EP3753917A1 - Film effect igniter and method for producing the same - Google Patents

Abstract

The invention relates to a film effect igniter (1) with an electrical connection line (6); a filament (4) which is connected to the electrical connection line; and an ignition substance charge (3) with which an active charge is formed which can be ignited by means of the glow wire (4); wherein the ignition material charge (3) is formed with an ignition material which is free of heavy metals and contains silver azide. A method for producing a film effect igniter is also provided.

Description

The invention relates to a film effect fuse and a method for producing a film effect fuse.

background

Such film effect detonators are used in connection with film, television or theater recordings in order to depict projectile impacts in a scenic manner or to pyrotechnically drive mechanical special effects equipment. For example, a film effect detonator is in the document DE 101 64 381 B4 disclosed. The known film effect detonator is characterized by an initial explosive, which is a non-toxic metal salt of mono- and / or hydroxyazobenzene. Furthermore, the known film-effect detonator has a passivator and the tetrazole compounds of highly nitrated, aromatic compounds and a non-toxic metal salt of dinitrobenzofuroxane.

Summary

The object of the invention is to provide a film-effect detonator and a method for production with which the provision of a low-pollutant film-effect detonator which has the necessary explosive power is made possible in a simple and efficient manner.

A film effect igniter according to independent claim 1 and a method for producing a film effect igniter according to independent claim 9 are provided for the solution. Refinements are the subject of the dependent subclaims.

According to one aspect, a film effect igniter is created which has an electrical connection line and a filament which is connected to the electrical connection line. Furthermore, the film-effect igniter has an ignition substance charge, with which an active charge is formed which can be ignited by means of the glow wire. The ignition material charge is formed with an ignition material that is free of heavy metals and contains silver azide.

According to a further aspect, a method for producing a film effect igniter is provided in which an electrical connection line is provided and connected to a glow wire. Furthermore, the loading is provided with an ignition substance charge, with which an active charge is formed which can be ignited by means of the glow wire. The explosive charge is formed with an igniter that is heavy metal free and contains silver azide.

With the aid of the use of silver azide for the primer of the primer charge, a heavy-metal-free formation of the film-effect primer is made possible, the primer configured in this way providing a sufficient explosive effect. Less visible plumes appear. A faster, shorter detonation flash was observed, which enables a "better picture" for film and television recordings (more realistic visual representation of the bullet). The detonation pressure is higher because of the use of silver azide (with the same design).

Silver azide can be produced in different ways, for example using sodium azide (NaN ₃ ) and silver nitrate (AgNO ₃ ), which are each dissolved in water. Silver azide can then be obtained by means of a precipitation reaction. This is followed by a washing. The silver azide can be activated by drying the moist material obtained in this way.

The primer charge may consist of the primer containing silver azide. In this embodiment, the ignition material charge is formed from the ignition material containing the silver azide.

The primer can consist of silver azide. Silver azide is used exclusively as an explosive.

In the case of the film-effect detonator, the primer charge can consist of a main primer charge and be free of an initial primer charge. In this embodiment, the ignition substance charge does not contain any further ignition substances besides the ignition substance charge which forms the main ignition substance charge. An initial primer charge is saved.

The glow wire can have a corrosion protection coating at least in the area of a wire section that is in physical contact with the ignition substance charge. With the aid of the corrosion coating, the wire section of the glow wire is protected against corrosion, in particular against a corrosive effect of the ignition substance charge. The functional reliability of the film effect detonator is supported by this.

The anti-corrosion coating of the film-effect igniter can be formed or produced by means of an adhesive which is applied to the glow wire in the area of the wire section is. It can be provided that the adhesive applied as a corrosion coating is the same adhesive with which components are adhesively connected to one another, in particular glued, in the production of the film effect igniter. The anti-corrosion coating can then be produced by applying the adhesive or a glue.

