NL9401372A - Container for compressed gas for firing a projectile - Google Patents

Abstract

The present invention relates to a container for compressed gas, designed for firing a projectile. This measure results in such a simple construction that the fabrication costs are minimal, specifically so minimal that the costs per firing of the projectile are considerably lower than those for the prior art container. Moreover, dispensing with a container suitable for a large number of firings keeps the mass of the firing apparatus low. The invention further relates to a firing apparatus suitable for firing a projectile by means of a container according to one of the preceding claims, comprising a chamber suitable for holding a carrier according to any one of claims 16-18, a pointed firing pin (fuse pin, striker, striking pin) which can move as far into the chamber as the position of the container to be fitted, and a duct connecting the locations of the container and the projectile in the chamber.

Description

COOLER FOR 8AMENGEFER8T GAS FOR FIRING A PROJECTILE

The present invention relates to a compressed gas container arranged for firing a projectile.

Such a holder is known from European patent application 0 499 332.

This prior art compressed gas container has a very complicated construction because it is suitable for firing a projectile several times.

This complicated construction leads to high manufacturing costs, so that the projectile firing costs are high. Moreover, this construction leads to a large mass of the device with which the projectile is fired.

The object of the invention is to provide such a container in which the above drawbacks are avoided.

This object is achieved because the holder is arranged for firing the projectile once.

This measure results in such a simple construction that the manufacturing costs are minimal, and so minimal, that the costs per firing of the projectile are considerably lower than those of the container according to the prior art. In addition, by eliminating a container suitable for a large number of firings, the mass of the firing device remains limited.

According to a preferred embodiment, the container comprises at least two parts which are joined together under pressure. This leads to such a simple construction that this leads to a further reduction of the cost price.

According to another preferred embodiment, the two parts overlap at least partially, and an opening is provided in at least one of the overlapping pieces of both parts.

This measure makes it possible for both parts to be pushed together without the increasing pressure within the container, which is caused by the reduction of its volume, making it difficult to slide the two parts together.

The present invention will now be elucidated with reference to the annexed drawings, in which: fig. 1 shows a schematic cross-sectional view of a first embodiment of a container according to the invention; Fig. 2 is a schematic cross-sectional view of a second embodiment of a container according to the present invention; fig. 3 is a partly broken away perspective view of a carrier, within which a holder according to the invention is arranged; fig. 4 is a partly broken away perspective view of a differently shaped carrier, within which a container according to the invention is arranged; fig. 5 is a partly broken away perspective view of yet another form of a carrier, within which a holder according to the present invention is arranged; Fig. 6 is a schematic perspective view of a differently shaped carrier, in which holders according to the present invention are arranged; FIG. 7 is a cross-sectional view of a container firing device according to the present invention; and FIG. 8 is a detail view of the firing device shown in FIG. 7 with a container according to an alternative embodiment of the present invention.

Figure 1 shows a container 1 which is formed by an outer part 2 and an inner part 3 arranged therein. The outer part 2 is mainly cylindrical, but at one end thereof it mainly has the shape of a hemisphere. Such a part can be easily and cheaply formed by deep drawing or by another deformation technique.

The inner part 3 is also substantially cylindrical, but is closed on one side by a flat piece 5. The inner part is fixed in the outer part by means of a glue or solder connection 4. An opening 5 is provided in the inner part, the purpose of which will be explained in the description of the manufacture of a container according to the invention.

Such a container is manufactured as follows.

Both parts 2, 3 are arranged in a space standing under the desired content pressure of the container. One should think of pressures in the order of magnitude of approximately 100 Pa. Then the inner part 2 is pushed into the outer part 3. This can take place, due to the presence of the opening 5, without the pressure in the interior of the container 1 being increased by the volume reduction thereof; the interior of the container 1 is in communication with the environment by means of the opening 5.

After the opening 5 is closed by the outer part 2, the pressure in the interior of the container will increase as a result of the volume reduction. This is no problem, however, because the inner part 3 is guided inside the outer part 2, and the increase in pressure only leads to an increase in the force with which the parts are pushed together.

When the situation shown in Figure 1 has been reached, the glue or solder joint 4 is formed by, for example, heating. It is important here that the solder glue is present on the respective surfaces of the parts 2,3. When using an adhesive bond, it is of course also possible to allow the adhesive to harden by allowing a solvent to evaporate.

