DE1084183B - Electric igniter - Google Patents

Description

GERMAN

The invention relates to electric detonators which are ignited by applying a low voltage.

The main detonators used to ignite explosive charges are electric detonators Bridge glow starters, which generally consist of three main parts:

a) An electric ignition head, consisting mainly of a fine electric thread, which is welded to the ends of two copper rods, which in turn are connected to the two conductors of a power supply are.

This thread is surrounded by an ignition material, which is caused by the glowing of the thread Continuity of current, ignited.

The ohmic resistance of the thread and its power supply lines is 1 to 2 ohms.

The intensity of the current usually used to ignite the ignition mass is in one range from 300 to 400 milliamps.

b) A shock-sensitive initial explosive charge, the explosion of which is caused by the ignition of the aforementioned Ignition mass is effected.

This charge is mainly composed of fumed mercury, Lead azide or triresoreinate, etc. together. The weight is about 0.4 g.

c) An additional explosive charge, the ignition of which is caused by the explosion of the aforementioned charge and which serves to give the detonator the appropriate explosiveness.

This charge consists mainly of tolite, melinite, Tetryl, penthritol, etc. as the basic substance. In the conventional electric detonators, the weight is this additional charge about 1 to 2 g.

The manufacture of these detonators is very difficult due to the composition of the electric detonator head expensive. In addition, the handling of the detonator is due to the high impact sensitivity of the initial explosive very dangerous.

In the still known spark igniters, the passage of the electric current causes between two conductors spark formation, through which the ignition of the explosive charge, for example made of perchlorate, acetylene silver and metal powder or made of graphite-coated copper acetylene or grains of lead salt may exist. With these spark igniters, ignition takes place by applying a high voltage of about 3000 volts.

Furthermore, so-called gap glow igniter are known, which consist of an ignition body, which consists of a composed of cardboard strips covered on both sides with metal sheets as an insulator. Here is the explosive arranged at one end of the insulating cardboard strip in the form of a detonator, which the Explosive device opposite. The initial explosive of the

Applicant:
Societe Nobel Francaise, Paris

Representative: Dr. H.-H. Willrath, patent attorney,
Wiesbaden, Hildastr. 32

Claimed priority:
France 16 June 1956

Jean Marie Louis Charles Fouquet, Paris,
has been named as the inventor

The ignition head consists, for example, of silver azide, which is a finely divided chemical or electrolytic compound precipitated or a colloidal metal is added. Due to their complicated structure, these are detonators however, extremely expensive.

There are also mine detonators known in which the ignition by means of an aluminum and any intermediate powder that may contain oxygen and carbonaceous substances. the Use of aluminum alone or in conjunction with additives such as saltpetre or powdered ones However, coal as an intermediate ignition powder has proven itself due to the inadequate conductivity of the aluminum powder not proven. It has therefore been proposed to use powder mixtures instead of aluminum powder Use aluminum and copper, tin or magnesium, or aluminum alloys. But also with the conductivity of these compounds could not be improved in a satisfactory manner.

In the majority of known detonators, two electrodes are immersed in the ignition compound. However, there are also known detonators, in which one of the electrodes takes up the explosive charge through the intermediary of the The tube or sleeve is in electrical connection with a cover provided in the tube, while the other electrode forms the end of a conductor which terminates at the top with the closure plug. There is only a small part of the explosive charge between the lid and the end of the conductor forming the second pole or the closure plug arranged in a disc shape. The ignition takes place at this type of detonator also by applying a high voltage.

The invention relates to an electric igniter for low voltage with a container of the igniter forming tube, which consists of a mixture

009 547/147

3 4

an explosive and an electrically conductive one. This plug 3 preferably contains an explosive charge in the area of the auxiliary material and its axis is also used as an electrode by a rod 4 made of conductive material.
Structured that in the explosive charge, consisting of the known reaction product of 5 shape according to the embodiment shown in the drawing, the rod 4 and the tube 1 form the metal salt solutions of oxidizing acids with hydrodes. The rod 4 and the tube 1 are connected with a gezin, semicarbazide and oxyamines which are in their own current conductors 5 and 6 respectively. These current molecules, a _{functional rod 4 bound to an NH 2} group or to a conductor 5 and 6, are preferably welded to the end of the hydroxyl hydrocarbon or to the tube 1. The so-ge nitrogen atom and the igniter preferably created from io is with the following example, such as z. B. aluminum existing auxiliary, as described Explosivder according to the invention with the explosive a complex compound 7 filled. The rod 4 extends into the middle of this forms a second made of an electrically conductive explosive.

Pen existing electrode is immersed in such a way that the between the two electrodes is so large 15 appropriate explosive composition for use that most of the explosive charge can be produced in a thicker layer in a detonator as described above between the electrodes. which one a 40% aqueous solution of hydra ■ In the detonator of the invention, the poles of the zinc hydrate are treated with a 30% aqueous solution of The detonator is implemented through the entire sleeve wall and through nickel nitrate. For this purpose, the a central pin formed, being the one by the 20 two solutions in the cold and under moderate The pole formed by the pin is mixed well into the explosive mass. The precipitate that forms dives. As a result, the passage of electricity is recorded and made with methanol or ethanol not only, as is the case with the known detonators of the case for removing the excess hydrazine is to wash by a fraction of the explosive charge. After drying and de-lumping, one obtains but rather through almost all of the 35 a very fine, non-hygroscopic powder of Charge. This arrangement-the pink-violet color by the wire pen.

