DE1300722B - Compressed air harpoon rifle for underwater use - Google Patents

Description

The invention relates to a compressed air harpoon rifle for underwater use, in which the rear end of the rifle barrel with a compressed air chamber built into the rifle is in connection and a drive piston is arranged in the rifle barrel, which when inserted the harpoon through this to the rear, compressing the compressed air in the compressed air chamber is pushed back into a loading position in which either the drive piston or the harpoon is held in place by a safety catch or locking device that can be switched off by the trigger on the other hand, when the shot is triggered, the propellant piston suddenly becomes due to the air pressure forward up to a buffer stop in the front end of the barrel while extending the Compressed air is advanced in the gun barrel and thereby the harpoon from the gun barrel ejects.

When using harpoon guns underwater, it is necessary to to change the firing range or the firing force and the surroundings of the one to be fired Adjust fish. If the harpoon is shot at a fish that z. B. swims close to a rock or hides in a rock hole, so is a shorter firing range or a weaker firing force is advisable, otherwise the Hit the harpoon against the rock, break off the harpoon tip or yourself the harpoon shaft can bend. If, on the other hand, a fish is shot, that is very far away or not in front of a fixed background, so is one longer firing range or a stronger firing force is desirable in order to achieve a greater one Accuracy or a greater speed of the shot harpoon obtain. The harpoon rifle must be underwater and only after a fish has been sighted can be converted to a shorter or longer one in just a few quick and simple steps the range or distance of the sighted fish can be adjusted to match the shooting range be.

In the known compressed air harpoon guns mentioned at the beginning Art can only change the visual width by changing the initial pressure (loading or basic pressure) can be modified and adjusted in the rifle's compressed air chamber. This change but is practically only outside of the water, e.g. B. on the mainland or on board of a boat or the like. Feasible. The initial pressure in the compressed air chamber can can also be reduced under water by partially releasing air, but it is extremely difficult to even approximate the desired smaller pressure precisely set. The rising air bubbles can also be the sighted Shoo fish away. For increasing the amount that has been reduced from the outset or subsequently The basic pressure in the compressed air chamber, on the other hand, must be air pumps or compressed air cylinders Od. Like. Are used that required the emergence of the underwater athlete do. Both the reduction and the increase in the initial pressure in the Compressed air chambers of the well-known harpoon guns are cumbersome and time-consuming.

The object of the invention is to eliminate these disadvantages and a To create underwater harpoon rifle in which the firing range or the firing force both without changing the initial pressure in the compressed air chamber and quickly and conveniently set underwater as required, d. H. both degraded as well as can be increased again, with the help of a structurally simple and little complex device built into the rifle.

This object is achieved according to the invention in that the compressed air chamber from a permanently connected to the rear end of the gun barrel Main chamber and one optionally connectable to the main chamber via a control valve Auxiliary chamber exists.

The invention is based on the knowledge that the range or the Firing force not only from the air pressure in the compressed air chamber, but also from that when the harpoon is fired, the compressed air volume or ratio that comes into effect this compressed air volume to the volume of the rifle barrel acting as expansion space depend and as a result can be modified that with constant Initial pressure in the compressed air chamber, the volume of this chamber varies or at Shoot the harpoon a larger or smaller part of the compressed air chamber is connected to the gun barrel. If with the harpoon gun designed according to the invention the control valve between the main chamber and the auxiliary chamber fully opened when firing is, the compressed air volume of both chambers acts on the drive piston and one receives a correspondingly large firing range or firing force of the harpoon. Is against the control valve is closed when the harpoon is fired, so comes on the propulsion piston only the compressed air volume of the main chamber to act and you get a corresponding smaller range or power of the harpoon. For moving the harpoon rifle on a shorter or longer range so only needs the control valve between Main chamber and auxiliary chamber to be closed or opened, which is at any time under Water with the help of a quick and easy to use actuator can be made.

