DE1132848B - Detonator charge for detonators and electric detonators and process for their manufacture - Google Patents

Description

make electric detonator, the one in one

Has ignition mixture used wire bridge.

According to the invention, such detonators can be effective

sampled and safely manufactured and handled safely

will. According to the invention, it will be used for the supercharging when on the basic principle A high polymer sponge charge is pressed onto the ignition charge.

uses elasticity and a low specific 35 To demonstrate how safe such priming sponges are Has weight. are, in the following table 1 the

The ignition charge, which is made up by impregnating a result of a drop hammer test, high-polymer sponge with the ignition mixture, whereby a piece of polyurethane sponge is prepared as ignition sponge in the following, polymer sponge was used, which is not sensitive to friction and impact with the 40 ignition mixture equal parts by weight but with the same sensitivity as the pure was impregnated. Ignition mixture ignited by the spark or flame of Table 1 electrical igniter. When pressing the results of the drop hammer test this ignition sponge onto the igniter of the ignition sponge, there is therefore no friction between the ignition sponge
charge and the metal surface; furthermore, the
Ignition sponge as a shock absorber so that the igniter
or detonators can be produced with great security and without danger.

On the other hand, the _{ignition sponge produced by impregnating an amount of 50 D} i _a2O dinitrophenol (DDNP) into a high-polymer sponge can be used as tetrazene

Explosive

Critical height

powder

9 cm 8 cm

Ignition sponge

16 cm 25 cm

209 618/131

The weight of the hammer used was 2 kg.

As can be seen from the table, the detonator can using this ignition sponge can be produced safely as an ignition charge and is at the same time harmless when used the detonator or a safety ignition in the explosive cartridge an occasional friction of the primer charge he follows.

Various embodiments of the invention are described below with reference to the drawings.

1 and 2 show detonators in section, while FIG. 3 shows an example of an electrical instant detonator which is a modification of the capsule shown in FIG. Fig. 1 shows a cylindrical cartridge case 1, a secondary charge 2, a primary charge 3, an ignition sponge 10 and an inner capsule 4, which is used to hold the ignition sponge on the primary charge.

Fig. 2 shows a cylindrical cartridge case 1, a base charge 2, a high polymer sponge 11 which is impregnated with a large amount of ignition mixture, or an ignition sponge which contains a large amount of the ignition charge and using an inner capsule in the manufacture of the detonator the basic charge is pressed on. 3 shows a glow wire 5 which is inserted into the high-polymer sponge impregnated with the primary explosive 3, which sponge is held in place by an inner capsule 4. A plug 7 is also provided.

If such an ignition sponge is ignited in the open air, it only ignites, but detonates when it contained in a pipe under pressure. Table 2 below shows the difference in detonation speeds, if the ignition sponge is ignited outdoors or in a pipe in which it is under pressure.

Tabel

Ignition sponges Ignition outdoors In a cylindrical tube below
a print
from 50 to 200 kg / sqcm
pressed in Synthetic resin sponge impregnated with DDNP,
3 to multiple weight up to
Synthetic resin sponge with 10 to 16 times Ge
important DDNP impregnated 200 to 400m / sec.
700 to 1000 m / sec. 1,200 to 3,000 m / sec.
3,000 to 6,000 m / sec.

As can be seen from the table above, the ignition sponge only ignites in the open air, but receives a detonation velocity when under pressure, which is sufficient to detonate a basic charge, which is why this type of detonator is not only safe to manufacture and handling, but also reduces the risk of a misfire by a The ignition charge is pressed too hard.

The detonators shown in Figs. 1 and 2 can be used as simple detonators in conjunction with a safety igniter and also as an electrical igniter after the insertion of an electrical one Firing head according to FIG. 3 can be used.

4 and 5 show examples of electric momentary detonators in which an ignition sponge is used as the ignition charge is used. The igniter consists of the ignition charge and the applied ignition sponge together with which the wire bridge is in contact.

