DE102011053056A1 - Pyrotechnic article e.g. firework rocket installed in rocket launcher, has guide element which is provided for stabilizing trajectory of the pyrotechnic article such that the length of the guide element is varied - Google Patents

Abstract

The pyrotechnic article (10,10-1) has a main portion (30) which is provided with a propellant charge portion (31). A guide element (20) is provided for stabilizing a trajectory of the pyrotechnic article such that the length (L) of the guide element is varied.

Description

The invention relates to a pyrotechnic article according to the preamble of claim 1 having a body which has at least one propellant charge, and having a guide element for stabilizing a trajectory of the pyrotechnic article. The pyrotechnic article may be or contain a firework rocket.

Fireworks are pyrotechnic articles, usually provided with a propellant charge and an effect charge in a body. In this case, the propellant charge to solid chemical substances that convert after ignition in part in at least one gaseous substance, which is referred to below as propellant gas. The propellant gas is expelled from the fireworks rocket. As a result, the firework rocket moves on the principle of recoil in the direction opposite to the ejection direction. Due to the effect charge a flame color is achieved. To stabilize the trajectory of the fireworks rocket, d. H. To prevent the firework rocket from turning in the air (looping is meant), the fireworks rocket has a guide bar as a guiding element. The guide rod is made of solid wood and glued to the side of the body. The Leitstab is usually 70 to 90 cm long.

Pyrotechnic articles, in particular fireworks rockets, are considered as flammable goods. For their transport, therefore, special legal requirements must be met. This is associated with increased costs, which are, in particular when transported in containers, often not with the transported number of pyrotechnic articles, but with the number of containers used and thus with the total volume of the transported pyrotechnic articles in relation. However, since the Leitstab a fireworks rocket, which is not considered by itself as a flammable goods, claimed a lot of space, only a relatively few fireworks rockets can be accommodated in a container, resulting in high transport costs.

Due to the guide bar, a firework rocket can not be placed directly on the ground and ignited. Rather, this requires a launcher, which usually remains on the ground. Firework rockets can be prefabricated and sold with launcher. In particular, several fireworks rockets in so-called fireworks batteries, in which the launchers are interconnected, can be arranged and prefabricated and sold as a whole. Due to the long Leitstabes the launcher, in particular the fireworks batteries must be designed to be long enough to allow the firework rocket a stable grip, which also causes high transport costs.

It is an object of the present invention to provide a pyrotechnic article that allows a cost and / or easy transport.

To solve the problem, a pyrotechnic article with the features of claim 1, in particular from the characterizing part proposed. Advantageous developments of the pyrotechnic article are given in the dependent claims. The features mentioned in the claims and in the description may each be essential to the invention individually or in combination.

According to the invention, it is provided that the length of the pyrotechnic article, in particular of the guide element, is variable. Characterized in that the length of the pyrotechnic article is designed changeable, the pyrotechnic article may be shortened during transport in length, so that the pyrotechnic article occupies a small cargo volume. As a result, the transport costs can be reduced. On the other hand, before flying the pyrotechnic article, the pyrotechnic article may be extended to allow a stable trajectory. Advantageously, the guide element may be responsible for the variable length. The length of the pyrotechnic article according to the invention is variable when the guide element is already mounted on the body. In the case of the pyrotechnic article, the guide element and the body are always connected independently of the actual length to a pyrotechnic unit, in particular a firework rocket.

Due to the variable length of the pyrotechnic article can take a shortened state (transport state) and a prolonged state (state of use). In the shortened state, the length of the pyrotechnic article is shortened as far as possible or meaningful. In the extended state, the length of the pyrotechnic article is prolonged as much as possible. The length of the pyrotechnic article may thus vary between the length the pyrotechnic article takes in the shortened state and the length the pyrotechnic article occupies in the extended state. The pyrotechnic article may be configured so that the pyrotechnic article can be reversibly moved from the shortened to the extended state and back.