In a further development of the inventive concept, the control valve is between Main chamber and auxiliary chamber not only in the closed and open position, but also adjustable in at least one intermediate or throttle position. In this training it is possible to reduce the range not only to one of the volume of both chambers or the volume of the main chamber alone, d. H. the open or closed position of the control valve corresponding maximum or minimum value, but also to at least to set an intermediate value assigned to the throttle position of the control valve. If the control valve is brought into the throttling position, the drive piston acts when fired, both the entire volume of compressed air in the main chamber and part of it the volume of compressed air in the auxiliary chamber and you get a corresponding z. B. mean range or launch force of the harpoon. It is possible that Adjust the control valve continuously or in steps to different throttle positions and a correspondingly larger or smaller proportion of the compressed air volume of the To use auxiliary chamber for firing the harpoon, d. H. different intermediate values to achieve the shooting range.

The invention is based on an embodiment shown in the drawing described in more detail. It shows F i g. 1 the rear part of an inventive Compressed air harpoon rifle in vertical longitudinal section, F i g. 2 a horizontal one Longitudinal section of the harpoon rifle along the line II-II of FIG. 1, Fig. 3 one Section of FIG. 2 on a larger scale, FIG. 4, 5 and 6 different positions of the control valve, F i g. 7 the rear end part of the harpoon rifle in longitudinal section to another cutting plane. The depicted compressed air harpoon rifle for underwater use consists of a handle 1 with an attached or integral with the Handle formed, tubular rifle barrel holder 2. At the rear end of the Holder 2, a jacket tube 3 is attached, the rear by a closing head 4 is tightly closed. The gun barrel 5 is passed through the tubular holder 2, which extends to the rear inside the jacket tube 3 and at a distance from the rear closed end of the jacket tube 3 ends. The outside diameter of the gun barrel 5 is smaller than the inner diameter of the jacket tube 3, so that around the gun barrel 5 around a compressed air chamber is formed, the inside through the gun barrel 5 and is limited on the outside by the jacket pipe and extends to the rear over the rear end of the gun barrel 5 extends addition. This chamber will have one in the rear End head 4 of the jacket pipe 3 built-in check inlet valve 7 with compressed air filled.

In the rear end area of the rifle barrel 5, a separating body 6 is fastened inside the jacket tube 3, which divides the compressed air chamber into a rear main chamber 8 and a front auxiliary chamber 9. The separating body 6 has a rear tubular extension 106 into which the closing head 4 is inserted with the interposition of a seal 10 . Another seal 11 is provided between the jacket tube 3 and the terminating head 4 inserted therein. The rear end of the jacket tube 3 rests against a shoulder of the end head 4. The front end of the jacket tube 3 is placed on the gun barrel holder 2 and rests against a shoulder of the same. A seal 12 is provided between the gun barrel holder 2 and the jacket tube 3.

The rear open end of the gun barrel 5 engages in a coaxial through central bore 22 of the separating body 6 and is supported by this.

The main chamber 8 is permanently connected to the rear open end of the gun barrel 5 via the central bore 22 of the separating body 6 and can optionally be connected to the auxiliary chamber 9 via a control valve. This control valve consists of a cylindrical connecting bore 31 in the separating body 6 and of a cylindrical, piston-like closure body 32 movable coaxially to this bore. The free end 34 directed towards the connecting bore 31 is approximately dome-shaped or conical. This locking body 32 is adjustable and adjustable to the rear end of an actuating rod 35 , which extends forward in the auxiliary chamber 9 between the gun barrel 5 and jacket tube 3 and is connected to a switching lever 36 protruding laterally from the handle 1 or from the gun barrel holder 2. The switching lever 36 is displaceable in the longitudinal direction of the harpoon rifle in a guide slot 37 of the handle 1 or of the rifle barrel holder 2 and cooperates with two detents 38 and 39 arranged one behind the other in the longitudinal edge of the guide slot 37. A spring 40 pushes the actuating rod 35 of the control valve backwards and as a result strives to move the closure body 32 against the corresponding connecting bore 31 between the main chamber 8 and the auxiliary chamber 9. The actuating rod 35 is led out of the auxiliary chamber 9 through a stuffing box 41 at the front.

