DE8132341U1 - Explosive devices - Google Patents

Description

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Troisdorf, the 29-07.1985 OZ 8106 * Dr.Sk/br.

DYNAMIT HOBEL AKTIENGESELLSCHAFT 5210 Troisdorf

\ Explosive devices

The present invention relates to an explosive device, which serves as a booster charge, made of pressed Secondary explosive is manufactured and the shape of a Kapaelstücks with an open end face and a, axially arranged, conically extending indentation starting from the side facing away from the open end face possesses in cylinder shape.

It is known to use booster charges to ignite explosives that were sworn to be initiated .. Under explosives that are difficult to initiate should be blasting sludge, also known as slurries, or explosives based on ammonium nitrate / diesel oil be understood.

The known amplifier charges for this purpose do not always allow optimal positioning 2c of the detonator in the charge, and it is possible that the

The detonator undesirably changes its position in the charge. The full detonation transmission can be impaired will.

It was therefore the task of such explosive devices that Serve as a booster charge, to create the high strength of the connection between one to be introduced Allow detonators and the charge body, the introduction of the detonator being as simple as possible to carry out target. In addition, such an explosive device should be a represent safe-to-handle "unit, which, together with the detonator, can also be easily detonated with the Let explosives come into contact.

In fulfilling this task, an explosive device made of pressed secondary explosive in the form of a capsule piece 1 with an open one, serving as a booster charge End face 6 and one axially arranged, conical, extending from the side facing away from the open end face extending indentation in the form of a cylinder, the height of which is less than the height of the capsule piece, found the characterized in that the hollow cylinder 3 formed by the indentation

a) an inside diameter on its open end face 5 which corresponds to the outer diameter of a detonator or an electric detonator,

b) has a conicity that is determined by. the open end face 5 to the bottom surface S of the hollow cylinder is between 0.2 and 1.0 % .

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The hollow cylinder located inside the capsule piece serves to hold a detonator or a detonator. For this reason, its open face should be Have an inner diameter that corresponds to the outer diameter of the detonator or detonator to be inserted. He can also be slightly larger; in such a case, however, it must be ensured that the conicity of the hollow cylinder is such that the diameter mentioned is within the range of the open end face of the hollow cylinder are the same.

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The diameter of the hollow cylinder tapers towards its bottom surface. This taper, also known as the taper is calculated according to the invention as a cone taper in accordance with DIN ISO 3040.

The claimed conicity of the hollow body causes a detonator or detonator to suck into the charge is introduced and only removed from it with high tensile force can be »When inserting the air out of the Hollow cylinder displaced; this creates in the tree between the detonator (or detonator) and the ground surface 8 of the hollow cylinder when pulling out the detonator a more or less large vacuum that the pulling out the detonator (or the detonator) difficult.

The advantages of the secure fit of the detonator or a detonator in the booster charge according to the invention can be achieved especially when using such materials for the capsule piece or the dumbbell 4 of the hollow cylinder (if the entire capsule piece is made of several materials) that have such elasticity That the forces that act on them when a detonator is introduced do not reach the flow limit of this material: the material should also be completely elastic and, if the forces do not act, it should return to its original shape. The material may therefore be used during the introduction of a detonator (or a detonator) due to the forces exerted in the process. Forces do not pass into a plastic state that causes a permanent change in shape. After its introduction into the hollow cylinder, the detonator or the detonator is tightly encompassed on all sides by the jacket of the hollow cylinder as if by a tightly fitting spring and consequently cannot change its position, or only slightly.

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Materials that have these properties are dem Person skilled in the art. This includes, for example, copper and copper alloys that are not too soft, such as brass or those thermoplastics that have perfect elasticity and are not assigned to the elastomers, such as most of the commercially available PVC types or high molecular weight formaldehyde polymers. Of course, the material must be more elastic than the shell material of the detonator or the detonator, which are inserted into the hollow cylinder of the booster charge according to the invention should. These detonator shells are usually made of a rigid material such as aluminum: or aluminum alloys.