It is of course possible to use other constructions for this container; for example, it is possible to fix the inner part 3 of the holder in the outer part 2 of the holder by flaring the outer edge 6 of the outer part around the inner part 3. Naturally, other measures will then have to be taken to obtain the required gastightness.

It is further noted that the container is preferably made of a degradable material, for example steel, iron or a biodegradable plastic.

Figure 2 shows a different embodiment of the container according to the invention; this holder differs from the holder shown in figure 1 in that the inner part 3 has a hemispherical shape on its outside. In addition, the hemispherical inner part is provided with a weakening line 7 at its end, which can be easily broken when the projectile is fired, so that the part 8 surrounded by the weakening line 7 by the firing pin of the firing mechanism can be pressed and the gas can escape into the interior of the container.

It will be clear that it is also possible to apply the weakening in the outer part 2.

Figure 3 shows how a container 1 according to the present invention is arranged in a carrier 9. Here, the carrier 9 is formed by a block 10 of preferably a plastic, and more preferably of a biodegradable plastic, in which a number of cavities 11 is provided. In the embodiments shown in Figure 3, the cavities each have the form of a cylindrical channel within which a container 1 according to the invention is arranged, as well as a projectile 12. At the front, the cavities are each sealed by a band 13, which is used for firing the projectile must be removed. This configuration requires that the container 1 be opened at its rear when firing, forcing the gases to reverse direction and pass through the narrow space in the channel and container, while alternatively, the front of the container can be opened upon firing, but here provision must be made in carrier 9 for the passage of the firing pin.

9

In the embodiment of figure 4 this problem is solved by the fact that in this embodiment there is a mainly U-shaped channel 14 in one leg of which the holder 1 is arranged, and in the other leg of which the projectile 12 is arranged . The gas which has escaped from the holder 1 has to undergo a change of direction of 180 *, but the space available for this is more than sufficient, so that this probably has little influence on the thrust of the gases. In this embodiment, the weakened part of the container is easily accessible by a firing pin.

The same applies to the embodiment shown in figure 5, in which the channel is mainly L-shaped, and in one of the legs of the channel the holder 1 is arranged and in the other the projectile 12. In this embodiment too, a firing pin can weaken the easily reach the container 1.

Figure 6 shows how the linear embodiment of figure 4 can be transformed into a drum-shaped magazine 16, with the cavities 14 arranged in a circle. It is noted here that the other side of the container is shown in figure 6, so that only the side of the cavity 14 not covered by a wall 13 is visible in the form of openings. A hexagonal opening 17 is provided in the interior of the magazine 16 for driving the magazine in rotation.

It will be clear that it is possible to design the holders and warehouses in a large number of variations; this is related to the construction of the firing device in which the respective warehouse is used.

It is noted here that the container according to the invention is particularly suitable for firing projectiles containing pharmaceutical substances, namely for applications such as these are described in Dutch patent application number 9200844. Thus it will be clear that, for example for vaccinations, in which a a large number of people or animals must be vaccinated with the same vaccine, it is easy to use warehouses with a large number of channels in which similar projectiles are mounted, while for other types, for example one-off applications, it is easy to use containers in which there is only one cavity, and within which the cavity is arranged only a container and a projectile containing a particular pharmaceutical substance.

Finally, Figure 7 shows how a container of the present invention is used in a firing device. The firing device 18 is formed by a body 19 in which a chamber 20 is arranged. A threaded bore 23 is made in the body 19, into which a likewise threaded barrel 24 is screwed. To improve the ballistic behavior of the projectile 12, the barrel 24 may be provided with fields not shown in the drawing.

By means of a transport mechanism not known in the figure, which is known per se in the art, and which is used with machine guns and other shooting equipment, the space 20 is filled with a carrier 9. In the present exemplary embodiment, the carrier 9 is formed by the carrier shown in Figure 4. The transport mechanism ensures that a filled cavity 11 is present in the space 20 before firing. As stated, this cavity 11 is filled by a container 1 according to the present invention and a projectile 12. By means of a mechanism known per se, a firing pin 25 is activated, which pierces the weakened part 8, so that the container present inside the container 1 gases are passed through the cavity 11 at the rear of the projectile 12, and the projectile 12 is driven outward, projectile 12 starting to rotate through the fields present in the barrel.

