NL2010789C2 - PIECE OF FIREWORKS. - Google Patents

Description

Title: Piece of fireworks

Technical field

The present invention relates to a piece of fireworks, and in particular to a so-called cake.

Background

A "cake" is a piece of fireworks that includes a number of typically vertically and mutually parallel oriented cardboard launch tubes or mortars. Each of the launch tubes comprises a powder charge, and the powder charges in the various launch tubes are generally serially connected by a wick. When a free ignition end of the wick is ignited, the powder charges in the launch tubes are fired sequentially. Because the gunpowder charges can differ in composition, a cake in succession can generate different effects, which can give the impression of a professional fireworks show. Partly because of this, the cake is popular among consumers.

In several countries, the maximum powder load per cake is regulated by law, for example at 500 grams. This limits, among other things, the maximum duration of a continuous series of effects to be generated with a cake. The present invention aims to provide a safe solution for this within the legal framework.

Brief understanding of the invention

A first aspect of the present invention relates to a piece of fireworks, in particular a so-called "cake". The firework piece comprises a plurality of launch tubes interconnected in / into a block, each launch tube containing a powder charge, and a connecting wick interconnecting the powder charges of the respective launch tubes. The connecting wick is furthermore connected to a first thermal coupling element provided on an outside of the block and which is adapted to generate sufficient heat on ignition to cause ignition of an adjacent thermal coupling element of another similar piece of fireworks.

A second aspect of the present invention relates to a fireworks assembly comprising a plurality of fireworks pieces according to the first aspect of the invention, wherein at least one of the fireworks pieces has a connecting wick with a free firing end. The fireworks assembly further comprises a configuration member which keeps said fireworks pieces in contact with each other in an operating configuration in which at least one thermal coupling element of each firework piece abuts against a thermal coupling element of another firework piece, such that all fireworks pieces are ignited by lighting the free lighting end of the connecting wick of the at least one of the fireworks pieces can be activated. In one embodiment the pieces of fireworks can be mutually coupled in series such that they are activated in series by lighting the free lighting end of the connecting wick of the at least one of the pieces of fireworks.

The present invention thus provides a piece of firework adapted to be mutually coupled in a firework assembly to similar pieces of firework, such that the firing of one piece of firework results in the ignition of the other pieces of firework of the assembly, namely in a safe, controlled manner in a predetermined order. The coupling between the various fireworks pieces of the assembly is effected by thermal coupling elements provided on respective outer sides of the fireworks pieces, which are arranged in pairs opposite each other within the fireworks assembly. Ignition of one thermal coupling element then generates sufficient heat to effect ignition of the opposite thermal coupling element.

Regarding the terminology used in this application, the following is noted. The term wick refers to a flammable rope or wire-like object. In addition, under the term wick, in addition to a single-flammable rope-like or wire-like object, it also becomes an assembly (e.g., a network) of such objects that are mutually direct / continuous (ie without the intervention of non-wick, for example, by cross-linking or intertwining) or indirectly / discontinuously (ie through non-wick intervention) are flammably connected. The term wick end "refers to a single piece of wick of a certain length, and may refer to both a physically self-contained piece of wick and a physically non-self-contained wick that is part of a larger wick. The term "Connection Wick" refers to the wick of a piece of fireworks that interconnects the gunpowder loads of their respective launch tubes. It is important that a connecting wick can be a aforementioned assembly, and thus can comprise different wick ends - in the sense of physically independent pieces of wick - which can be interconnected by the powder charges, and in particular the riser charges, in the launch tubes. The term end "used in relation to a wick refers to a physical end of the wick, with the addition Free" indicating that the end is or can be made freely accessible to the user and is intended to be ignited.

In order to obtain a more complete understanding of these and other features and advantages of the present invention, a few embodiments are discussed in the following detailed explanation, with reference to the accompanying figures.

Short description

FIG. 1 shows in a schematic perspective view a piece of fireworks according to the present invention; and

FIG. 2 shows in a schematic top view a firework assembly, comprising four pieces of firework that are similar to those in FIG. 1 piece of fireworks shown.

DETAILED DESCRIPTION OF THE INVENTION

In the following, the present invention will be discussed in general terms, and where appropriate with reference to Figures 1 and 2.

