1. Field of Invention
The present invention relates to pyrotechnic devices in general and in particular to a method and apparatus of forming a pyrotechnic device that is safer to store and transport.
2. Description of Related Art
Pyrotechnic devices or fireworks are well known and typically comprise a projectile launched from a tube or mortar. Such devices are formed of a casing containing an explosive or burst charge and at least one fireworks effect, such as stars sparklers and the like therein. In conventional fireworks, the burst charge and fireworks effects are typically contained within a common chamber within the casing.
In operation, fireworks shells are launched into the air by a lift explosive charge contained within the mortar either loosely or attached to a bottom of the shell. The fireworks shell includes a time delay fuse which may be ignited by the lift charge so as to ignite the burst charge at a desired height. Fireworks shells rely upon a combination of the burst charge contained within them to ignite and distribute the fireworks effects contained for display to observers.
Conventional fireworks rely upon both the burst charge and the shell wall or casing to produce a sufficient dispersion of the fireworks effect. Conventionally, low explosive compounds are utilized such that the rate of decomposition is insufficient alone to produce the required dispersal of the fireworks effects. Examples of such low explosives are black powder based or flash or aluminum based charges. Accordingly, the casing of the fireworks serves to confine the initial deflagration of the explosive compound until a sufficient pressure has developed within the shell to rupture it and thereafter the developed pressure serves to disperse the fireworks effects as desired.
Current difficulties exist in the usage, storage and transportation of conventional fireworks. Due to the potentially explosive nature of such devices, national and international regulations require minimum standards for containment and safe distances required to be maintained around fireworks.
According to a first embodiment of the present invention there is disclosed a pyrotechnic device comprising an outer casing having a bore therethrough, a central sleeve extending from the bore into an interior of the outer casing and an insert having a burst explosive charge therein sized to be capable of being slidably received within the central sleeve.
The outer casing may have a wall strength selected to constrain and compress the decomposition a burst charge contained therein. The outer casing may be formed of first and second complementary casing portions. The outer casing may be substantially spherical.
The first and second casing portions may comprise substantially equal hemispheres wherein the first and second casing portions are connected to each other along a plane bisecting the polytechnic device. The outer casing may be substantially cylindrical having an axis wherein the central sleeve extends along the axis.
The bore may be located in the first casing portion. The first casing portion may include a first cylinder extending from the bore into the cavity. The second casing portion may include a second cylinder extending therefrom into the cavity alignable along a common axis with the first cylinder when the first and second casing portions are secured to each other. The end portion of the second cylinder may overlap an end portion of the first cylinder and form the central sleeve.
The outer casing and the central sleeve may form an annular cavity therebetween. The annular cavity may contain at least one substance capable of producing a fireworks effect.
The insert may be securable within the central sleeve by a retainer selected from the group consisting of tape, clips or glue. The insert may comprise an elongate cylindrical body having a wall thickness selected to be easily ruptured so as to not constrain and compress the decomposition a burst charge contained therein.
The insert may extend between first and second end plugs and include the burst charge in a central portion thereof. The insert may include at least one fireworks effect between the burst charge and the first and second end plugs. The insert may include a time delay fuse extending from the burst charge and through the first end plug to an exterior of the insert.
Other aspects and features of the present invention will become apparent to those ordinarily skilled in the art upon review of the following description of specific embodiments of the invention in conjunction with the accompanying figures.
In drawings which illustrate embodiments of the invention wherein similar characters of reference denote corresponding parts in each view,
Referring to
As illustrated the casing body 12 may have a substantially spherical shape as are conventionally known however, it will be appreciated that other shapes may also be utilized such as cylindrical by way of non-limiting example. The first and second casing portions 14 and 16 forming the casing body 12 each comprise hemispheres of the casing body 12 being joined along a plane generally indicated at 25 bisecting the sphere. In such embodiments, each of the first and second casing portions 14 and 16 are substantially similar to each other comprising symmetric halves of the sphere formed by the casing body 12. It will also be appreciated that in other embodiments, the first and second casings portions 14 and 16 may optionally comprise asymmetric portions forming the casing body 12.