In Fig. 8, in this embodiment of the firing mechanism 18, a separate chamber 26 is arranged in the body 19, in which the container 1 is to be arranged, and a separate chamber 27 is provided, in which the projectile 12 is to be arranged, which chamber 27 an extension of the barrel 23. Both chambers 26, 27 are connected by means of a channel 28. The firing pin 25 is provided with a sharp end 29 which is adapted to pierce the head wall of the container 1, so that it pressurized gas stored in the container 1 is released, and this moves via the channel 28 to the chamber 27, whereby the projectile 12 is expelled.

Holders 1 can be used for this, as described with reference to the previous exemplary embodiments. However, it is also possible to use a container of the construction as will be described below. This embodiment of the holder 1 is formed by two head-shaped elements 30 which are mutually connected by an annular part 31.

Fixing can take place by welding or, for example, by means of gluing. It is important that the attachment is gastight. For filling such a container, it is placed in a pressure-tight chamber which is connectable to a source of pressurized gas and which chamber is provided with a window through which the container is accessible by laser light. Initially, the holder placed in the chamber is irradiated with a sharply focused beam of laser light. The chamber is then connected to the source of pressurized gas, after which a laser beam is again used, this time less sharply focused, thereby melting the opening made initially. Then the connection to the source of gas under pressure is broken, and the room is connected to the outside air. Then the holder 1 can be taken out.

Naturally, this manner of filling a container is also applicable to other constructions of the container.

It is pointed out here that the upper part of the carrier 9 is pressed against the inner wall of the space 20 as well as the lower part of the carrier 9 by the gas pressure, so that a good gas seal is obtained and the gas pressure is effectively used for expelling the projectile. It will be clear that various modifications can be made to this construction without departing from the invention.

A further advantage of the present invention lies in the fact that with projectiles of different types, for example different masses, the quantity and pressure of the gas in the container can be adapted to the projectile.

Claims (19)

A container for compressed gas designed for firing a projectile, characterized in that the container is designed for firing the projectile once. Holder according to claim 1, characterized in that the holder comprises at least two parts. Holder according to claim 2, characterized in that the two parts at least partially overlap each other, and that an opening is arranged in at least one of the overlapping pieces. Holder according to any one of claims 1 to 3, characterized in that a weakening is arranged in at least one of the parts. Container according to claim 4, characterized in that the attenuation has the configuration of a closed line. Holder according to claim 1 or 2, characterized in that the holder is provided with a closed opening. Holder according to claim 6, characterized in that the closed opening is fused. Holder according to claim 7, characterized in that the opening is provided by means of laser light. Container according to one of Claims 1 to 8, characterized in that the container is made of degradable material, for example of steel. A container according to any one of claims 1 to 9, characterized in that the container, together with the projectile, is arranged in a cavity formed in a carrier such that, when the gas is released from the container, the projectile from the carrier is squeezed. Container according to claim 10, characterized in that the container is made of biodegradable material, for example biodegradable plastic. Holder according to claim 10 or 11, characterized in that the projectile and the holder are arranged in line in the cavity. Holder according to claim 10 or 11, characterized in that the cavity has a substantially U-shaped configuration, and in one of the legs of the "U" the projectile is arranged and in the other leg the holder. 14. Holder according to claim 10 or 11, just as it is known, that the cavity has a substantially L-shaped configuration, and that in one of the legs of the "L" the projectile is arranged and in the other leg the holder. A container according to any one of the preceding claims, just as it is known that the cavity on the projectile side is opened and closed by a removable cover. A container according to any one of the preceding claims, just as it is known, that the carrier comprises a number of cavities, each provided with a projectile and a container. Container according to claim 16, just as it is known that the carrier has a round configuration and that the cavities are arranged in a circle in the carrier. Holder according to claim 16, characterized in that the carrier is linear, and that the cavities are arranged along the line in the carrier. Firing device suitable for firing a projectile by means of a container according to any one of the preceding claims, characterized by a chamber suitable for containing a carrier according to any of the claims 16-18, and into the chamber at the location of the holder to be arranged, movable pointed pin and a channel connecting the position of the holder and the projectile in the chamber.