The pyrotechnic article may be or contain at least one firework rocket. The pyrotechnic article is adapted to cause the body to fly away with the guide element by igniting a propellant charge while the guide element stabilizes the trajectory. The pyrotechnic article may contain at least one effect charge which causes fireworks or bangs during flight. The propellant charge and the effect charge are arranged in a body of the pyrotechnic article. In particular, the pyrotechnic article may be a firework rocket with or without a launcher. The body may contain a cylindrical section. Cylindrical does not mean that the base surfaces of the cylinder must be closed. The propellant and possibly the effect charge can be arranged in the cylindrical portion. In an alternative, the effect charge z. B. in a spherical portion of the body. In particular, the pyrotechnic article is a pyrotechnic article that is used during a party or event, eg. B. New Year's Eve, is ignited, and not a rocket, a signal, z. B. an emergency signal, sends out. The pyrotechnic article is designed in particular parachute.

The length of the pyrotechnic article can be changed, for example, in that a guide element, which may be unchangeable in length, can be pushed into and out of the body. Alternatively or additionally, the guide element, in particular a zoll-like, can be folded out.

Preferably, however, the pyrotechnic article is designed at least partially expandable. In order to be able to be pulled apart, it can be provided that the pyrotechnic article has at least two components which are longitudinally displaceable relative to one another. In this case, the guide element can be involved or can be pulled apart independently. Thus, the first component may be the guide element or a part of the guide element. In particular, the first component may be a tube of the guide element. The second component may be a further part of the guide element and / or at least a part of the body. In particular, the second component may be a tube of the guide element and / or at least a part of the cylindrical portion of the body. The second component may also comprise the entire cylindrical portion or the entire body. The first and the second component may preferably correspond in each case approximately one half of the pyrotechnic article in the extended state. The pyrotechnic article can also be a variety, for. B. three or four, have components.

Preferably, the at least two components are inserted into one another. The pyrotechnic article, in particular the guide element, can in this case be telescopically extendable or insertable. In this case, in the shortened state, the first component can cover the second component. Alternatively, in the shortened state, the second component may cover the first component.

In the case of the invention, it can further be provided that the longitudinally displaceable components are guided relative to one another by means of a mechanical guide. As a result, the translational movement direction of the components is predetermined to each other. In particular, a game between the longitudinally displaceable components can be largely reduced or prevented by the guide. The guide can be achieved by a positive connection between the two components. When guiding it can be z. B. may be a groove of a component which cooperates with a cam of the other component. Preferably, the guide is formed by at least one of the longitudinally displaceable components having a projection which is aligned with another component. Here, the projection may rest against the other component to prevent a game. It may be that two components each have a projection which is aligned with the respective other component and in particular rest against the respective other component. The projection may completely or only partially cover the circumference of the device. The projection may rest flat against the other component in order to improve the guidance and / or to increase the static friction.

The components, in particular by the guide, can be arranged to each other so that the components remain in their respective position to each other, including holding means are provided. Here, the components can be arranged positively and / or non-positively against each other. In particular, the components can rest against one another in such a form-fitting and / or force-locking manner by the holding means that the pyrotechnic article remains in a desired length. The desired length may be the shortened and / or extended state. Preferably, the pyrotechnic article remains against the gravity of the body at least in the extended state to allow ignition in the extended state. To persist, the projection of one component may pinch the other component, so that the projection also serves as a holding means.

It can be provided that a stop is present between the components. The stop prevents the components from growing can solve each other when the pyrotechnic article is pulled apart. This prevents the pyrotechnic article from falling apart. The location of the stop determines the length of the pyrotechnic article in the extended state. The stop may have two stop elements, which lie positively against each other in the extended state of the pyrotechnic article. The two stop elements can, for example, interlock with each other. The stop may be provided at one end of the guide. The stop may be formed by a closed end of the groove as a first stop member against which abuts the cam as a second stop member. The stop may alternatively also be formed in that the projection formed as a guide of a component as a first stop element strikes a projection of a further component as a second stop element. In addition, a further stop may be provided which determines the length of the pyrotechnic article in the shortened state.

If more than two components are provided, the preceding embodiments with regard to the guide, the stop and / or the retention in the desired state can be applied in each case to adjacent components.