4 shows a cylindrical cartridge case 1, a secondary charge 2, a primary charge 3, an inner capsule 4, a glow wire bridge 5, igniter wires 6, a stopper 7 and an ignition sponge 10.

In the case of the igniter shown in FIG. 5, it is omitted the inner capsule 4; the primary charge 3 is slightly compressed by the ignition sponge 10, so that the said ignition charge cannot move.

FIG. 6 shows an electric instant igniter in which an ignition bead 12 is inserted into the ignition sponge 11 is used, which in turn is slightly pressed onto the ignition charge 3. This invention can be used for with Delay working electric detonators are used. Such a detonator will a considerable volume of space is required around the ignition head in order to destroy the sleeve due to the pressure of the gas generated when igniting the ignition mixture or a change to prevent the ignition speed of a delay element. Here is a high polymer Sponge used with the appropriate volume. The production of a delayed action electric detonator is done in such a way that a small amount of the delay element Ignition mixture and an ignition sponge is applied to it to ensure safe contact with the Establish a wire bridge and prevent the ignition mixture from falling out. So can in manufacturing the electrical detonator, which works with delay, increases the volume using the The polarity of the sponge can be freely determined. Figures 7 and 8 show examples of such retardants acting detonators. According to Fig. 7, a small amount of an ignition mixture 12 rests compressed on the delay element 8, while the high polymer ignition sponge 11, through its In the middle, an ignition wire 6 leads, on which ignition mixture is arranged, into which the glow wire 5 is inserted will. According to FIG. 8, the ignition sponge 11 is in a cylindrical shape on the delay element, while the primer mixture is placed in the center of the cylindrical sponge, after which the glow wire bridge is inserted into the ignition mixture. The ignition sponge can also be placed on the

5 6

Mixture of electrical, working with delay concentration can be determined. Is that igniting Detonator should be arranged as it is not soluble in the mixture in the solvent, or should the 4, 5, 9 and 10 is illustrated. Fig. 9 shows a sponge a large amount of the ignition mixture with a more precise and short-term delay, the mixture becomes in the solvent Detonator with a space in which the dispersed 5, the high polymer sponge in the Delay element 8 arranged on the ignition layer 3 and immersed in dispersion by mixing or reversing, while on the delay element a stir impregnated with the ignition mixture, after which Ignition sponge, in which the wire bridge is inserted, the solvent evaporates and the ignition sponge is, compressed rests. Fig. 10 shows a blast drying. For the manufacture of detonators capsule, for the production of which the ignition charge 3 with io can be cut into pieces beforehand using the polymer sponge the inner capsule 4 is compressed, cut to the appropriate size and with the igniter Ignition sponge 10 can be impregnated on the delay mixture, or the sponge element 3 is used for safe ignition. is after impregnation in strand or

11 shows a plate-shaped electric momentary igniter cut into pieces of suitable size, with a secondary charge 2, a primary charge 3 carried on the basis of several examples and one on the are: After immersing a cuboid or charge 3 lying ignition sponge 10 with a cube-shaped piece of the sponge with a guided wire bridge 5. The sponges in question have a volume of 0.1 to 0.3 cm ³ in a solution of 3 to 7% DDNP in acetone is held by the inner capsules 4, which are open in the middle, of the polyurethane bounding surfaces. The detonator cap shown in the existing sponge of the solution and shown in FIG. 12 represents a modification which vaporizes acetone, so that the DDNP which has penetrated into the sponge of the arrangement shown in FIG. 11, ie, dries. The weight of the DDNP retained between the sponge impregnated with an ignition mixture and the sponge prepared in this way is 50 to 150% of the weight of the sponge element. This ignition sponge is preferred

The ignition sponge is used for safety as part of the ignition charge of a detonator or as a

not only as a detonator charge or as a part of the detonator of an electric explosive cartridge after the

the same, but also as an igniter in electrical Figs. 1, 4, 5, 9 and 10 used.

