NO131311B - - Google Patents

Description

Cartridge for fireworks.

It has previously been proposed to use pyrophoric or hypergolic substances in fireworks, especially for lighting burners, e.g. fire toy for smokers. It is known that these fire toys can also be adapted to all kinds of devices or machines that include a burner to be lit, e.g. fire barrels or burner lamps. ;These fire toys can use either a pyrophoric substance, which ignites instantly on contact with air, or a hypergolic substance which produces a combustion when it is in contact with a fuel. To simplify the description, only pyrophoric substances will be mentioned below, but it is clear that this term should also cover the hypergolic substances. As an example, reference should be made to a substance that is well suited for the present use, particularly aluminum borohydride. The pyrophoric substances that are suitable are generally very expensive and it is necessary to provide devices that only release a very small amount of substance into the atmosphere each time it is desired to light the burner. ;It is advantageous to place the pyrophoric substance in a cartridge ;which can be replaced, so that it is possible to quickly restore the operating condition by a simple replacement of the empty cartridge with a full one. It has previously been proposed to produce cartridges with a soft wall, with an exit opening for substances and a closing means for opening. When it comes to producing small cartridges, which should be easy to fit into a tool with small dimensions, e.g. a roker-firtdy, it is however very difficult to produce cartridges with thin walls with certainty, the thickness of which is determined with sufficient accuracy. Experiments have shown that it is difficult to provide a mechanism arranged in the cartridge, even for the delivery of the small amounts of pyrophoric substance that are needed in the case where the device is to be influenced from the outside. It is necessary to provide an impact part that passes tightly through the cartridge wall, since the tightness is achieved by means of a gasket. It is generally difficult to mass-produce absolutely tight gaskets. A further difficulty is due to the fact that the seals are quickly attacked by the usual pyrophoric substances, so that the tightness is lost after a certain time, so that a leak can occur with the loss of the pyrophoric substance contained in the cartridge. The present invention aims to overcome these disadvantages and the difficulties mentioned above. The invention thus relates to a cartridge for fireworks, of the kind that contains a pyrophoric or hypergolic substance, in liquid or gas form, and which has an outlet opening and a closing member for this opening, where the closing member is held resiliently in position for closing, it interacts with a spring and a movable plumb which is mechanically independent of the cartridge, and interacts with the closing member in such a way that the opening is uncovered when the plumb is removed from a rest position, and the peculiarity of the cartridge according to the invention is that the plumb is completely enclosed in the cartridge , is under the influence of a spring which returns it to the rest position, and is arranged to carry out an oscillation for the ejection of a certain amount of fuel. ;The expression "mechanically independent" is to be understood here as meaning that there is no mechanical transfer element that goes from the inside outwards from the cartridge to secure a connection between the solder and an impact device which is placed outside the cartridge. The advantages of such a cartridge device are clear from the above description of the many previously known devices. The attached drawings show, as examples, different embodiments of the cartridge according to the invention. Fig. 1 - 5 show four different embodiments of the cartridge according to the invention, adapted to different impact mechanisms for ejecting small, specific amounts of pyrophoric substance. Fig. 6 and 7 show two further embodiments of the cartridge according to the invention. In the embodiment shown in fig. 1, the fire toy comprises a cartridge 1 which is arranged in a tubular housing 2, where it can move slightly. The lower end of the cartridge is held pressed against a shoulder 2a in the housing 2, under the influence of a disk 3 of elastic material arranged between the upper end of the cartridge and a threaded cap h. The cartridge 1 contains a charge of pyrophoric substance contained in a glass -web 5 which is enclosed in a perforated drum 6. At the upper end, the cartridge has an exit opening at the bottom of a rib-shaped member 7, this opening