator was slightly increased, complicated muzzle-shock absorbers were eliminated, the piston hydraulic braking section was applied at the end of the barrel, the water jet ejected from the barrel was directed upward.

 However, the disadvantages of this prototype device include: the difficulty of manufacturing with a large number of welding and soldering operations, operational unreliability and insufficient strength of the soldered joints of the filling nipple with a hole in the thin-walled handle and the barrel with a hole in the ring of the pneumatic accumulator, the unreliability of the filling nipple from the camera, not calculated increased pressure, complicated design of the pump for filling the pneumatic accumulator with compressed air, with an additional rubber hose, and : small ballistic length of the barrel, small length, diameter and weight of the harpoon, small volume of the pneumatic accumulator with a relatively large volume and internal diameter of the barrel significantly exceeding the diameter of the harpoon, small area of the bore holes for ejecting intra-barrel water, shifted to the rear end and down the center of mass of the gun, which leads to a weakening of strength and speed, a decrease in the accuracy of the shot. The reasons for this are: a short time of the piston’s impact on the harpoon, a short acceleration of the harpoon, a significant resistance to the increased amount of intra-barrel water pushed by the piston through the drainage holes of the trunk of a small area, and, therefore, a weakened jet of water directed upward. In addition, in a small-sized pneumatic accumulator, pressure and effort rapidly increase when loading, pressure and force acting on the harpoon at the end of the shot quickly decrease, a shortened and light harpoon is unstable when flying in a given direction in water, the front end of a short and light gun with back and down shifted the center of mass, a weak jet thrown upward from the trunk of the water, is much stronger thrown upwards when fired due to recoil.

 The experience of sports underwater shooting has shown that, in addition to the pressure in the pneumatic accumulator, the ballistic length of the barrel, the corresponding length of the harpoon, and also its weight, are of primary importance for improving the strength, speed and accuracy of a shot. However, the most characteristic common shortcomings of both the prototype device and the analog devices are the small length of the barrel and the harpoon, a small air accumulator in combination with a barrel of large internal diameter significantly exceeding the diameter of the harpoon, and the insufficient hole area for ejecting intra-barrel water.

 The purpose of the invention is the improvement of ballistic qualities, increasing operational reliability and convenience, simplifying the design.

 This goal is achieved by the fact that in a pneumatic harpoon gun for sports underwater shooting, containing a tubular pneumatic accumulator with a muzzle head and a back stopper with a piston stroke limiter, placed concentrically in the pneumatic accumulator, a barrel with a hole for ejecting intra-barrel water, a harpoon and a piston, a handle , filling valve, trigger, mechanism for laying and dumping the line, the difference between the diameter of the harpoon and the inner diameter of the barrel is not more than one to two millimeters while the harpoon does not come into contact with the walls of the bore, the area of the hole for ejection of intra-barrel water is at least twice that of its cross section, the volume of the pneumatic accumulator is no less than ten times the internal volume of the barrel, the filling valve is located in the rear plug and is combined with the limiter the piston stroke, and the handle is equipped with mounting clamps and mounted on a pneumatic accumulator with the ability to adjust along the length and circumference.

The technical essence and principle of the proposed pneumatic harpoon gun are illustrated in the drawing, on which:
in FIG. 1 shows the proposed pneumatic gun assembly, in a charged state, a side section;
in FIG. 2 head-muzzle, lateral section;
in FIG. 3 head-muzzle, a cross section through the arrangement of oblique vertical grooves and a transverse through hole for a sear;
in FIG. 4 rotary cylindrical sear, longitudinal section.

 The proposed pneumatic harpoon gun for sports underwater shooting consists of a tubular pneumatic accumulator 1, a muzzle head and a rear plug tightly attached to it, located concentrically in the pneumatic accumulator of the barrel 2 with a harpoon 3 and a piston, a handle with clamps for its fastening, a trigger, a styling mechanism and dumping tench.

 The listed structural elements are made as follows.

The pneumatic accumulator 1 is made of a pipe with a wall thickness of at least 2 mm, the edges of its front and rear edges are chamfered inwardly in the form of a chamfer, at an angle of 60 ^o , to tighten the seals. At its front and rear ends, internal thread sections are made for attaching the head and rear plug.

 The head 4 consists of a housing 5, a thrust washer 6, a washer-seal 7, a clamping screw of the washer-seal 8, attached to the housing 5 of the front sight 9 and the front tooth 10 of the line relief mechanism. The housing 5 of the head 4 of a cylindrical shape, of equal diameter with a pneumatic accumulator 1, with a conical narrowing and an end funnel 11. A through channel 12 for harpoon passage is made along the central axis of the housing 5, passing into the barrel channel 13, which passes into a wide threaded channel 14 of the connecting fitting fifteen.