A piece of fireworks 1 according to the present invention, also called a "cake" ("cake firework", "multiple tube device"), may comprise a plurality of launch tubes or mortars 12. In consumer fireworks, the launch tubes 12 are typically made of (multi-layered) cardboard for economic reasons. In principle, however, it is possible to make them from other materials, such as fiberglass or HDPE. Each of the launch tubes 12 is preferably cylindrical in shape (i.e. cylindrical), and directed along a longitudinal axis 1. In the most practical embodiments, the launch tubes 12 have at least substantially the same length, i.e. a length that does not differ by more than approximately 15% from each other.

The launch tubes 12 can be interconnected and bundled, for example by heating, to form a compact block 10. Traditionally, all launch tubes 12 in the block 10 are oriented parallel and vertically oriented in a usage orientation. In such a case, the block 10 as a whole generally has a beam or cylinder shape. However, in alternative embodiments, the launch tubes 12 do not all need to extend in parallel. A so-called 'fan' or 'angle cake', for example, comprises a number of juxtaposed, equally long rows of launch tubes extending parallel to each other (and perpendicular to the longitudinal direction of the row), with adjacent rows mutually a small sharp angle Enclose. A block with launching tubes thus oriented thus has an overall three-dimensional fan shape with an approximately trapezoidal cross-section. The surface of the block associated with the small base of the trapezium then serves as a base or foot. To finish, the block 10 can be provided with a decorative, for example, paper or cellophane, wrapper 14.

Each of the launch tubes 12 includes a powder charge 42, which in turn may include a riser charge 42a and an effect charge 42b. Both charges 42a, 42b can be incorporated in a "(mini) shell" or (mini) mortar bomb 40. Such a shell 40 can be placed at the bottom of a launch tube 12 sealed at the bottom with, for example, an end stop or plug 13. Within the shell 40, the effect charge 42b, typically consisting of a 'burst charge' surrounded by / mixed with certain effects 44 (such as so-called 'stars'), may be enclosed in a cardboard shell or container 41, for example. are provided on the underside of the shell 41, and are connected by means of a timed wick 44 to the effect charge 42b in the shell 41. When the riser charge 42a is ignited in use, the shell 40, or at least the shell 41 thereof, is launched from the launch tube 12. The ignition of the riser charge 42a also causes the ignition of the timed wick 44 which, when the launched shell 41 reaches its highest point, ignites the effect charge 42b in the shell 41. The shell 41 then explodes, with the burst charge exploding and spreading the effect 44.

The firework piece 1 may further comprise a connecting wick 20 connecting the powder charges 42, and in particular the riser charges 42a, in the different launch tubes 12. In a practical embodiment, the connecting wick 20 may comprise a first external winding end 20a, which extends from a free starting end 22 outside the block 10, via an opening in a wall of a launch tube 12, into the powder load 42 of the launch tube in question. 12. Furthermore, the connecting wick 20 may comprise one or more internal wick ends 20b which extend primarily within the block 10, and which, typically through openings in the walls of the launch tubes 12, the gunpowder charges 42 in the different launch tubes 12 mutually in a desired order V connect. In one embodiment, this order V can be exclusively serial, so that in use the powder charges 42 in the launch tubes 12 will be fired sequentially. In another embodiment, the gunpowder charges 42 of some launch tubes 12 may be serially interconnected, and of some other launch tubes 12 mutually parallel. Finally, the connecting wick 20 may comprise a second external winding end 20c, which typically extends from a powder charge 42 to be ignited last within block 10 to a first thermal coupling element 24 externally arranged on block 10. For the sake of completeness, it is noted that the connecting wick may consist of a single wick end, which extends, for example, between two external free pilot ends and interconnects the powder charges 42 in the different launch tubes 12 via an internal part. Alternatively, the connecting wick may comprise a plurality of physically separate winding ends, such as in the embodiment shown in FIG. 1 shown.

The first thermal coupling element 24 provided on an outside 10a of the block, whether or not concealed under a winding 14, is adapted to generate sufficient heat on ignition to cause ignition of a thermally placed therethrough, whether or not through the winding 14 coupling element of another, distinctive piece of fireworks 1. The first thermal coupling element can in principle have any desired shape, and for instance comprise a holder (e.g. a cardboard box) with a pyrotechnic composition.