In the context of the invention, it is conceivable that the guide element has a hollow body as the first component, which covers the second component in the shortened state. This makes use of the fact that the guide element has no pyrotechnic substances and can be made hollow, so that z. B. is a part of the body in the guide element is receivable. So the guide z. B. at least a first tube having a diameter so large that the first tube as the first component in the shortened state conceals the second component. The diameter of the first tube may, for. B. be larger than the diameter of the cylindrical portion of the body. If the hollow body, in particular the first tube, forms an end of the guide element facing away from the direction of flight, as a side effect the pyrotechnic article can gain a footprint through the hollow body, which is substantially enlarged in comparison to the guide rod according to the prior art. As a result, an additional launcher can be omitted. The pyrotechnic article can be placed directly with the hollow body, in particular the first tube, on a substrate and fired from there. For this purpose, the hollow body, in particular the first tube, form a large footprint. A tilting edge is displaced outwards. In particular, for a radius r _{R of} the first tube forming the footprint, compared to a radius r _{K of} the cylindrical portion of the body: 1.5 r _K ≤ r _R ≤ 2.0 r _K.

The guide element can, contrary to the direction of flight, adjoin the body, in particular directly and / or straight. On the one hand, it may be that the guide element has only one tube. The guide element preferably has at least two concentric tubes with different diameters. Here, the tube with the smallest diameter can connect to the body. The tube with the largest diameter can form the end of the guide element facing away from the direction of flight and possibly the base. Each tube may correspond to a component or be part of a component.

If the guide element has more than one tube, then a tube of the guide element adjoining the body can be of uniform material and monolithic with a part of the body, wherein the guide element is in particular monolithic with an outer shell of the cylindrical section of the body. This prevents that the guide element can be detached from the body. In particular, the tube adjoining the body may have the same diameter as the outer shell of the body.

It is conceivable that the guide element is arranged on the body so that the propellant gas which is formed when igniting the propellant charge, escapes through the guide element. In this case, an end of the guide element facing away from the direction of flight is open, in particular completely open, configured. A nozzle, which is arranged at an opposite end of the body of the flight direction and through which the propellant escapes from the body, may end in the guide element. This arrangement can be provided to accommodate a part of the body with the nozzle in the shortened state in the first component can. Alternatively, the guide element can be arranged laterally of the nozzle and telescopically extendable.

The guide element may comprise flying means. The means of transport may serve to improve the flight characteristics, in particular the stabilization of the trajectory.

If the nozzle opens in the guide element, then an end of the guide element facing the body can have first flying means. The first means of transport may be air openings. As a result, air is introduced into the guide element, which escapes again at the end of the guide element. The air openings can in particular be remote from the direction of the end of the body and / or the nozzle has a distance d with 0 mm ≤ d ≤ 10 mm.

The body facing away from the end of the guide element may have second aircraft. The second means of flight serve to stabilize the trajectory of the pyrotechnic article. The second means of transport may, for. B. air openings or tail fins.

It has been found experimentally that a guide element, through which the propellant gas can escape and the air openings at the end facing the body, can be made shorter than a guide rod according to the prior art, so that also space and / or weight during transport is saved and a cost-effective transport of the pyrotechnic article can be performed. In support, the guide element according to the invention can have a greater weight per comparable length of the guide element. This is the case in particular if the guide element has a tube with a large diameter. It may be that the length L _{L of} the guide element has the following relation to the length L _{K of} the body:
0.5 L _K ≤ L _L ≤ 0.75 L _K , preferably 0.6 L _K ≤ L _L ≤ 0.67 L _K.

The first and / or second flying means are preferably distributed uniformly around the circumference of the guide element. The first and / or second flying means are in particular at the same height in the direction of flight of the pyrotechnic article. As a result, the most straight trajectory can be achieved.

A fuse for igniting the propellant may be provided in the pyrotechnic article. The fuse can be ignited externally by the user. For this purpose, the user requires in particular a not belonging to the pyrotechnic article Lighter, z. For example, an inflamed match or a flamed lighter. In particular, the pyrotechnic article is free of an ignition set that can be ignited only by mechanical actuation of the user and that is arranged in the pyrotechnic article. The fuse can be led out laterally, in particular from a designed as air openings aircraft. Alternatively, the fuse may be led out of the body remote from the end of the guide element. If the distance between the nozzle and the air opening from which the detonating cord is guided changes during extraction, then sufficient detonating cord has to be provided in order to bridge the increasing distance. Preferably, the fuse is therefore led out of the first air means designed as air openings, wherein the first flying means and the nozzle are arranged in a component.