The second pole formed is made possible by the fact that these explosives are mixed with appropriate changes Explosives based on a conductive metal, such as sharing from about 5 to 30%> Carbon such as B. carbon black, e.g. B. aluminum is deposited, and that this graphite, or with metal powder or metal pigments, Mixture has excellent conductivity. 3 ° such as B. bronze or aluminum, mixed.

The use of the explosive composition used in accordance with the invention, the explosive substances produced in this way as ignition and initial charges, speaks to the self-glowing and spark igniters aimed at according to the invention with little effort. It is very insensitive to shock and shows how the distance between the electrodes is known per se. However, the fact that they are appropriately compressed or agglomerated to form a metal powder allows the construction of a good electrical conductivity and detonation of an igniter whose electrodes, when exposed to an electrical current, are so large that the largest part is so large the explosive with an intensity in the range of 100 to 300 milli-charge in a thick layer between the electrodes is flowing through it,
was completely surprising. The advantage. .
Activity of the detonators of the invention is obvious. 40 Example 1
The detonators are easy to manufacture and can easily be ignited without adding up to 70 parts by weight of the complex compound established as described above with the greatest possible expense of high voltages. The manufacture of the igniter is added with aluminum granules, whereupon the mixture, with the new composition according to the invention known as "HNA30", is by careful kneading, on the other hand, simple and inexpensive as well as approximately homogenized.

borrowed because of the low sensitivity to shock, the mixture is poured into the cylindrical tube 1

ties. For the same reason omitted when filled and pressed together accordingly.

Transport and use the difficult The electrical leads 5 and 6 are in their

that the classic electric detonators have the same texture as those for conventional ones

cause. 5 ° igniter can be used and exist for example

As a basis for the production of the invention from copper wires with a thickness of 0.5 mm,

Explosives used are, for example, those which are isolated by any suitable means

To name complexes that are due to the implementation of the.

Metal salts of oxidizing acids with hydrazine hydrate The ohmic resistance of the ignition

according to the method of French patent specification 55, this was measured with an ohmmeter

1 071 630 or with semicarbazide or oxyamines 20 Ohm.

according to the method of the French patent specification When connecting the two conductors 5 and 6 of the

1074 318 can be obtained. inventive detonator to the terminals of a

Further advantages and features of the present invention 2-volt lead accumulator were discovered immediately emerge from the drawing in which 60 plosion of the detonator.

a preferred embodiment of an inventive The same effect is shown schematically with a flashlight-compliant igniter. battery reached 4.5 volts.

The detonator shown in the drawing consists. .

essentially from a cylindrical tube 1 from üebeispielz

conductive material, such as B. made of copper, and a 65 A dynamite cartridge made of plastic material ("B.Am" -

flat bottom 2. Rubber), one end of which has been exposed, is

The tube 1 is insulated with a plug 3 made of a brass tip in the area of the axis

the material provided through which the open a cylindrical recess of 7 to 8 mm

The upper end of the tube 1 is provided, for example, by inserting a diameter and a length of 25 to 30 mm

a suitable device 3 α tightly closed 70.

With the help of a small funnel, this recess was filled with the mixture »HNA 30«, which was compressed with a brass pestle, filled.

Two brass contact strips 3 mm wide and 1 mm thick were placed in the "HNA 30" mixture introduced, the strips being spaced apart by a shim of insulating material about 3 mm.

When connecting the two lead wires welded to the contact strips to a 12-volt lead-acid battery there was an explosion of the mixture "HNA 30" and that of the dynamite cartridge, which was ignited by the composition.

The manufacture of the detonators with the new compositions according to the invention is, on the one hand, simple and cheap, on the other hand harmless because of the low impact sensitivity of these compounds.

For the same reason, there are no difficulties in transport and use, which induce the classic electric detonators.

An object of the present invention is the characteristic of the electrical conductivity of the detonators, making it possible to use them under the same conditions and with the same explosives like conventional detonators. From an industrial point of view, the detonators are interesting in particular because of their greatly reduced production costs.

It goes without saying that the above statements relating to the present invention are only given as examples Explanation is to be interpreted without limitation, and any appropriate change may be made without going beyond the scope of the invention. In particular, the inventive explosive compositions have been applied to various explosive devices and detonating these compounds simply by passing any one through it Means generated electric current are effected through these connections.

Claims (1)

Claim. Electric detonator for low voltage with a tube forming the container of the detonator, which contains the explosive charge consisting of a mixture of an explosive and an electrically conductive auxiliary substance and at the same time serves as an electrode, characterized in that in the explosive charge, consisting of what is known as an ignition charge per se Reaction product of metal salt solutions of oxidizing acids with hydrazine, semicarbazide and oxyamines, which in their molecule _{contain a functional nitrogen atom bonded to an NH 2} group or to a hydroxyl hydrocarbon, and which is preferably composed of a metal such as. B. aluminum existing auxiliary sstoff, which forms a complex compound with the explosive, a second consisting of an electrically conductive pin electrode is immersed in such a way that the distance between the two electrodes is so large that most of the explosive charge in a thick layer between the electrodes lies. Considered publications:
German Patent No. 214 705;
Austrian Patents Nos. 35 120, 82 125;
British Patent No. 578,300;
French patent specification No. 1 071 630,
1074318;
French additional patent specification No. 16 277. 1 sheet of drawings ©, 009 547/147 6.60