being closed by means of the head 10 of a closing member 8 which is under the influence of a force 9. Inside the cartridge, between the exit opening and the drum 6, there is arranged a plumb line 11 which is under the influence of a spring 12, the movements of this plumb line being controlled by means of a rod 13 which is firmly connected to the plumb line and is in engagement with a rudder-shaped part '\ h of the drum 6. A manual impact device 15 is arranged so that it can slide in the lower part of the housing 2 against the action of a return spring 16. The upper edge 17 of this impact device 15 is omboyed so that they n holds on the lower end of a part 18 which forms a hammer which is held at a distance from the member 15 by means of a spring 19. A spring-actuated pawl 20 normally holds the hammer 18 in the position shown. When the manual impact member 15 is pressed inwards into the housing 2 against the action of the springs 16 and 19, the upper edge 17 of the member 15 will however cooperate with the inclined surface 21 of the pawl 20 and displace this so that the hammer 18 is released. When this is free, and under the influence of the spring 19, it will hit the lower end of the cartridge. The displacement of the cartridge against the elastic return force from the disc 3? will cause an abrupt displacement of the solder 11 which will hit the closing member 8 and open the exit opening. The solder 11 is thus displaced without any mechanical connection with the cartridge itself. ;When the organ 15 is released, it is quickly lowered again by means of the spring 16 at the same time as the hammer as this is locked again by means of the pawl 20. ;In order to facilitate the ejection of the desired amount of pyrophoric substance through the exit opening, the solder 11 carries on its upper surface a bowl-shaped disc 22. During the upward movement of the solder 11, this disc will seal against the inner wall of the cartridge 1, whereby the pyrophoric substance contained between this disc and the exit opening will be compressed. The disk 22 is so flexible that during the return movement of the solder 11, it will allow passage of the pyrophoric substance coming from the drum 6 to the space between the disk and the exit opening. The disc 22 on the solder 11 will thus act like a piston in an air pump and thereby contribute to the ejection of the pyrophoric substance through the outlet opening when this is open. The lighthouse shown in fig. 2 is similar to that shown in fig. 1, but here the energy collected in the spring 19 as a result of the movement of the impact member 15 will act directly on the bottom of the cartridge 1, so that this is moved upwards until the sleeve 2h with its bent edge 23 hits the shoulder 25 which is formed in the housing 2. The piston-shaped plumb bob 11 is then displaced upwards and strikes the rod in the closing member 8 in a manner similar to that described above. The solder 11 is also displaced here without any mechanical connection passing through the wall, i.e. that it is mechanically independent of the cartridge. This second embodiment also differs from the first in that the solder 11 is guided during its longitudinal movement by means of a pin 26 which is attached to the drum 6 and engages with a hole 1 in the solder 11. A gasket 27 is attached to it upper end of the housing 2 and is sufficiently soft to allow the solder 11 to move upwards as required. The embodiment shown in fig. 3 differs from the first two embodiments in that the solder 11, which serves as a piston, directly carries a tip '30 which can close the outlet opening arranged in a membrane 30a. The solder 11 and the tip 30 must be moved downwards to open the exit opening. For this purpose, the cartridge 11 is arranged in a sleeve 31 which can slide in the housing 2. The energy which is collected in the spring 19 during the downward movement of the sleeve 32, which results in a pressure exerted on the influencing member 15, is released when the bottom of the sleeve comes into contact with the inclined surface 21 of a pawl 20 to displace this and release the cartridge 1. The cartridge is then pushed strongly downwards until the movement is blocked when the lower edge 32 bumps against the shoulder 33 in the housing 2. Due to its inertia the solder 11 will move downwards and release the tip 30 from the exit opening, which is thereby opened for a short moment. The solder 11 is in fact under the influence of a return spring 3*f which serves to remove it from the drum 6 and to push the tip 30 back to close the outlet opening tightly. The reciprocating movement of the solder 11 is achieved without mechanical connection with the cartridge.