With the aid of the switching lever 36 and the spring-loaded actuating rod 35, the locking body 32 can be brought into three different positions, which are shown in FIGS. 4 to 6 are shown. When the switching lever 36 is pressed forward against the force of the spring 40 and engages in the foremost detent 38 of the guide slot 37, the closure body 32 takes the action shown in FIG. 6, a position almost completely pulled out of the connecting bore 31, which corresponds to the open position of the control valve. If, on the other hand, the switching lever 36 is disengaged and released, it moves backwards under the action of the spring 40 as far as the rear end of the guide slot 37, as in particular in FIG. 1 and 2 is shown. The sealing body 32 engages with its seal 33 in the connecting bore 31 between the main chamber 8 and the auxiliary chamber 9 and completely closes this bore (FIG. 4). Finally, if the switching lever 36 is brought into a central switching position corresponding to the second detent 39 of the guide slot 37, in which it engages in this detent 39 and is thereby held against the force of the spring 40, the closure body 32 of the control valve takes the position shown in F i G. 5, in which it engages with its free, sealless end part 34 only so far into the connecting bore 31 between main chamber 8 and auxiliary chamber 9 that it does not completely close this bore, but only restricts the clear passage of the same.

The main chamber 8 and the auxiliary chamber 9 are also connected to one another via a further channel 43, 44, 45 of the separating body 6 which is provided with a check valve 42 (FIG. 7). The non-return valve 42, held in the closed position by spring force, opens in the flow direction of the main chamber 8 - auxiliary chamber 9 and is mainly used to allow the compressed air filled into the main chamber 8 through the inlet valve 7 to flow into the auxiliary chamber 9 when the compressed air chamber of the harpoon rifle is initially loaded while the control valve 32 is in its closed and throttling position (FIGS. 4 and 5). It is of course possible to omit the check valve 142 and the associated connecting channel 43, 44, 45 between the main chamber 8 and the auxiliary chamber 9. However, care must then be taken that when the compressed air chamber is loaded, ie when the compressed air is let in, the control valve 32 is brought into the open position (FIG. 6).

When the harpoon rifle is charged with compressed air, the same initial or lowering prevails in the main chamber 8 as well as in the auxiliary chamber 9. Base or charge air pressure.

It is assumed that the driving piston 13 is located in the front end of the gun barrel 5 , where it rests against a buffer stop (not shown) and is prevented by this from being pushed out of the barrel 5 . At the same time, the driving piston 13 closes the gun barrel 5 connected to the main chamber 8 through the central bore 22 and consequently also filled with compressed air at the front. When the harpoon 15 is inserted into the gun barrel 5, the driving piston 13 is pushed back into the rear loading position by the harpoon itself and is automatically held in this position by the catch pawl 24 (FIGS. 1 and 2). The air pushed backwards out of the gun barrel 5 by the propulsion piston 13 flows into the main chamber 8 and via the check valve 42 or via the open control valve 32 into the auxiliary chamber 9 and increases the air pressure in both chambers 8, 9 accordingly.

If the harpoon 15 is now to be shot with the greatest possible force, the control valve 32 is opened completely with the aid of the switching lever 36 (FIG. 6). This creates a full connection between the main chamber 8 and the auxiliary chamber 9 . When the trigger 23 is withdrawn, the drive piston 13 is released from the catch pawl 24 and suddenly shifted forward in the gun barrel 5 by the air pressure.

The harpoon 15 is thereby ejected from the gun barrel 5, while the drive piston 13 is held up by the buffer stop in the front end of the barrel. When firing, the compressed air volume of the two chambers 8 and 9 connected to one another via the open control valve 32 acts on the propulsion piston 13 , so that the desired, greatest possible firing force or firing range is obtained.

If, on the other hand, the shortest possible firing range or the smallest possible firing force of the harpoon is desired, the control valve 32 is completely closed with the aid of the switching lever 36 (FIG. 4). As a result, when the harpoon 15 is fired, only the volume of compressed air in the main chamber 8 has an effect. Since the ratio between the interior space of the rifle barrel 5, which acts as an expansion space for the compressed air, and the volume of the main chamber 8 is significantly greater than the ratio between the constant interior space of the rifle barrel 5 and the total volume of both chambers 8 and 9, this occurs when the Driving piston 13 in the gun barrel 5 has a significantly greater pressure drop than when the main chamber 8 is connected to the auxiliary chamber 9. As a result, the harpoon firing force is correspondingly smaller or the firing range is shorter.