The film-effect igniter can have a carrier with which a receptacle for the glow wire and the ignition material charge is provided. The glow wire and the ignition substance charge are arranged at least in sections on the carrier. In this case, the carrier can be connected to the glow wire and / or the charge of ignition material by means of an adhesive. The carrier can be, for example, a disk, a ring or a sleeve, which can have a cylindrical shape. The ring can be provided with a bottom, so that a receiving space for the glow wire and the ignition material is provided within the ring. In a comparable way, the glow wire and the charge of ignition material can be at least partially accommodated in the interior of the sleeve. The charge of explosive on the carrier can be covered by a cover that is glued on, for example. As a result, in one embodiment, the ignition material charge can be arranged in a receiving space surrounded on several sides, which can be designed to be essentially closed.

Carrier sections of the carrier which are in physical contact with the ignition substance charge can be made at least in sections of a material that absorbs moisture from the ignition substance charge. This embodiment is particularly advantageous when the ignition substance charge is originally produced as a moist material and applied to the carrier. The carrier section then serves to absorb the moisture from the dampening material and to release it into the environment. The carrier can consist essentially entirely of the material which absorbs and removes the moisture. The material of the carrier section can be, for example, a paper or cardboard material. If a cover for the ignition material charge is provided on the carrier, this cover can also be made of the moisture-absorbing material and thus contribute to drying the ignition material charge.

In connection with the method for producing the film effect igniter, the explanations given above for configurations apply accordingly. Furthermore, the following statements in particular can be provided.

The primer charge can be applied as moist material, and the moist material can then be dried to activate the active ingredient.

In the method, a corrosion protection coating can be applied to the glow wire at least in the region of a wire section that comes into contact with the ignition substance charge before the charge. The anti-corrosion coating can be applied and then dried. The coating can consist of an adhesive such as glue or glue.

In the method, a receptacle of a carrier, which receives the glow wire, can be loaded with the ignition substance.

Carrier sections of the carrier which come into physical contact with the ignition substance charge during loading can absorb moisture from the ignition substance charge and thereby contribute to its drying.

Description of exemplary embodiments

Fig. 1

eine schematische Darstellung eines Filmeffektzünders, bei dem ein Träger mit einem Ring ausgeführt ist; und

Fig. 2

eine schematische Darstellung eines weiteren Filmeffektzünders, bei dem ein Träger mit einer Hülse gebildet ist.

In the following, further exemplary embodiments are explained in more detail with reference to figures of a drawing. Here show:

Fig. 1

a schematic representation of a film effect fuse, in which a carrier is designed with a ring; and

Fig. 2

a schematic representation of a further film effect igniter, in which a carrier is formed with a sleeve.

The Fig. 1 shows a schematic representation of a film effect detonator 1, in which a ring 2 forms a carrier on which an ignition substance charge 3 forming an active charge is arranged. The ignition substance charge 3 also surrounds a glow wire 4 which, in the area of contact points 5, is connected to connecting wires 6 which are twisted in a central section and have separate ends 7. In a section 8 of the ring 2, an adhesive connection is made between the connecting wires 6 and the ring 2.

An electrical voltage can be connected via the separated ends 7 in order to make the filament 4 glow, so that the ignition substance charge 3 of the film-effect igniter 1 is ignited.

To simplify the representation, in Fig. 1 a cover, not shown, which can cover the ring 2 and the ignition substance charge 3 with the glow wire 4 received therein. The ring 2 and the cover (not shown) can consist of a material which absorbs moisture from the ignition substance charge 3 and releases it to the outside, for example a paper or cardboard material. This makes it possible to first apply the ignition substance charge 3 as moist material, optionally press it in, and then dry it for activation, this drying process being promoted by the material that removes the moisture from the ignition substance charge 3. In the various versions, drying can be carried out in the air and / or in a drying oven.

Fig. 2 shows a schematic representation of a further film-effect igniter 10, in which a sleeve 11 forms a carrier in which the ignition material charge 3 with the glow wire 4 embedded therein is arranged. For the same characteristics are in Fig. 2 the same reference numerals as in Fig. 1 used.

The glow wire 4 is connected via the contact points 5 to the connecting lines 6, the separate ends 7 of which are used to connect electrical energy. In the embodiment in Fig. 2 an insulating plug 12 is also provided, which is also arranged in the cylindrical sleeve 11. The connecting lines 6 run through the insulating plug 12.