Also in this embodiment, the solder 11 has a seal 22 which is in contact with the inner wall of the cartridge. As the solder moves downwards, the pyrophoric substance located in the lower part of the cartridge will escape by passing around the gasket and thereby enter the upper part of the cartridge. When the solder moves upwards, the gasket will prevent the pyrophoric substance from returning to the lower part of the cartridge and if this substance is ejected through the exit opening, this will be closed by means of the tip 30.

In the embodiments shown in fig. h and 5, the arrangement of the cartridge is largely similar to the arrangement in the previous embodiments, but the movement of the solder 11 is different. Instead of moving the cartridge, a magnetic coupling member 36 is arranged outside this, which can be displaced on two edges 37 against the action of springs 38 by means of a manual influence member 39. The solder II and the member 36 are both made of magnetic material, as the one or both can be made of a material suitable for the production of permanent magnets, while the cartridge 1 is made of non-magnetic material, e.g. aluminum.

During use, a downward movement of the member 36 will cause a movement of the solder 11 against the action of the return spring ko until the force exerted by this is greater than the magnetic force acting between the solder 11 and the member 36.

The consequence is that the solder at the end of this movement

will be pushed upwards by means of the spring ho, and strike against the closing member 8 which lifts the head 10 and thereby uncovers the output

the opening. When the member 39 is released, the member 36 will return to its starting position for carrying out a new operation. In this embodiment, the connection between the outside and the inside of the cartridge is not mechanical, being achieved by means of a magnetic field.

Fig. 6 shows an embodiment of a cartridge similar to that shown in fig. 2. The drum 6, which contains fiber mass impregnated with pyrophoric substance, is also here placed in a housing - <1>+5

of drawn tin, while the housing is sealed against the drum 6 by means of a gasket 1+6. The solder 11 is guided in the housing +5 where it can be moved against the action of a spring +7. The solder 11 carries a rod +8 whose head +9 forms a conical extension which engages in an output opening 50 in the housing <1>+5.

This cartridge can be used in conjunction with an impact mechanism of the type shown in fig. 2, and when the upper part of the housing <1>+5 bumps against, the solder 11 will move together with the rod +8, causing a short-term opening of the output opening 50.

Fig. 7 shows an embodiment which is to work in a device of the kind shown in fig. 3« The housing <1>+5 for the cartridge, also here in drawn tin, has an opening which is closed by means of a tip 51 which is attached to the base of a bell-shaped part 52. This part 52 contains the pyrophoric substance which is occupied in a fiber mass and can move against the action of a spring 53- The lower end 5V of the part 52 has a constriction with which it is held in the middle hole in a membrane 55 which serves to control the part 52. This thus plays the same role as the solder 11 in the preceding embodiments, so that the weight and also the space required for the device can be reduced, as the weight of the pyrophoric substance is included in the mass whose kinetic energy makes it possible to make an opening using the tip 51•

In all the embodiments shown and described, the action of the device for releasing a small amount of pyrophoric substance is achieved by a movement of the closure member 8, 30, 1+9, which is released by means of devices outside the cartridge and which does not require any other opening from the cartridge than the exit opening.

Claims (3)

1. Cartridge for fireworks, which contains a pyrophoric or hypergolic substance in liquid or gas form, and which has an outlet opening and a closing member (8, 30) for this opening, where the closing member is held resiliently in position for closing, as it cooperates with a spring (9, <3>+) and a movable plumb bob (11) which is mechanically independent of the cartridge, and interacts with the closing member (8, 30) in such a way that the opening is revealed when the plumb bob (11) is removed from a rest position characterized by that the solder (11) is completely enclosed in the cartridge (1), is under the influence of a spring (12) which brings it back to the rest position, and is arranged to carry out an oscillation to expel a certain amount of fuel. 2. Cartridge as specified in claim 1, characterized in that the plumb line (11) is designed to cooperate with devices (13, 1+) for controlling the plumb line movements. 3. Cartridge as specified in claim 1, where the pyrophoric substance is contained in a body of fibrous material, characterized in that the solder (11) is placed between the fiber body (5) and the outlet opening.