DE1051707B - Detonation fuse cord - Google Patents

Description

Detonation Fuse The invention relates to fuses and methods for their use.

For many years, detonating fuses have been made in such a way that one a lead pipe filled with an explosive, in particular trinitrotoluene extends to a diameter of 5 mm, so that one has a detonator with an explosive content of about 20 g / m length.

Because of the weight and cost of the lead pipe, a Firecracker developed with a fabric cover. Due to the low sensitivity of Not tightly enclosed trinitrotoluene was used as the explosive core of the detonator Textile shell pentaerythritol tetranitrate (PETIT) or cyclotrimethylene trinitramine (RDX) used. This detonator, which is essentially completely the detonator with lead sleeve in the USA. is replaced with charges of 6.4 to 34 g of explosives produced per meter length of the detonating fuse.

Pop fuses "- ground largely when detonated to ignite the explosive charges used. The pop fuses have the properties of a uniform high Speed (about 6300 m / sec. For 8.5 g PETN per m of fuse), a low one Probability of shock or impact from external electricity, atmospheric Accidentally igniting electricity (or thunderstorms) is an excellent one Resistance to water and other flowable media as well as to the use roughness and strength required under unfavorable working conditions. the The above, extremely favorable properties are highly explosive (explosive power) and accompanied by loud noise. In many cases where the ignition leads over places run that cannot withstand explosive forces or where the noise is as weak as possible must be held, detonating fuses cannot or must not be used expensive and time-consuming shields can be created by e.g. B. the fuses laid in its entire length in the earth.

Other known methods of detonating an explosive charge from a distance Spaces have so many disadvantages that shielding methods have been used extensively became. Electric ignition devices have the disadvantage that they have long wires require which the risk of interruptions, damage to insulation or Short circuits are exposed, so that failures result. The electrical ignition devices also require considerable care for the proper laying of the power line i), if. a large number of explosive charges at the same time or within a short period of time Intervals should be ignited. The tendency towards electrical technology is even more worrying Ignition means to be ignited prematurely by external electricity. Such sources for external electricity include lightning, atmospheric electricity, leakage currents, Radio transmitters, galvanic currents and power supply lines. Safety fuses are because of their low burning speed (100 to 130 seconds per m) and unsuitable for the uneven burning rate.

The burning rate of safety fuses is determined by the Altitude, weather, damming, cladding and manipulation will affect so that the speed is 1019 / o up and down from the standard burning speed may differ.

Except for the applications of fuses, where a shield the fuse effective, if costly and time consuming, does exist still other methods in which adequate shielding is not possible. One such application of fuses occurs when blasting, with those on the ground charge located in a borehole is to be ignited before the other charges. This blasting process known as "floor ignition" is used because one apparently a better explosive effect if you use the Explosives ignite first in the part of the borehole in which it is below the largest Load stands. However, the explosiveness of fuses is such that when it is used of dynamite as an explosive the upper explosive charges during the passage of the detonation pulse be ignited while using the very insensitive ammonium nitrate explosives the containers are destroyed and their contents scattered, leaving the soluble salts come into contact with the moisture of the borehole and the evenness of the Charge is impaired. For this blasting process, therefore, only electrical ones were used Ignition means used despite their inherent disadvantages.

The object of the invention is thus the production of a detonating fuse, which has the advantages of detonators, but is less explosive and less Causing noise. The invention also relates to a method for »floor ignition in blast holes «.

A fuse according to the invention, which the ignition with evenly propagates at high speed, has a low level of explosiveness and makes very little noise contains a soul made from a highly explosive with one Diameter so that 0.425 to 3.189 g of explosives come to 1 m length of the detonating cord, this explosive core in a flexible shell, made of a thermoplastic Composition, e.g. B. made of polyethylene.

Preferred, highly explosive explosives are PET @ T, RDX, nitromannite and lead azide. Further examples of such highly explosive explosive compositions are TNT, HMX, lead typhnate and tetryl. - Thermoplastic materials suitable for envelopes include polyethylene, rubber, polyvinyl chloride and neoprene. The thermoplastic Cover can be reinforced by a fabric covering, i. H. receive a fabric cover. Such a coating strengthens the fuses and facilitates their use with them usual explosives, z. B. Detonation delay capsules, connecting devices etc. Wire and other metallic reinforcements can be used for durability against shear forces, abrasion and, in general, unsuitable handling be used.

The characteristic feature of the invention resides in creation a coherent column of a highly explosive substance in an amount of 0.425 to 3.189 g per m length, which is made of a flexible sheath made of a thermoplastic Composition is surrounded. The fact that explosive cores with such small amounts of explosives a detonation continued. planting is extremely unexpected.

In the drawing, FIG. 1 shows a sectional view through a finished one fuse according to the invention, FIG. 2 is an end view of this fuse and FIG. 3 shows a representation of a filled borehole, on the basis of which the inventive Floor ignition is explained.

In the drawing, in Figs. 1 and 2, 1 means an explosive core, 2 a thermoplastic shell surrounding the core 1 and 3 a non-metallic one Coating around the shell 2. In Fig. 3, 4 denotes a borehole, 5 the explosive charges, 6 an initial ignition, 7 the damming and 8 a fuse.

The invention is illustrated in more detail by the following example.

Example A polyethylene tube with an outside diameter of 5.33 mm and an inner diameter of 1.78 mm was made with dry, finely divided PETN filled. The outer diameter of the filled tube was determined by multi-stage deformation reduced to 1.52 mm. The explosive core consisted of 1.7 to 2.3 g PETN per m Length of fuse.

The fuse thus obtained could easily be detonated with a conventional detonator be ignited at one cut end, and the detonation planted through that Detonating cord proceeded at a steady pace.

The fuses according to the invention are particularly suitable for blasting operations with so-called bottom ignition, d. H. for blasting, in which at the bottom of the blast hole is ignited. As illustrated in Fig. 3, the method works to have a Initial ignition and a certain length of the fuse according to the invention in the first, d. H. introduces the lowest charge of the borehole, and further charges on top of this first charge Applying charges, damming the borehole, and then detonating the fuse.

Claims (2)

PATENT CLAIMS: 1. Detonation fuse with one in a thermoplastic Sheath enclosed core made of high-explosive material, characterized in that that this core contains 0.425 to 3.189 g per 1 m of fuse length. 2. Blasting process using a detonation fuse according to claim 1, characterized in that that this using a primer to ignite the ground cartridge of a Explosive charge is used.