Detonators. 30th

Furthermore, if the sponge is placed directly in an example 1

electric detonator is used, used to "

To ensure an expansion space in the detonator, DDNP was added to acetone in an amount of

whereby the production with greater certainty - 20 to 60% added. In this solution the

can follow and especially the use of a 35 polyurethane sponge dipped and moved until it

10 to 20 times the amount of DDNP added to the ignition mixture for delayed electrical systems

tric detonators is made possible. would have. From this ignition sponge were approximately

Those in the detonators according to the invention 0.20 g on a secondary charge of 0.40 g PETN

The high polymer sponges used are arranged and in this way the ignition charge

made of synthetic resin sponges, viscose sponges or 40, which are in the detonator capsule according to FIG

Acetate sponges, for example, made of polyurethane, using an inner capsule under a pressure of

Polyethylene, polystyrene, polyvinyl chloride, phenol, 50 to 100 kg / cm ^{2 was} injected.
Polyether, etc., any substance being suitable which

Elasticity and a low specific weight - Example 2

has and a coherent polymer foam 45

forms. A 40 to 50% mixture of equal volumes

Ignition mixtures, with which these sponges can be impregnated in the lumen of lead styphnate and potassium chlorate, consist of lead styphnate, dispersed in ethanol. A tetracenes, DDNP or fumed mercury, etc., and also viscose sponge according to the mixtures given in Example 1 were used with this dispersion. These substances can continue to be impregnated in a process. This is supplemented by nitrates, for example by charging the detonator shown in FIG. 2, potassium nitrate, chlorates, e.g. which contained an amount of perchlorate or also by peroxides, for example 0.40 g of RDX as a secondary line, under BaO ₂ . The secondary charges and delay 55 are pressed into a pressure of 250 to 300 kg / cm ^2,
elements can be made from conventional fabrics

exist. For example, as a delay Beismel 3

element red lead-lead-chromate can be used. "

For impregnating a high polymer sponge using the procedure given in Example 2

mes with a suitable solvent 60 was a priming sponge by impregnating a

detachable ignition mixture can be the ignition mixture in polyethylene sponge with the same volume

Dissolved this solvent and produced the high-tetrase. This sponge was called

polymer sponge immersed in this solution detonator used for an electric detonator,

will. The sponge is then used after absorption. 0.45 g of tetryl were used as a secondary charge.

turning out a sufficient amount of the solution to which fumed mercury has been applied,

taken and dried. The amount of the ignition on the fiery mercury was a according to Example 2

mixture, which is absorbed by the sponge, produced ignition sponge for the purpose of producing the

can be arranged by making the solution in the appropriate electric instant igniter according to FIG.

The table below shows the results for those prepared according to Examples 1 to 3 Detonators put together.

Table 3 Detonator Fire
test lead
plates
test test Test sample 10/10 Drop hammer
test after
Haigh
(32 ° / o 50/50 10/10 Height of fall number Talc) 50/50 10/10 without complete deto 50/50 explosion example 1 nations / number of Example 2 80 cm Example 3 100/100 80 cm 100/100 50 cm 100/100

Note: The detonators according to example 1 and 2 were by a safety fuse and the detonator according to Example 3 was ignited by 0.6 amps of direct current. In the drop hammer test, a steel hammer with a Weight of 5 kg dropped onto a detonator and measured the height of fall at which no explosion occurred.

Claims (3)

PATENT CLAIMS: 1. Ignition charge for detonators and electric detonators, characterized in that it consists of an elastic, cohesive high-polymer sponge impregnated with an ignition mixture with a low specific weight. 2. ignition charge according to claim 1, characterized in that the sponge is a polyethylene resin, Polyurethane resin, polystyrene resin, polyvinyl resin, Polyether resin, viscose or cellulose acetate sponge is. 3. A method for producing the ignition sponge according to claim 1, characterized in that that the high polymer sponge is immersed in a solution, which by dissolving or dispersing a primer mixture in a solvent until the sponge is prepared is impregnated with the mixture and that the solvent is evaporated for drying. 1 sheet of drawings © 20i 61 & / 131 6.62