DE2520803B2 - METHOD OF MANUFACTURING A DETONANT CORD - Google Patents

Description

T "

is used, where R is hydrogen or monovalent hydrocarbon group, not more than one Hydrogen atom is bonded to any Si atom and * has the meaning of 1 or 2.

9. The method according to claim 8, characterized in that the silicone is a linear polysiloxane the formula

(CH J) ₃ Si [OSi R ₂ J _n OSi (CH,),

where R is hydrogen or alkyl and η is an integer, or a cyclic polysiloxane of the formula [SiRjO] _n is used, where R is hydrogen or alkyl and η is an integer from 3 to 8.

IO method according to claim 8 or 9, characterized in that the polysiloxane is polymethylhydrogensiloxane with terminal trimethylsiloxy groups, polydimethylsiloxane with terminal trimethylsiloxy groups, cyclotetradimethylsiloxane or Cyklotetramethylwasserstoffsiloxan ver ho is turned.

The invention relates to a method for producing a detonating fuse with a continuous Core made of pentaerythritol tetranitrate particles by continuously rolling up a thin conveyor belt forming a tube into which the pentaerythritol tetranitrate particles are continuously submerged Formation of a solidified core and reinforcement of the pipe with outer wrapping materials. The present invention is a further development of the method described in DT-OS 22 48 627, according to the PETN for use as Explosive core in detonating fuses to reduce its water permeability with polysiloxane is treated.

Detonating fuses are widely used for detonation transmission lines with explosions and with the generation of seismic waves for the seismogirafische Prospecting used on land and at sea. The design and manufacture of a Embodiment of a detonating fuse is described in GB-PS 11 20 200. Generally there is the explosive core made of compressed PETN, which is wrapped in a thin paper or plastic tube, which with Winding materials are reinforced. These winding materials usually consist of one or more layers of woven textile yarn covered by a waterproof sheath made of thermoplastic material are surrounded. In the manufacture of detonating fuses of this type, an elongated ribbon (in Known in the art as a conveyor belt because it transports and conveys the PETN as it passes through it continuously wound together by an extrusion die to form a thin tube which PETN is continuously introduced through the die into the tube thus formed and passed therethrough of the pipe solidified by compression molding. Textile yarns are fed continuously from around the tube rotating coils are spirally wound around the pipe and the sheath is made of thermoplastic material extruded around the yarns. To encourage the PETN to flow into the tube, one or more Central yarns drawn through the extrusion die during formation of the detonating fuse. These yarns remain in the finished cord.

The explosive core of the commercially available detonating fuse becomes slightly insensitive to water made, and the safety can usually not be at an open end submerged in water Detonation can be ignited. This insensitivity to water can with success thereby be met that the PETN of the core is coated with polysiloxane, as in DT-OS 22 48 627 is described. The preferred method for doing this is by having the PETN and polysiloxane precipitate together from a solution in acetone.

The present invention is a method for producing a detonating fuse with a continuous core of pentaerythritol tetranitrate particles by continuously rolling them together a thin conveyor belt to form a tube in which the pentaerythritol granitrate particles be introduced continuously to form a solidified core and reinforcement of the pipe through outer wrapping materials, characterized in that that a conveyor belt to which silicone oil has been applied, or one that has been treated with silicone oil Central yarn is used.

It has been found that the resistance to water insensitivity thereby in can advantageously be achieved that one on the central yarn and / or conveyor belt silicone oil applies so that silicone to the PETN in the core of the

Detonating fuse twisted. This enables a separate treatment of the PETN with a liquid one Silicone, hereinafter referred to as silicone oil, was avoided before the detonating fuse was manufactured.

Accordingly, in making a detonating fuse with a continuous core from PETN particles the latter with silicone oil! treated in such a way that according to the invention in the Construction of the detonating fuse uses a central thread or a conveyor belt, applied to the silicone oil became. In the production of detonating fuse, a thin conveyor belt is thus used to form a tube Continuously wound together, PETN particles are continuously solidified to form a Core is inserted into the pipe, the pipe is reinforced with outer wrapping materials and the conveyor belt is on at least part of its surface forming the inner surface of the tube Coated with silicone oil. The conveyor belt is preferably impregnated with the silicone oil. The silicone oil migrates then through the PETN and forms a coating on it, which increases the water resistance of the PETN core.