 On both side surfaces of the housing 5 in the projection of the channel 12 are made vertical oblique grooves 16 with a downward slope. In the grooves 16 of the housing 5, a through transverse hole 17 for the cylindrical sear is made, crossing the channel 12 perpendicularly with the center of its axis along the upper edge of the channel 12. In the upper part of the housing 5, behind the grooves 16, a blind threaded hole 18 is made for attaching the front sight 9, for which made a transverse hole 19 for ejecting intra-barrel water, connected to the cavity of the channel 12. Bottom of the housing 5, in front of the grooves 16, a blind threaded hole 20 is made for attaching the front tooth 10 of the line relief mechanism. At the beginning of the connecting fitting 15, a circular groove 21 for the sealing ring is made on the outside of the housing 5.

 In the channel 14 of the connecting fitting 15, a rubber washer-sealer 7 is placed, with a clamping screw 8 screwed into the channel 14, which seals the gap between the outer wall of the barrel 2 and the wall of the barrel 2 and the wall of the channel 13 of the housing 5. At the front end of the channel 13 there is a thrust the barrel and piston washer 6, made of hardened stainless steel, with a chamfer along the edge of its hole, beveled inwards at an angle of 45; to stop the piston head. To the threaded holes 18 and 20 of the housing 5 are attached front sight 9 and the front tooth 10 of the mechanism for laying and dumping the line.

 The rear plug 22 consists of a housing 23, a valve housing 24, a valve 25, a valve spring 26, a seal 27. A cylindrical housing 23 of equal diameter with a pneumatic accumulator 1, its front part is made in the form of a connecting fitting 28 with an external thread. A rear threaded hole 29 is made along the central axis of the housing 23, for connecting the pump, and a front threaded hole 30, in which the hollow valve body 24 is made, made in the form of a glass with an external thread, in its cavity there is a valve 25, mushroom-shaped, with a thickened head and put on its rod by a spring 26. On the front, end wall of the valve body 24 are made integrally with the body 24, the piston stroke limiter 31 in the form of a narrow cylindrical protrusion, as well as a cylindrical protrusion 32, which enters the rear end of the channel la barrel fixing shaft coaxially with pneumatic accumulator 1 at its center. In the front front wall of the housing 24, on both sides of the piston stroke limiter 31, through holes 22 are also provided for passage of injected air into the pneumatic accumulator 1.

 At the bottom of the hole 30, a rubber seal 27 with a central hole is laid. The front threaded hole 30 of the housing 23 is connected to the rear threaded hole 29, the channel 34, for the passage of air, which closes the valve 25. Between the connecting fitting 28 and the outer part of the housing 23 on its surface there is a circular groove 35 for the sealing ring.

The barrel 2 is made of a thin-walled tube with a polished channel, located concentrically inside the pneumatic accumulator 1. Its front end is located in the channels 14 and 13 of the housing 5 of the head 4, the gap between its outer diameter and the wall of the channel 13 of the housing 5 of the head 4 is sealed with a rubber washer 7. The front edge of the barrel 2 abuts against the washer 6 in the channel 13 of the body 5 of the head 4. At the front end of the barrel 2, on top, there is a transverse hole 36 for ejecting intra-barrel water, which is compatible in place and size with a similar hole 19 of the 5th body traps 4. A segment of the barrel 2 from the front edge of the hole 36 to its edge is the area of hydraulic braking of the piston after it overlaps the hole 36. The rear end of the barrel 2 abuts against the end wall of the valve body 24 and is fixed by its protrusion 32, the piston stroke limiter 31 is located in the center of the bore 2. On the rear edge of the barrel 2, two edge opposing grooves 37 are made for the passage of compressed air from the pneumatic accumulator 1 into the bore 2 and vice versa. In front of the edge grooves 37, a three-blade centering washer 38 is put on the surface of the barrel 2. The piston 39 consists of a housing 40 and a sealing collar 41. The piston housing 40 consists of a housing 40 and a sealing collar 41. The piston housing 40 is made of impact-resistant caprolon, of cylindrical shape, with a section of reduced diameter in the center and a funnel nest in the rear end, into which a conical rubber sealing collar 41 is inserted, with a diameter of 2 mm greater than the internal diameter of the barrel 2 along the edge of its cone 2. At the edges of the piston head 39, ying chamfer angle 45 ^o, corresponding to the chamfer at the opening edge of the thrust washer 6, the head 4.