The fuse can from the outside, d. H. be guided from an environment of the pyrotechnic article to the propellant charge. The fuse ends in this case in the propellant charge. Alternatively, in addition to the fuse an ignition element may be provided, which allows ignition of the propellant charge from the outside together with the fuse. Here, the ignition element connect to the propellant charge and the fuse make the connection to the outside. The ignition element may be made of wood or fibers, for example. The ignition element may also be a cotton thread provided with black powder or a safety fuse. The ignition element can be arranged in the nozzle and / or end in the propellant charge. The ignition element can supply the ignition or the ignition spark to the propellant charge. Here, the ignition element can touch the fuse or end without contact in the immediate vicinity of the fuse. The ignition element may divide, fanned, split or split in the direction of the fuse. By adding an ignition element, a simpler manufacture of the pyrotechnic article can be achieved.

Optionally, in the invention, the guide element and the body can be designed together rotationally symmetrical. Alternatively or additionally, the center of gravity of the body lies on the longitudinal axis of the guide element. It may also be that the longitudinal axis of the guide element is substantially identical to the longitudinal axis of the cylindrical portion of the body. The longitudinal axis of the nozzle may lie on the longitudinal axis of the guide element. As a result, the reception of the second component in the first component can be further simplified. As a positive side effect, a trajectory as straight as possible is achieved.

An outer shell of the body and / or the guide element can be made of cardboard or plastic. For reasons of environmental protection and plastic, cardboard offers a higher refractory or weather resistance.

The pyrotechnic article may have a particularly stable launcher. The launching device preferably remains on the ground when the body starts to fly with the guide element after the ignition. Before the ignition of the propellant charge, it is provided to place the launching device on the ground, wherein the launching device holds the guide element in a form-fitting manner. The launcher may already be connected to the baffle when a user buys the pyrotechnic article. Alternatively, the launching device and the guide element can be separated from each other and only before Ignition be composed by the user.

It may be sufficient that the launcher engages from below into the hollow, downwardly open guide element. So the launcher z. B. be a rod or a piece of wire. Additionally or alternatively, the launching device can at least partially enclose the guide element in the longitudinal direction. In this case, the launcher remains preferably open in the direction of flight. Outside the body and the guide element thereby a build-up of pressure within the launcher is avoided. The fuse may end over the launcher. It can also be provided that the launcher overshoots the entire guide element and a part of the body or the whole body in the longitudinal direction. If the launching device covers an opening, in particular a flying means designed as an air opening, from which the fuse is led out, a side wall or the bottom of the launching device can likewise have an opening from which the fuse is led. The opening in the side wall may be slit-like to allow movement of the fuse during prolongation of the pyrotechnic article. The launcher itself is preferably free of pyrotechnic substances, d. H. In particular, the launcher does not contain any ignition charge remaining on the ground which can be ignited by an exclusively mechanical actuation of the user.

The invention further relates to a fireworks battery-like, pyrotechnic article. In this case, the pyrotechnic article has a plurality of pyrotechnic units, in particular firework rockets, each comprising a guide element and a body whose length can be changed according to the invention. One pyrotechnic unit each is located in a launcher prior to ignition. The launcher are, in particular cohesively, interconnected. The launcher devices can form a battery device with one another as a coherent, in particular monolithic, component. The pyrotechnic units are connected to each other by at least one fuse, that all pyrotechnic units can be ignited in only one ignition. In particular, the fuse may be divided into a plurality of fuse pieces, each leading from a propellant charge to another, in particular adjacent propellant charge or from one ignition element to another, in particular adjacent, ignition. The fuse pieces may be disposed in each of a sidewall, a floor, or over an upper end of the launchers.

If the user wants to ignite the pyrotechnic article, then it can be provided that the user first transfers the pyrotechnic article into the extended state, in particular pulls the pyrotechnic article apart. The pyrotechnic article remains in the extended state due to a force and / or positive connection, which can be generated by holding means. Thereafter, the user places the pyrotechnic article, which may be equipped with or without launcher, on a surface. Then the user can ignite the protechnical object. Alternatively it can be provided that the pyrotechnic article pulls apart by the propellant gas after ignition by itself. In this case, eliminates the first step of pulling apart and / or it is dispensed with a clamping.