The sleeve 11 is made of a material with which moisture can be absorbed by the ignition substance charge 3 and carried away to the outside, which supports the drying of the ignition substance charge 3 after it has been applied as moist material. For example, the sleeve 11 can consist of a cardboard or a paper material.

The other film effect detonator in Fig. 2 also has a cover 13, which can also be made of the moisture-removing material.

The various embodiments for the film effect detonator 1, 10 have in common that the detonator charge 3 forming the active charge contains silver azide. Sodium azide (NaN ₃ ) and silver nitrate (AgNO ₃ ) can be used as raw materials for the production of silver azide, for example by dissolving the raw materials in water. With the help of a precipitation reaction, a moist igniter is produced that is inactive in water. The silver azide can then be filtered out, whereby a wet material is provided, which corresponds to the corresponding Carrier of the film effect fuse 1, 10 can be applied. This is followed by drying to activate the primer.

When producing the respective film-effect igniter 1, 10, provision can be made for the filament 4 to be provided with an anti-corrosion coating at least in sections before the ignition substance charge 3 is applied (for example as a moist material) in order to prevent the filament 4 from corroding and thus prevent its functionality of the film effect detonator 1, 10 to be maintained even after prolonged storage. In one embodiment it can be provided that the anti-corrosion coating is formed by means of an adhesive material, for example glue or adhesive, which is then also used for the adhesive connection of other components of the film effect igniter 1, 10, for example the gluing of the cover 13.

The features disclosed in the above description, the claims and the drawing can be of importance both individually and in any combination for the implementation of the various designs.

Claims (13)

Film effect fuse (1, 10), with: - An electrical connection line (6); - A glow wire (4) which is connected to the electrical connection line; and - An ignition substance charge (3) with which an active charge is formed which can be ignited by means of the glow wire (4); wherein the ignition material charge (3) is formed with an ignition material which is free of heavy metals and contains silver azide. Film effect detonator (1, 10) according to claim 1, characterized in that the detonating substance charge (2) consists of the igniting substance containing silver azide. Film-effect detonator (1, 10) according to Claim 1 or 2, characterized in that the detonator consists of silver azide. Film effect detonator (1, 10) according to at least one of the preceding claims, characterized in that the charge (3) consists of a main charge and is free of an initial charge. Film effect igniter (1, 10) according to at least one of the preceding claims, characterized in that the glow wire (4) has a corrosion protection coating at least in the area of a wire section that is in contact with the ignition material charge (3). Film effect igniter (1, 10) according to Claim 5, characterized in that the anti-corrosion coating is formed by means of an adhesive which is applied to the glow wire (3) in the area of the wire section. Film effect igniter (1, 10) according to at least one of the preceding claims, characterized by a carrier with which a receptacle for the glow wire (3) and the ignition material charge (3) are provided. Film effect detonator (1, 10) according to claim 7, characterized in that carrier sections of the carrier which are in physical contact with the primer charge (3) are at least partially made of a material that absorbs moisture from the primer charge (2). Method for producing a film effect fuse (1, 10), with: - Provision of an electrical connection line (6); - Connect a filament (4) to the electrical connection line (6) and - Loading with an ignition substance charge (3), with which an active charge is formed which can be ignited by means of the glow wire (4); wherein the ignition material charge (3) is formed with an ignition material which is free of heavy metals and contains silver azide. Method according to claim 9, characterized in that the ignition substance charge (3) is applied as moist material and the moist material is then dried to activate the active ingredient. Method according to Claim 9 or 10, characterized in that a corrosion protection coating is applied to the glow wire (4) at least in the area of a wire section that comes into contact with the ignition substance charge (3) before charging. Method according to at least one of Claims 9 to 11, characterized in that a receptacle of a carrier which receives the glow wire (4) is loaded with the ignition substance charge (3). Method according to at least one of Claims 9 to 12, as far as dependent on Claim 10, characterized in that carrier sections of the carrier which come into contact with the ignition material charge (3) during loading absorb moisture from the ignition material charge (3) and thereby dry it contribute.

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