 The harpoon 3 is made of a cylindrical metal rod, at its front end there is a threaded section for attaching a tip, a transverse through hole 42 for attaching a line and a circular groove 43 in the form of an inverse cone for engaging the trigger mechanism with the sear. On the threaded section of the harpoon 3, the tip 44 of the harpoon 3 is screwed.

 The handle 45 consists of a housing 46 and mounting clamps 47. The housing 46 is made of durable plastic. The end surface of the upper, connecting part of the housing 46 is made in the form of a longitudinal bed for laying the pneumatic accumulator 1. In the front 48 and rear 49 shoulders of the connecting part of the housing 46, there are through transverse holes 50 for mounting bolts and nuts with clamping plates of clamps. The protective bracket 51 of the handle 45 is made as a single part of the housing 46, in its horizontal branch there is a through longitudinal groove 52 for the back tooth of the line laying and dumping mechanism, as well as a longitudinal blind groove 53 for accommodating the lower part of the trigger. Vertical interpenetrating grooves 54 and 55 in the housing 46 for accommodating the trigger and its rod with a spring are connected to the upper end longitudinal groove 56 for pulling the trigger. Flat mounting clamps 47 of the handle 45 are made of stainless steel sheet, cover the pneumatic accumulator 1 and are pulled together on both sides of the arms 48 and 49 of the housing 46 of the handle 45 with bolts and nuts with pressure plates through the holes 50.

The trigger mechanism consists of a cylindrical rotary sear 57, an arched lever 58, a rod 59, a trigger 60, a rod 61, a spring 62. A cylindrical rotary sear 57 is placed in the transverse through hole 17 of the head 4, made of hardened stainless steel. In the center of the case of the sear 57, a semicircular groove 63 is made, to a height of the radius of the sear 57, which geometrically coincides with the upper wall of the through channel 12 of the head 4. At both ends of the sear 57, vertical through holes 64 are made for the ends of the arc-shaped lever 58 and mechanical threaded holes 65 for the fixing bolts . An arcuate lever 58 is attached to the vertical holes 64 of the sear 57 with the possibility of its movement within the grooves 16 of the head 4. The lower part of the lever 58 is movably connected to the front end of the rod 59, the rear end of which is connected to the upper part of the trigger 60, which has the form a rectangular plate and placed with the possibility of free running in the vertical groove 54 of the handle 45. At the rear end of the trigger 60, the rod 61 is mounted on the thread, with a spring 62 put on it, placed in the groove 55 of the handle 45 and with compression a rear end face wall of the groove 55 of the handle 45. The lower portion of trigger 60 is disposed movably in the longitudinal slot 51 of the bracket 53 of the handle 45 at its front end a wedge-shaped projection 66 is formed with an angle of 35 ^o chamfer 30 for engagement with a rear tooth mechanism for stacking and reset the tench.

The mechanism for laying and dumping the line consists of a front fixed tooth 10, with a protrusion at an angle of 45 ^o and a through transverse hole for fastening the line, which is attached to the threaded hole 20 of the head 4 and the rear rotary tooth 67, which is a two-shoulder angular lever mounted on an axis in the through groove 52 of the bracket 51 of the handle 45. The upper shoulder of the back tooth 67 is engaged with the wedge-shaped protrusion 66 of the trigger 60, with the possibility of disengaging when the trigger 60 is shifted back. On the protrusion of the front tooth 10 and the lower shoulder of the tooth 67 fit the loop of the line.

 The choice of the proposed sizes and diameters of the pneumatic accumulator, barrel, harpoon, drainage hole of the barrel, their ratio, as well as the limits of their values are justified by the following explanations.

 The possibility of a greater increase in the length of the barrel and harpoon, which would lead to a further improvement in the strength and accuracy of the shot, is limited by the anatomical data of most underwater shooters, loading the gun will become impossible. Therefore, the selected barrel lengths (at least 750 mm), harpoon with a tip (at least 800 mm) and guns (not more than 800 mm) are optimal and provide high strength, range and accuracy of the battle.

 The possibility of a greater approximation of the diameter of the harpoon to the inner diameter of the barrel, which reduces the amount of intra-barrel water and its resistance to the piston stroke, is limited by the dimensions of the thrust washer 6, the inner diameter of which should be less than 2 1 mm of the inner diameter of the barrel, since with an increase in the inner diameter of the washer 6, the required width of the support area for the piston head is not provided and jamming of the piston head in the washer hole 6 is possible.