Further, measures improving the invention will become apparent from the following description of the embodiments of the invention, which are shown schematically in the figures. All of the claims, the description or the drawing resulting features and / or advantages, including design details, spatial arrangement and method steps may be essential to the invention both in itself and in various combinations. Show it:

1 2 is a partial sectional view of a first embodiment of a pyrotechnic article according to the invention in an extended state,

2 the pyrotechnic article 1 in a shortened state,

3a Section through a section A from 1 .

3b Section through the cutout A from 2 for a second embodiment of the pyrotechnic article according to the invention,

4 a partially sectioned view of a third embodiment of a fireworks battery-like, inventive pyrotechnic article and

5 a sectional view of a fourth embodiment of a pyrotechnic article according to the invention

Technical features with the same function and mode of action are in the 1 to 5 provided with the same reference numerals.

In 1 is a pyrotechnic article according to the invention 10 pictured as a firework rocket 10.1 is trained. The pyrotechnic article 10 has a body 30 and a guiding element 20 on, being the body 30 in a longitudinal section and the guide element 20 is shown in an uncut side view.

The body 30 is in a cylindrical section 36 and in a bit 35 divided. The section 36 contains pyrotechnic substances, namely a propellant 31 and an effect charge 32 , The propellant charge 31 has solid chemical substances which, after ignition, partially convert to propellant, which is the body 30 leaves. For this purpose, the section 36 of the body 30 a nozzle 34 on, through which the propellant gas can escape. The nozzle 34 is in a stopper 33 made of clay or loam. A fuse 11 passes through the nozzle 34 to the propellant 31 , Will the fuse 11 ignited by a user, then ignited the propellant charge 31 , In that the propellant gas in the direction of the arrow 14 flows, moves the pyrotechnic article 10 on the principle of recoil in an opposite direction of flight 15 that corresponds to the longitudinal direction of the pyrotechnic article. Time offset to the propellant charge 31 the effect charge ignites 32 and causes fireworks and / or bangs. The stopper 33 with the nozzle 34 , the propellant charge 31 and partly the effect charge 32 are in an inner, in particular refractory sheath 37 of the section 36 arranged. The section 36 has an outer, tubular shell 38 on, which is the inner shell 37 and the rest of the effect charge 32 surrounds.

Around the trajectory of the pyrotechnic article 10 in the intended direction of flight 15 to stabilize, has the pyrotechnic article 10 a guiding element 20 on that is attached to the body 30 against the direction of flight 15 followed. The guiding element 20 has an end facing the direction of flight 20'' on. The guiding element 20 is from a first tube 21 and a second tube 22 , which are concentric with each other, constructed. The first tube 21 forms one of the flight direction 15 opposite end 20' of the guide element 20 while the second tube 22 to the body 30 followed. The second tube 22 of the guide element 20 is in the present embodiment of the same material and monolithic with the outer shell 38 of the body 30 , That is, the second tube 22 and the outer shell 38 form a common component made of cardboard. The second tube 22 and the outer shell 38 have the same diameter. Also the first tube 21 is made of cardboard. The body 30 and the guide element 20 lie on a common longitudinal axis 50 and together are rotationally symmetric.

Thus the pyrotechnic article 10 in the length L is variable, assigns the first tube 21 such a large diameter that the first tube 21 over the second tube 22 and partly over the cylindrical section 36 of the body 30 push. Thus, the first tube is used 21 as a first component 12 , The second tube 22 and a part 36' of the section 36 together serve as a second component 13 , In 1 is the pyrotechnic article 10 shown in an extended state II (state of use). That is, the first component 12 and the second component 13 as far as possible apart. This results in the longest length L of the pyrotechnic article 10 , In the extended state II are the first and the second component 12 . 13 at a stop 18 in the 3a and 3b is shown on.

In 2 is like in 1 the body 30 - As far as visible - in a longitudinal section and the guide element 20 shown in an uncut side view. In 2 is the pyrotechnic article 10 of the 1 in a shortened state I (transport state) shown. That is, the first component 12 and the second component 13 as far as reasonably intertwined. The second component 13 is from the first component 12 covered. This results in the shortest length L of the pyrotechnic article 10 , In the shortened state I is one of the direction of flight 15 opposite end 22' of the second component 13 and one of the flight direction 15 opposite end 21' of the first component 12 on the same level, that is, equidistant from the top 35 away. A stop for taking the shortened state I is not provided. However, further insertion would be the length L of the pyrotechnic article 10 do not shorten.