The height of the hollow cylinder depends on the length of the cylinder to be introduced Detonator and the height of the entire capsule piece. It must be chosen so that the to be introduced Detonator at least as high as its secondary explosive charge can be introduced into the booster charge. Between the hollow cylinder bottom surface 8 and the open end face 6 remains a distance of at least 2 mm; In this section the pressed secondary explosive covers the entire cross section of the capsule piece. From the thus granted cover of the fuse base with

25 Secondary explosive results in perfect detonation transmission.

The secondary explosive is in the booster charge in pressed form before · He is with a pressing pressure: -of about

307000 to 18000 B / cm ² , pressed into the cavity between the dumbbell 9 of the hollow cylinder and the jacket 4- of the capsule piece from the open end face 7 of the capsule piece. Due to the pressure exerted, the density of the explosive in the booster charge is between 1.6

35 to 1.8 g / cm ^ before. The one to be filled with the explosives

Volume is then chosen so that there are & g quantities of explosives in the drawer between about 3 and 30 g of the specified density -can be present. These quantities of explosives can be used for special operations can also be exceeded or fallen short of

According to the invention, all in Reinforcement charges known, solid secondary explosives can be used, such as 2,4,6-trinitrophenyl-methylnitramine (Tetryl), pentaerythritol tetranitrate, cyclotrimethylene trinitramine (Hexogen) or gyclotetramethylenetetranitramine (octogen). Boost charges filled with these or similar secondary explosives can also be used special applications (e.g. under water or at high temperatures).

The reinforcement according to the invention still have the advantage that they can also be used as shaped charges. For this trap, for example, there is no need for charges high filling weights, which in principle are also possible to produce, but brings several of the invention Boost charges with each other in connection with a stretched charge within a charge carrier cylindrical shape, the inside diameter of which corresponds to the outside diameter of the reinforcement charge to be used.

25speaks. In this case only the outermost charge is ignited, while the hollow oil loaders for the other cargoes remain open.

Such stretched charges are particularly effective when the individual reinforcement charges are arranged in such a way that that the open end face of a capsule piece of the base area and facing the hollow cylinder of the next capsule piece and the openings of the hollow cylinder into the desired one Show direction of use. Such an arrangement is shown in FIG. 2, which is a longitudinal section through

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shows such an arrangement. The hollow cylinders 10a and 10b of the sapseist pieces 11a and 11b abut the open end faces 12b and 12c of the capsule pieces 11b and 11c. Kit 13 is the casing of the load carrier marked and shows a detonator with which the foremost reinforcement charge 11 is ignited.

This results after ignition of the outermost capsule piece a directed shot through an inserted fuse, the one with increased detonation speed and with high kinetic energy hits the object to be shot.

TJm a crumbling of the secondary explosive from one 15 This surface can prevent boosting charge on their end face 6, which is open for loading and pressing be provided either with a sealing lacquer layer or with a cover plate. When using a Cover disk, a tight fit of this disk is e.g. Achieved by the fact that a fiingnut or cams are provided on the upper band of the capsule piece, in which the Cover can snap into place. The loads secured against crumbling in this way have the additional The advantage of not having to use them in an orderly position in a shipping container. It is sufficient, if you fill them in plastic bags with a defined number of pieces for transport.

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- 1 - Troisdorf, October 30th, 1981 OZ: 8106 * (4073) Br.Sk/Ce

The present invention is concerned with a booster charge ans pressed secondary explosives, which are released by a special geometry is marked »The booster charge contains a conical hollow cylinder into which a Blasting capsule or an electric tinder suction can be introduced with the displacement of air. ”The walls of this Hollow cylinders are made of a material that is elastic, but after it has not acted on it Forces that occur e.g. when inserting the detonator, resumes its original shape. The walls of the hollow cylinder thus include a detonator inserted therein close fitting as with spring force. The geometry of the body in which the secondary explosive is located It also enables the secondary explosive to be used as a cover above the fuse base to be introduced comes * so that a perfect detonation transmission is possible.

Claims (2)

9fr · at · ·· ,, Iroisdorf, June 19, 1985 OZ 81064- Br.Sk/br. 1. He is encased in a capsule as an explosive device serving as a booster charge made of pressed secondary explosive f c in Jona of a capsule piece (1) with an open End face (6) and a side facing away from the open end face (6), axially arranged, conical indentation 1 ** cylindrical shape, the height of which is smaller than the length of the capsule piece (1), characterized in that the hollow cylinder (3) formed by the indentation a) on its open end face (5) an inner passage - /, n has knife, which is the inside diameter of a A detonator or an electric detonator, b) has a conicity which from the open end face (5) to the bottom surface (8) between 0.2 and 1.0 lies and the material of the capsule piece, at least in the area of the indentation, copper or a material similar to it Elasticity is. 2. Explosive according to .Anspruch 1, characterized in that that the open end face (6) of the sapse piece (1) with a tight fitting, possibly locking into a bing groove, Closure is provided. File number G 81 32 341.7
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