In a preferred embodiment, however, the first thermal coupling element 24 is made of wick. In such an embodiment, no special and / or additional parts are required to manufacture the firework 1 piece: wick was already required for manufacturing the connecting wick 20, and the thermal coupling element 24 can also be made from this same wick. In one embodiment, the thermal coupling element 24 may, for example, comprise a winding end rolled up in a plane, which can be secured against an outside of a launch tube 12. Such a rolled winding end has a contact surface that can be placed against a corresponding contact surface of a thermal coupling element mounted on another piece of firework, such that ignition of one winding end causes ignition of the other winding end. In a particularly advantageous embodiment, the first thermal coupling element 24 comprises at least two weld ends, and for greater reliability, preferably at least three weld ends 20c, 26a, 26b, which extend parallel to each other and preferably substantially linearly. The thermal coupling element 24 can thus comprise two or three abutting, linear and parallel, the wick ends 20c, 26a, 26b. The use of a number of weld ends 20c, 26a, 26b, which extend substantially linearly in mutual longitudinal contact, is preferable to the use of a rolled-up winding end because the relatively expensive manufacturing step of winding up a winding end can then be skipped.

The embodiment shown in FIG. 1 shows only one thermal coupling element 24, and a connecting wick 20 extending into a thermal coupling element 24 from a free firing end 22, via the powder charges 42 in the launching tubes 12. Alternative embodiments of the however, a piece of fireworks can comprise a plurality of thermal coupling elements 24, 24 'arranged on an outside of the block 10 (see Fig. 2), for example two. The connecting wick 20 can then extend between these two thermal coupling elements 24, 24 ", e.g. from the first thermal coupling element 24, via the different powder charges 42 in the launch tubes 12 of the firework piece, into the second thermal coupling element 24". If desired, the connecting wick 20 need not end in one or both thermal coupling elements 24, 24 "; for example, the connecting wick 20 may extend through one or both of the thermal coupling elements 24, 24 'to terminate in respective free lighting ends 22. When the connecting wick 20 extends through both of the thermal coupling elements 24, 24', the two free lighting ends 22 may that the connecting wick in such an embodiment is superfluous if the firework piece 1 is used in a firework assembly 2 as discussed below. However, if the firework piece 1 is used independently, it can be ignited with one of the two free firing ends 22, while the other free firing end can serve as a back-up in case activation of the firework piece 1 via the first free lighting end failed. Free lighting ends 22 of the connecting wick 20 which are not intended to be ignited when the firework piece 1 is used in an assembly can, for example with a sticker, be stuck to the block 10 to clarify this.

In order to simplify the efficient coupling of different pieces of fireworks 1, each having a plurality of thermal coupling elements 24, 24 ', the thermal coupling elements are preferably arranged on substantially flat outer sides 10a of the block 10 of a respective piece of fireworks 1. To make this possible, the launching tubes 12 of the piece of work can be mutually connected in parallel in the block 10 such that the block 10 extends at least two substantially flat launching tubes 12 connected parallel to a longitudinal axis 1 of the mutually parallel connected launching tubes 12. has outside 10a.

FIG. 2 shows a top view of an exemplary embodiment of a fireworks assembly 2 according to the present invention. The fireworks assembly 2 shown comprises four pieces of fireworks 1. In embodiments other than this number are of course different. A first piece of fireworks, top left in Fig. 2 is identical to the one shown in FIG. 1 piece of firework 1. The other three pieces of firework 1 are mutually identical but differ from the one shown in FIG. 1 piece of fireworks 1 in that they comprise not one but two thermal coupling elements 24, 24 'which are each arranged on circumferential outer sides 10a of the block 10 extending at right angles to each other. In a practical embodiment the connecting slits can be 20 of the respective pieces of fireworks 1 always extend through a thermal coupling element 24 into a free lighting end 22, which may optionally be stuck to the block with a sticker. In FIG. 2, however, such free lighting ends 22 are not shown for the sake of clarity. Only the first piece of fireworks 1, top left in Fig. 2, has a free end 22 relevant for the fireworks assembly 2 as such.