During a transport from a production site of the pyrotechnic article 10 to the user is the pyrotechnic article 10 in the shortened state I (transport state). This takes the pyrotechnic article 10 less space than in the extended state II, so that per volume unit more pyrotechnic articles 10 can be transported. This reduces the transport costs. Before ignition, the user can use the pyrotechnic article 10 in a simple way telescopically pull apart and thus transferred to the extended state II. In the extended state II fulfilled the guide element 20 its function and ensures a stable trajectory.

The nozzle 34 flows into the guide element 20 so that the propellant gas is ignited by the ignition of the propellant charge 31 arises, the guiding element 20 in the direction of the arrow 14 crosses. The guiding element 20 has first air openings 23 as the first means of transport and second air openings 24 as second aircraft on. The first and second air openings 23 . 24 serve to improve the flight characteristics. The first and the second air openings 23 . 24 are each uniform around the circumference of the guide element 20 distributed. The first air openings 23 are at a uniform height of the pyrotechnic article 10 , The second air openings 24 are also at a uniform height of the pyrotechnic article 10 ,

Through the first air openings 23 air flows according to the arrow 16 in the guide element 20 , Through the second air openings 24 Air and propellant gas flows out of the guide element 20 according to the arrow 17 , This stabilizes the trajectory. In addition, the air and the propellant gas flows from the open, the direction of flight 15 opposite end 20' of the guide element 20 , The fuse 11 gets out of one of the first air openings 23 from the guide element 20 led out, leaving a user the fuse 11 can ignite.

The pyrotechnic article 10 in the 1 and 2 is shown, has no additional launching device. Rather, the diameter of the first tube 21 so big that the pyrotechnic article 10 , here the firework rocket, with the first tube 21 on a surface 19 stable erectable and flammable in this position. The direction of flight 15 opposite end 21' the first tube 21 This forms a footprint.

In the 3a and 3b Two different embodiments are shown, such as the first and the second tube 21 . 22 from the 1 and 2 , in particular telescopically, can be guided to each other by means of a mechanical guide. This is in the 3a and 3b in each case a longitudinal section through the in the 1 shown section A shown. In the 3a and 3b is the pyrotechnic article 10 in the extended state II.

The direction of flight 15 facing the end 21'' the first tube 21 is bent over the entire circumference inwardly or beaded and thus forms a first projection 25 ,

The first advantage 25 has an area 26 on, with the first tube 21 at the second tube 22 is applied. The area 26 thus forms a guide, through which a translational movement of the second tube 22 relative to the first tube 21 only in and against the direction of flight 15 is possible. At the same time lies the area 26 so close to the second tube 22 that the area 26 the second tube 22 clamps. This leaves the first and second tubes 21 . 22 relative to each other so that the pyrotechnic article 10 remains in its respective state I, II. In particular, the pyrotechnic article remains 10 in the extended state against the force of gravity on the body 30 acts when the pyrotechnic article 10 for ignition on the ground 19 is set up. The second tube 22 indicates one of the direction of flight 15 opposite end 22' a second projection 27 on. The second projection 27 is formed as an edge and to the first tube 21 directed. Is the pyrotechnic article 10 in the extended state II, so is the second projection 27 at the first projection 25 on and prevents the first tube 21 from the second tube 22 can be separated. Thus, the two projections serve 25 . 27 as a first and second stop element for a stop 18 , The fuse 11 is so thin that by a meeting of the fuse 11 and the lead 25 the pulling apart is not hindered. Alternatively, the projection 25 a recess for the fuse on.

3b differs from 3a only by the configuration of the second projection 27 who in 3b as a second lead 27' referred to as. The second projection 27' has an area 28 on, on the first tube 21 is present and thus also serves as a guide.

In 4 is another embodiment of a pyrotechnic article according to the invention 10' represented, which is designed fireworks batteriemäßig. The pyrotechnic article 10' exemplifies two identical fireworks rockets 10.1 on. This is the left firework rocket 10.1 in the 4 in a plan view and the right firework rocket 10.1 in the 4 shown in a longitudinal section. The pyrotechnic article 10' has two launchers 41 . 42 which are monolithically connected and a common battery device 40 form. The battery device 40 is also shown in a longitudinal section. The launchers 41 . 42 enclose a large part of the guiding elements 20 ,

The following is intended only to the differences from the embodiment in the 1 . 2 and 3a shown will be received.