With reference to
The second casing portion 16 comprises a second semi-spherical outer casing wall 30 extending from a second edge 38 having inner and outer surface, 32 and 34, respectively and a second cylinder 36 extending from the inner surface 32. The second cylinder 36 may extend to a position past the bisecting plane 25 so as to surround and overlap the first cylinder as illustrated in
The first and second casing portions 14 and 16 are formed of conventional materials for a fireworks shell, such as, by way of non-limiting example, cardboard, paper, pasteboard or plastic. The first and second cylinders 24 and 36 may be formed of paper, cardboard, pasteboard and other common pyrotechnic device forming materials.
The first and second casing portions 14 have a thickness selected depending upon the size of the device 10 and the material so as to provide compression to an explosive burst charge contained therein as is common in the art. By way of non-limiting example, a 5.9 inch (150 mm) diameter pyrotechnics device may have a first and second casing portion 14 and 16 wall thickness of between 0.04 and 0.6 inches (1 and 15 mm) formed of paper, cardboard or plastic depending upon the bust charge and desired explosion. The first and second cylinders 24 and 36 are formed to have a substantially reduced thickness and strength as compared to the first and second casing portions 14 and 16 thickness and strength and do not significantly add any ability to contain and compress the combustion of a material therein. The first and second cylinders 24 and 36 therefore serve to define keep fireworks effects out of the central sleeve only.
The first and second casing portions 14 and 16 may be mated together to form a casing body 12 as illustrated in
The insert 40 comprises a substantially cylindrical body extending between first and second ends, 42 and 44, respectively. A time delay fuse 46, as are commonly known in the art having a cross match 48 extends axially from the first end 42 thereof. As illustrated in
The burst charge 50 may be selected from any commonly known pyrotechnics material such as black powder or aluminum based explosives. It will therefore be seen that the choice of burst charge materials may be selected such that the rate of decomposition is insufficient in itself to create an explosive effect. The tube 60 is formed of paper or other common pyrotechnics materials and has a thickness so as to be readily frangible or ruptured. Accordingly, the tube 60 will not add significant strength to the insert and will therefore not significantly constrain the propagation of the deflagration of the burst charge. It is well known that for low explosive materials in which the rate of decomposition travels slower than the speed of sound through the material, that resulting decomposition will not result in an explosion if the decomposition is largely unconstrained. In this way it will be seen that if the burst charge 50 within the insert 40 is ignited and is unconstrained by any other structures, the resulting decomposition will not result in an explosion but rather as a rapid burn. Similarly, when an insert 40 is not located within the casing body 12, any decomposition of a composition within the casing body may easily rupture the central sleeve 70 and be vented through the bore 26 so as to not develop a sufficient pressure to explode as well.
Conversely, when the insert 40 is located within the casing body 12 as illustrated in
Turning now to
The assembled casing body 12 and insert 40 may be shipped and stored separately from each other. When a user desires to utilize a device, they may insert the insert 40 into the bore 26 and secure it therein by the use of tape, clips, glue, friction and the like so as to retain the insert within the bore against the centrifugal forces upon the shell and insert as the shell is launched from a mortar. The resulting device may then be placed within mortar and subsequently propelled into the air. It can be seen that the user may also have the ability to select different shell casing bodies 12 having differing loads of fireworks effects within the annular cavity 72 and match them with different inserts 40 having differing burst charges and fireworks effects so as to customize the desired fireworks display.
Turning now to
While specific embodiments of the invention have been described and illustrated, such embodiments should be considered illustrative of the invention only and not as limiting the invention as construed in accordance with the accompanying claims.
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Entry |
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PCT/CN2011/000719 International Search Report issued by The State Intellectual Property Office, the P.R. China on Aug. 4, 2011. |
Number | Date | Country | |
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20110259229 A1 | Oct 2011 | US |