The fireworks assembly 2 further comprises a conglomerator 30 which keeps said fireworks pieces 1 in contact with each other in an operating conguration. In such an operating configuration, at least one thermal coupling element 24 'of each piece of firework 1 normally abuts against at least one thermal coupling element 24 of another piece of firework 1, such that all pieces of firework 1 are lit by lighting a free lighting end 22 of the connecting wick of one piece of firework 1 can be activated. In the exemplary embodiment shown, the pieces of fireworks 1 are mutually coupled in series by means of the thermal coupling elements 24 (the branching order of the launch tubes 12 of each piece of fireworks 1 is indicated by a path V), so that they are ignited by lighting the free lighting end 22 of the first piece of fireworks are activated in series. The configuration member 30 preferably comprises a form-retaining peripheral wall 32, possibly formed by cardboard and tape, which surrounds the aforementioned pieces of fireworks 1 and prevents their relative displacement and reorientation. In one embodiment, the conguring member 30 may, for example, comprise a suitable box or tray.

Although in the foregoing the present invention has been elucidated with reference to a few illustrated exemplary embodiments, it should be noted that the invention is not limited to these exemplary embodiments. Various modifications and changes can be made to the discussed exemplary embodiments by a person skilled in the art without thereby departing from the spirit and scope of the invention as set forth in the following claims. In particular, parts of different explicitly discussed exemplary embodiments can be combined into new, not explicitly discussed exemplary embodiments.

List of reference figures 1 piece of firework 2 assembly of several pieces of firework 10 block of interconnected launch tubes 10a flat side of block 12 launch tube, mortar 13 stopper, plug 14 wrap 20 connecting wick 20a, b, c winding end of connecting wick 22 free firing end of connecting wick 24, 24 'first (24) and second (24') thermal coupling element 26a, b loose loop end of thermal coupling element 30 configuration member (e.g. box or peripheral band) 32 peripheral wall of configuration member 40 shell 41 shell / container 42 powder charge 42a , b rise charge (a) and effect charge (b) 44 effects, eg stars 44 time fuse l longitudinal axis launch tube V parting order

Claims (10)

A piece of fireworks (1), in particular a so-called "cake", comprising: a plurality of launch tubes (12) connected to each other in a block (10), each launch tube containing a powder charge (42); • a connecting wick (20) which interconnects the powder charges (42) of the respective launch tubes (12), characterized in that • the connecting wick (20) is further connected to an outer side (10a) of the block (10) provided with a first thermal coupling element (24) which is adapted to generate sufficient heat on ignition to cause ignition of an adjacent thermal coupling element of another similar piece of fireworks. The firework piece according to claim 1, wherein the first thermal coupling element (24) is made from wick. The firework piece according to claim 2, wherein the first thermal coupling element (24) comprises at least two wick ends (20c, 26a, 26b) which extend in mutual contact with one another, and preferably substantially linearly. The firework piece according to any of claims 1-3, further comprising a second thermal coupling element (24 ') connected by the connecting wick (20) to the first thermal coupling element (24). The firework piece according to claim 4, wherein the connecting wick (20) extends from the first thermal coupling element (24), via the powder charges (42) into the respective launch tubes (12), into the second thermal coupling element (24 ') . The firework piece according to claim 5, wherein the connecting wick (20) extends between two free lighting ends (22). The firework piece according to any of claims 4-6, wherein at least a portion of the launch tubes (12) are mutually connected in parallel in the block (10), such that the block (10) comprises at least two substantially flat has outer sides (10a) extending parallel to a longitudinal axis (ΐ) of the mutually connected launch tubes (12) which extend at an angle with respect to each other, and wherein the first thermal coupling element (24) is provided on a first of said ten at least two outer sides (10a), and the second thermal coupling element (24) is provided on a second of said at least two outer sides (10a). A firework assembly (2), comprising: a plurality of firework pieces (1), each according to any of claims 1-7, wherein at least one of the firework pieces has a connecting wick (20) with a free firing end ( 22); • a configuration member (30) that keeps said fireworks pieces (1) in contact with each other in an operating configuration in which at least one thermal coupling element (24) of each firework piece (1) abuts against a thermal coupling element of another firework piece, such that all fireworks pieces can be activated by lighting the free firing end (22) of the connecting wick (20) of the at least one of the fireworks pieces. A fireworks assembly according to claim 8, wherein the fireworks pieces (1) are mutually coupled in series such that by lighting the free lighting end (22) of the connecting wick (20) of the at least one of the pieces fireworks are activated in series. A fireworks assembly according to claim 8 or 9, wherein the configuration member (30) comprises a preferably form-retaining peripheral wall (32) that surrounds said pieces of fireworks (1) and prevents their relative displacement and reorientation.