The guiding element 20 of the 4 has only a first tube 21 on. The second tube 22 eliminated. The first and second air openings 23 . 24 are each in the first tube 21 arranged. The first tube 21 takes in the shortened state I of the pyrotechnic article 10' who in 4 is shown, the part 36' of the cylindrical portion 36 of the body 30 in itself. This serves the first tube 21 as the first component 12 and the part 36' of the section 36 as a second component 13 , To get to the extended state II, the body becomes 30 in the direction of flight 15 relative to the first tube 21 postponed. To the first tube 21 closes in the extended state II of the body 30 at. Here are the first advantage 25 and a lead 39 of the body 30 as stop elements. The lead 25 is not on the body 30 at.

Because of the fireworks 10.1 can take a shortened state, also the launchers 41 . 42 shortened side walls 46 exhibit. This will increase the volume and weight of the pyrotechnic article 10' reduced. This reduces the transport costs.

The fuse 11 is divided into two fuse pieces. A fuse piece 11.1 is led outwards accessible to the user. The other fuse piece 11.2 gets out of the nozzle 34 and the open end 21' the first tube 21 the right firework rocket 10.1 led out. The fuse piece 11.2 passes through a first opening 45.1 in a soil 43 the battery device 40 and gets under the ground 40 through a second opening 45.2 to the left firework rocket 10.1 guided. As a result, both fireworks rockets can be ignited in only one ignition. The fuse 11 is through a fixation layer 44 below the ground 43 fixed.

The firework rocket 10.1 of the 4 is not pulled out manually before the ignition, but is pulled apart by the recoil caused by the propellant gas and transferred to the extended state II. That is, the extended state II is created only after ignition without manual intervention.

5 shows a section through a fourth embodiment of a pyrotechnic article according to the invention 10'' in the shortened state I, wherein in the following only the differences from the first embodiment of 1 be explained.

The pyrotechnic article 10'' is one in a launcher 41 arranged firework rocket 10.1 , The launcher 41 includes the first tube 21 the firework rocket 10.1 ,

The pyrotechnic article 10'' has no tip 35 on, leaving the body 30 the cylindrical section 36 equivalent. An ignition element 51 ends in the propellant charge 31 , A fuse 11 ends in the immediate vicinity of the ignition element 51 so that spark off the fuse 11 on the ignition element 51 can go over. The fuse 11 is through one of the first air openings 23 guided, but in the shortened state I is not accessible from the outside. Only when a user releases the pyrotechnic article 10'' transferred to the extended state II, the fuse is 11 accessible to the user. The fuse 11 ends when the pyrotechnic article 10'' takes the extended state II, over a side wall 46 the launcher 41 ,

LIST OF REFERENCE NUMBERS

10

 pyrotechnic article

10'

 pyrotechnic article

10''

 pyrotechnic article

10.1

 Fireworks rocket

11

 fuse

11.1

 Zündschnurstück

11.2

 Zündschnurstück

12

 first component

13

 second component

14

 arrow

15

 flight direction

16

 Air flow direction

17

 Air flow direction

18

 attack

19

 underground

20

vane

20'

End of 20

20''

End of 20

21

first tube of 20

21'

End of 21

21''

End of 21

22

second tube of 20

22'

End of 22

23

 first air openings

24

 second air openings

25

 first advantage

26

area of 25

27

second lead

27'

 second lead

28

area of 27'

30

 body

31

 propellant

32

 effect charge

33

 Graft

34

 jet

35

 top

36

Section of 30

36'

part of 36

37

 inner shell

38

 outer shell

39

Advantage of 30

40

 battery device

41

 launcher

42

 launcher

43

Ground of 40

44

 fixing layer

45.1

Opening in 43

45.2

Opening in 43

46

 Side wall

50

longitudinal axis

51

 igniter

L

 length

I

 shortened condition

II

 extended condition

Claims (15)

