RU2239775C2 - Battery of flying fireworks products - Google Patents

Abstract

FIELD: fireworks products used for production of fireworks performances.

SUBSTANCE: the battery has a base in which guiding devices made in the form of tubes are fastened. Placed in the lower part of these tubes are ignition charges interconnected by a fuse through the holes in the side walls of the tubes. That part of the tubes, in which the ignition charges are installed, as well as the fuses connecting them are in the base cavity. The side walls of the base have ducts for discharge of the combustion products of the ignition charges from the base cavity. The design of the battery provides a high reliability of ignition of the engines of the flying products and start of the flying products with preset time intervals. The start of the flying toys is accompanied by an additional entertainment effect produced by luminous combustion products of the ignition charges and starting products.

EFFECT: enhanced entertaining effect.

2 cl, 3 dwg

Description

The invention relates to fireworks products designed to create spectacular mini-presentations. The invention can also be used as part of large fireworks shows during festive entertainment events.

Similar devices are known, for example, a rocket fan, or a peacock tail, described in the book: Trapenok V.A., Antonova L.A. From a small cracker to a large firework. St. Petersburg: Crystal, 1997, p.107-109.

A rocket fan, or peacock tail, consists of a semicircular wooden footboard (base), an upper arcuate board and two side boards connecting the footboard with an arcuate board (launcher). In the upper arcuate board are openings of such a size that rocket stabilizers freely pass through them. In the footboard on the semicircular side there are slots for stop stabilizers.

To engage rocket engines in the upper arcuate board, a groove is selected in which a fire-connection patch cord is laid along the entire length of the arc. The segments of the fire wire of each of the missiles are connected to the switching fire wire before launch.

The closest technical solution (prototype) is a “firework battery” (certificate for utility model RU 1900 U1, class F 41 V 5/00, 03.16.1996).

The firework battery consists of a housing (base) in which the housing of the fireworks products are fixed. Fireworks are connected by a fire-resistant cord. A fire-resistant cord through holes in the product body is introduced into the product in the form of a loop or pieces folded in pairs at their ends in contact with the igniter. Consistent operation of the products is ensured by connecting them with fire-resistant cords. The transfer of a fire pulse from the previous cord to the next occurs at the point of contact between them (overlapping cords near the opening of the sleeve).

The most significant drawback of the prototype is that when using modern flame-retardant cords having a protective outer braid, the reliability of ignition of the segments of the flame-retardant cord at their contact points (overlapping cords) is significantly reduced, since the braid makes it difficult to transmit a fire pulse along the side surface. In the case when a single fire-retardant cord is used, supplied to the charges of the products in the form of a loop, there remains the possibility of a breakdown of the combustion front (extinction) of the cords at the time of the shot of the product due to a sharp “pressure relief” and gas-dynamic effect of the combustion products ejected from the hole in the housing products with high speed and capable of extinguishing a fire-resistant cord.

Another disadvantage of the prototype is that when the products are triggered, the products of combustion of the charges of the products that work first, flowing out through the openings in the sleeves into the cavity of the common housing, can ignite both the flame retardant cord connecting the products and the charges of other products. This leads, as a rule, to the triggering of products in an arbitrary sequence and with arbitrary time intervals.

The objective of the invention is the creation of a battery of fireworks flying products (rockets, butterflies, larks, bees, etc.) with a compact placement of starting guiding devices on the base, ensuring reliable operation of the entire fire chain of the battery, as well as the sequential start of fireworks flying products at predetermined intervals time.

The solution to this problem is achieved by the fact that in the battery of fireworks flying products containing a base with launching guiding devices made in the form of tubes with igniter charges placed in them, which are connected in series by a fire-resistant cord through openings in the tubes. A cavity is made in the base of the battery, and holes in the tubes (starting guiding devices) are made in that part of them that is located in the base cavity.

In the lateral faces of the base of the battery can be made channels located coaxially with the holes of the tubes.

Starting guiding devices made in the form of tubes, in the lower part of which there are ignition charges, in addition to ensuring the directivity of the flight of flying toys at the starting section of the engines, they can solve the problem of reliable ignition of engine charges without introducing a flame-retardant cord into the engines of flying products. Starting the engines of flying products that are part of the battery, the products of combustion of igniter charges allows you to control the exposure time of high-temperature products of combustion on the charge of the engines. When engines are ignited by ignition charges, the exposure time of the fire pulse is determined by the time of combustion of these charges. This time can be controlled over a fairly wide range (from several milliseconds to several seconds) due to the characteristics of the pyrotechnic composition used, its compaction pressure and charge geometry.

The presence of igniter charges placed inside the tubes of the starting guiding devices allows the use of various fireworks flying products with engines of different designs equipped with compositions with different characteristics in one battery. This is achieved due to the fact that the combustion time of the ignition charges and their thermodynamic characteristics can be selected in such a way as to use ignition charges of the same design for various flying toys. This makes it possible to significantly simplify battery assembly technology and use standardized parts and assembly units.

Reliability of ignition of igniter charges from a flame-retardant cord is ensured due to the fact that inside the starting guiding devices the flame-retardant cord can come into contact with igniter charges over a longer length than in the product body. This allows you to ensure the exposure time of the combustion products on the igniter charge up to several seconds.

The placement of flame-resistant cords and ignition charges in the launcher cavity eliminates the direct effect of precipitation and engine combustion products on the flame-resistant cords, as well as improves the appearance of the battery, as all ignition charge switching elements turn out to be closed walls of the base.

The channels in the lateral faces of the battery base, located coaxially with the tube openings through which the flame-conducting cords are connected to the ignition charges, are designed to divert from the base cavity that part of the combustion products of the ignition charges and engines of the starting products that flow through the tube openings. This eliminates the ignition of fire-resistant cords and ignition charges in an arbitrary sequence, as well as ignition of the base of the launcher. In addition, the presence of channels in the lateral faces of the base allows you to improve the visual appeal of the launch of flying products by simulating the launch of real rockets, in which the engine combustion products at launch are also diverted from the structural elements of the launcher using special devices.

The battery of fireworks flying products (for example, rockets) (drawing) consists of a base 1, in which starting guiding devices are fixed 2. Channels 3 are made in the side walls of the base.

The starting guide devices 2 consist of cylindrical tubes 4, in the lower part of which igniter charges 5 are fixed, and on the upper part flying products 6. In the lower part of the tubes 4 there are holes 7 for inserting a flame-resistant cord 8 connecting the ignition charges 5. Free ends 9 of the flame-conducting cord 8 brought out.

The battery works as follows. The battery is activated by igniting one or both of the free ends of the fire cord. From a fire-resistant cord, sequential ignition of igniter charges occurs. The products of combustion of igniter charges, flowing through the tubes, ignite the charges of the engines of flying products. Part of the combustion products flowing through openings and channels is discharged from the base cavity, creating a beautiful spectacular effect that simulates the launch of large-sized missiles.

Tests have confirmed the high reliability of ignition of ignition charges from a fire wire and ignition of the charges of the engines of flying products at specified intervals. A variety of flying equipment, the operation of this equipment at different altitude levels, as well as the luminous torches of the combustion products of ignition charges and starting products create a beautiful spectacular firework effect.

Claims (2)

1. A battery of fireworks flying products, containing a base with trigger guides in the form of tubes with igniter charges placed in them, connected in series by a fire-resistant cord through openings in the tubes, characterized in that the fireworks flying products are located on the tubes, the cavity is made in the base, and the holes in the tubes are made in that part of them, which is located in the cavity of the base. 2. The battery according to claim 1, characterized in that in the side faces of the base there are channels arranged coaxially with the holes of the tubes.