 In addition, the gap between the inner diameter of the thrust washer 6 and the diameter of the harpoon cannot be less than 0.1 mm Therefore, the diameter of the harpoon can be close to the inner diameter of the barrel no more than with a difference of 2 1 mm, therefore, the thickness of the water cylinder between the wall of the bore and the surface of the harpoon is 1.0 0.5 mm, and cannot be less than 0, 5 mm.

 The selected size of the increased area of the hole in the barrel for ejecting water, with a double excess of its cross-sectional area, in combination with a reduced amount of water in the barrel, allows it to be ejected from the barrel at high speed. Larger than the proposed increase in the area of the drainage hole, which would lead to a further decrease in the resistance of intra-barrel water, leads to an excessive increase in the size of the head of the gun with a slight increase in the rate of discharge of water.

The selected values and the ratio of the volumes of the pneumatic accumulator and the barrel provide a decrease in the pressure difference at the beginning and at the end of loading and shot to 2 kg / cm ₂ , since the total volume of the pneumatic accumulator and the barrel decreases and increases only by the value of the volume of the barrel. A further increase in the volume of the pneumatic accumulator with a decrease in the volume of the barrel, which would lead, according to Boyle Mariotte’s law, to a further decrease in pressure drops during loading and firing, is limited by the limit for reducing the internal diameter of the barrel, which should be 1 2 mm greater than the diameter of the harpoon, and it is not practical to reduce the diameter of the harpoon , since this reduces its weight, strength, range and accuracy of its flight, in addition, a further increase in the volume of the pneumatic accumulator leads to an excessive increase in its length, diameter and esa, which does not correspond to the anatomical data of the bulk of the underwater shooters.

 The proposed pneumatic spear gun use as follows.

 The pneumatic accumulator 1 is charged with compressed air through the opening 29 of the rear plug 22 as a separate, simple small-sized pump that creates high pressure. After refueling the pneumatic accumulator 1, the piston 39, squeezed out with compressed air, goes into the barrel 2 in the forward position, resting its head against the washer 6. When loading the gun, the harpoon 3, with a preliminary pull on the trigger 60, is inserted into the barrel 2, rests against the rear end into the piston head 39 and moves it from the extreme forward position in the barrel 2 to its rear end, until the cuff 41 touches the piston stroke limiter 31, while the edge of the cuff 41 does not extend beyond the edge of the grooves 37 of the barrel 2. Then, slightly feeding the harpoon 3 forward release the trigger ca. 60; whispered 57, pushed by the spring 62 through the rod 59, turning, fixes the rear edge of its groove 63 to the harpoon 3 by the protrusion of its circular groove 43. The harpoon 3 is laid on the front tooth 10 and the back tooth 67 of the line laying and dumping mechanism. When you press the trigger 60 for firing, the rod 59, moving back the lower end of the arcuate lever 58, turns the sear 57, the rear edge of its groove 63 disengages from the protrusion of the annular duct 43 of the harpoon 3, releasing it, the compressed air of the pneumatic accumulator 1, entering through grooves 37 into the bore 2, pushes forward the piston 39, which at a high speed pushes the harpoon 3 and the barrel water from the bore 2 through the enlarged drainage hole 36 of the barrel 2. At the end of the bore 2, the piston 39 overlaps the drainage hole 36 of the barrel 2, stopping the release of intra-barrel water and encountering a sharply increasing resistance of residual water in the bore 2, which reduces the speed and impact force of the piston 39 into the thrust washer 6. The harpoon line 3 is discharged until the harpoon 3 is released by sear 57, while the upper shoulder of the back tooth 67 of the line release mechanism, sliding along the backward wedge-shaped protrusion 66, the trigger 60 disengages from it, the lower shoulder of the tooth 67, turning on the axis and going forward, discards the line loops, at the same time the line loops are reset and na front tooth 10 relief mechanism lin.

Claims (1)

 Pneumatic harpoon gun for sports underwater shooting, containing a tubular pneumatic accumulator with a muzzle head and a rear stopper with a piston stroke limiter, placed concentrically in the pneumatic accumulator, a barrel with a hole for ejecting intra-barrel water, a harpoon and a piston, a handle, a filling valve, a trigger mechanism mechanism for laying and dumping the line, characterized in that the difference between the diameter of the harpoon and the inner diameter of the barrel is not more than 1 2 mm, while the harpoon does not touch with the walls of the bore, the area of the hole for ejection of intra-barrel water is at least twice the area of its cross section, the volume of the pneumatic accumulator is at least 10 times the internal volume of the barrel, the filling valve is located in the rear tube and is combined with the piston stroke limiter, and the handle equipped with mounting clamps and mounted on a pneumatic accumulator with the ability to adjust along the length and circumference.

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