Pyrotechnic article ( 10 . 10' . 10'' ), in particular a firework rocket ( 10.1 ), with a body ( 30 ) containing at least one propellant charge ( 31 ), and with a guide element ( 20 ) for stabilizing a trajectory of the pyrotechnic article ( 10 . 10' . 10'' ), characterized in that the length (L) of the pyrotechnic article ( 10 . 10' . 10'' ), in particular the guide element ( 20 ), is changeable. Pyrotechnic article ( 10 . 10' . 10'' ) according to claim 1, characterized in that the pyrotechnic article ( 10 . 10' . 10'' ) at least a first and a second component ( 12 . 13 ), which are longitudinally displaceable relative to one another, in particular insertable into one another, wherein in particular the first component ( 12 ) a tube of the guide element ( 21 ) and / or the second component ( 13 ) a part ( 36' ) of a cylindrical section ( 36 ) of the body ( 30 ) and / or another tube ( 22 ) of the guide element ( 20 ). Pyrotechnic article ( 10 . 10' . 10'' ) according to claim 1 or 2, characterized in that the mutually longitudinally displaceable components ( 12 . 13 ) of the pyrotechnic article are guided to each other by means of a guide. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that at least one of the components ( 12 . 13 ) as a guide one to the other component ( 12 . 13 ) oriented projection ( 25 . 27 . 27' . 39 ), wherein in particular the projection ( 25 . 27' ) on the other component ( 12 . 13 ) is present. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that a stop ( 18 ) between the components ( 12 . 13 ) is provided to a divergence of the first and the second component ( 12 . 13 ), in particular the attack ( 18 ) is formed in that two in each case to the other component ( 12 . 13 ) aligned projections ( 25 . 27 . 27' . 39 ) abut each other. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the pyrotechnic article ( 10 . 10' . 10'' ) in particular by means of holding means by a form and / or adhesion in an extended state (II) persists, in particular a projection ( 25 ) of a component ( 12 ) the other component ( 13 ) is stuck. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the guide element ( 20 ) so on the body ( 30 ) is arranged such that a propellant gas which, upon ignition of the propellant charge ( 31 ) is created by the guiding element ( 20 ) escapes. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the guide element ( 20 ) and the body ( 30 ) are rotationally symmetric together. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the guide element ( 20 ) at least one tube ( 21 ) having such a large diameter that the tube ( 21 ) in a shortened state (I) of the pyrotechnic article ( 10 . 10' . 10'' ) the second component ( 13 ), in particular the part ( 36' ) of the section ( 36 ) of the body ( 30 ) and / or another tube ( 22 ) of the guide element ( 20 ), obscured. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the guide element ( 20 ) at least two concentric tubes ( 21 . 22 ) having different diameters, wherein in particular the tube ( 22 ) with the smallest diameter attached to the body ( 30 ) and the tube ( 21 ) with the largest diameter of a flight direction ( 15 ) opposite end ( 20' ) of the guide element ( 20 ). Pyrotechnic article ( 10 . 10' . 10'' ) according to any one of the preceding claims, characterized in that one is attached to the body ( 30 ) subsequent tube ( 22 ) of the guide element ( 20 ) uniform in material and monolithic in the body ( 30 ), wherein the guide element in particular monolithic with an outer shell ( 38 ) of the cylindrical portion ( 36 ) of the body ( 30 ). Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the guide element ( 20 ) Means of transport ( 23 . 24 ), in particular air openings, which in particular uniformly around the circumference of the guide element ( 20 ) are distributed and / or up same height in the direction of flight ( 15 ) of the pyrotechnic article ( 10 . 10' ) are located. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the body ( 30 ) facing end ( 20'' ) of the guide element ( 20 ) first means of transport ( 23 ) and / or the body ( 30 ) opposite end ( 20' ) of the guide element ( 20 ) second means of transport ( 24 ) having. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the pyrotechnic article ( 10 . 10' . 10'' ) a launcher ( 41 . 42 in particular the launcher ( 41 . 42 ) the guiding element ( 20 ) holds positively. Pyrotechnic article ( 10 . 10' . 10'' ) according to one of the preceding claims, characterized in that the launcher ( 41 . 42 ) in the guide element ( 20 ) engages from below and / or that the launcher ( 41 . 42 ) the guiding element ( 20 ) at least partially encloses.

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