If the regulating valve 32 is finally set in the intermediate or throttling position (FIG. 5), when the harpoon 15 is fired, both the entire compressed air volume of the main chamber 8 and part of the compressed air volume of the auxiliary chamber 9 act on the driving piston 13 . The firing range or firing force of the harpoon thus obtained corresponds to an average value lying between the maximum value (open control valve) and the minimum value (closed control valve). In order to increase the volume of the main chamber 8 and consequently the corresponding smallest possible firing range or firing force of the harpoon without having to lengthen the described rifle construction further backwards, an additional compressed air tank connected to the main chamber 8 can be provided. In the embodiment shown in FIGS. 1 and 7, this additional container consists of a pipe section 46 attached to the separating body 6 and protruding forward into the auxiliary chamber 9 , which is closed on the front and connected to the main chamber via a bore 47 in the separating body 6 8 communicates.

Claims (7)

Claims: 1. Compressed air harpoon rifle for underwater use, in which the rear end of the rifle barrel is connected to a compressed air chamber built into the rifle and a propulsion piston is arranged in the rifle barrel, which when the harpoon is inserted through it backwards while compressing the compressed air in the compressed air chamber into a The loading position is pushed back, in which either the propulsion piston or the harpoon is held in place by a safety catch or locking device that can be switched off by the trigger, whereas when the shot is triggered, the propulsion piston is pushed forward suddenly by the air pressure up to a buffer stop in the front end of the barrel, expanding the compressed air in the gun barrel is advanced and thereby ejects the harpoon from the rifle barrel, characterized in that the compressed air chamber consists of a main chamber (8) which is permanently connected to the rear end of the rifle barrel (5) and an alternatively to the main chamber via a control valve (31.32) connectable H ilfskammer (9) consists. 2. Underwater harpoon rifle according to claim 1, characterized in that that the control valve (32) both in the closed and open position, as well as in at least an intermediate or throttle position can be set. 3. Underwater harpoon rifle according to claim 1 or 2, characterized. that the spring-loaded control valve (32) via an actuating rod (35) with one provided on the outside of the rifle and by a latching or locking device (37, 38, 39) in different. the closing, Open and throttle positions of the control valve corresponding switching positions can be held Control member (36) is connected. 4. Underwater harpoon rifle according to one of claims 1 to 3, characterized in that the control valve has a piston-like, with an annular seal (33) provided and coaxially to a cylindrical connecting bore (31) between the main chamber (8) and the auxiliary chamber (9) movable closure body (32) which engages in the closed position with its seal (33) in the connecting bore (31), in the open position is almost completely pulled out of the connecting bore (31) and in the throttle position only with its free. sealless and preferably tapering end part (34) protrudes into the connecting bore (31). 5. Underwater harpoon rifle according to one of claims 1 to 4, characterized in that that between the main chamber (8) and the auxiliary chamber (9) a in the direction of flow A check valve (42) opening from the main chamber to the auxiliary chamber is provided is. 6. underwater harpoon rifle according to one of claims 1 to 5, wherein the Compressed air chamber from a front and rear arranged around the gun barrel tightly sealed and extending beyond the rear end of the gun barrel There is a jacket tube whose inner diameter is larger than the outer diameter of the gun barrel, characterized in that the main chamber (8) and the auxiliary chamber (9) in the jacket pipe (3) with the aid of a plug-like separating body fastened in this (6) are formed, and that this separating body (6) the control valve (32) or has connecting bores (31 or 43) that can be closed by the check valve (42) and in it the rear end of the gun barrel (5) in the area of a coaxial therewith through central bore (22) is supported. 7. Underwater harpoon rifle after Claim 6, characterized in that the main chamber (8) has a bore (47) in the separator (6) with an attached to this, forward into the auxiliary chamber (9) protruding, approximately rod-shaped additional compressed air tank (46) is connected.