The conveyor belt can expediently, for example, be made of paper or a synthetic plastic material, such as polypropylene, and have such a width that when rolled together Overlap the edges to form a tube. It must also have sufficient strength so that it can be used without too much tears are continuously drawn through the extrusion die of the detonating fuse making machine can. The conveyor belt is expediently treated with silicone oil that a coil of the The tape is immersed in the oil and the excess oil drains off.

In the process of detonating fuse production, in which a PETN particle stream around one or more Central yarns are guided and compacted into a core, which is then taken from the reinforcement wrapping materials is surrounded, the central yarn is treated with the silicone oil, part of which is then treated migrates through the explosives.

The central yarn can expediently consist of any natural or synthetic fibers, such as z. B. cotton or polypropylene, and for example in the form of a thread of circular cross-section or a flat or twisted ribbon. The yarn is expediently covered with silicone treated by dipping a bobbin of thread into the oil and letting the excess oil run off.

The silicone oil is expediently a polysiloxane with units of the structure

R _x SiO ^ _A

where R denotes hydrogen or a monovalent hydrocarbon group, no more than one hydrogen atom is bonded to any Si atom and χ denotes 1 or 2. The silicone is preferably a linear polysiloxane of the formula

(CH ^ ₁ Si [OSiRj] _n OSi (CH,) ,,

where R is hydrogen or alkyl and η is an integer, or a cyclic polysiloxane of the formula [SiR /)] ,,. where R is hydrogen or alkyl and η is an integer from i to 8.

Preferred linear polysiloxanes are polymethylhydrogensiloxanes with terminal trimethylsiloxy groups and trimethylsiloxy terminated polydimethylsiloxane. These preferably contain polysiloxanes their molecules have an average of 40 to 100 polysiloxane units (—S1R2O).

The preferred cyclic polysiloxanes include, for example, cyclotetradimethylsiloxane and cyclotetramethylhydrogensiloxane.

Appropriately, the tube is reinforced in such a way that a reinforcing textile yarn around the Pipe is spun and a waterproof plastic jacket is extruded around the reinforcement yarn.

The invention also extends to a detonating fuse having a PETN core that is connected to the Applied central yarn in the core or a thin conveyor belt surrounding the core Silicone oil is in contact.

The design and manufacture of the detonating fuse according to the invention is exemplified below described with reference to the accompanying drawing, which schematically shows a piece of the detonating cord shows, in which the components are shown at one end to explain the manufacturing steps.

During the manufacture of the detonating fuse, a central core 1 made of PETN is inserted through a trap outlet in a conveyor belt is introduced, which is wound together to form a thin tube 2. To one To ensure continuous flow from the feed hopper, a central yarn 3 is through the The funnel outlet is guided along the axis of the tube 2. The conveyor belt or the central yarn is with ) Impregnated with silicone oil. The tube 2 is surrounded by a textile yarn layer 4 and an in Surrounding textile yarn layer 5 led around in the opposite direction; layer 5 is extruded with a Coated layer of thermoplastic material. The> cord can easily be made in the facility that usually used for the production of detonating detonators. The silicone oil waved off the pipe 2 or the Central yarn 3 into the explosive of the core 1 as soon as the cord is completed.

The following examples illustrate the practice of the invention.

example 1

In this example the conveyor belt was a machine calendered one, 15.9 mm wide and 0.076 mm thick packing paper tape. It was immersed in a silicone oil made from a polysiloxane with terminal trimethylsiloxy groups with 15 dimethylsiloxane units and 3 methylhydrogen siloxane units per molecule.

The explosive core I consisted of crystalline PETN and contained a central yarn of 3 from a 3 mm wide and 0.08mm thick polypropylene tape of 1000 Denier with a twist of 80 turns per meter. The layers 4 consisted of 8 yarns of the same Polypropylene tape like the central yarn 3 (but without twist), the one with 26 windings per meter was wound, and layer 5 consisted of 10 yarns of the same polypropylene tape as in layer 4 Windings per meter.

When testing for wet ignition, the open ends of specimens to a depth of 25 cm and submerged in water at intervals by the side blow from a No. β detonator (0.24 g PETN base charge) attached to the submerged end was tied, checked for ignition. The samples ignited after 72 hours of immersion, whereas in the same test with detonating fuse samples

4 °

According to this example, but without silicone oil, the PETN core is soaked up with water and gradually No ignition resulted from immersion for 5 hours.

B c i s ρ i e I 2 ^

The detonating fuse of this example was the same as that of example 1 except that the Tube 2 with a polydimethylsiloxane with terminal trimethylsiloxy groups with about 90 dimethylsiloxane units per molecule was soaked. u>

When testing for wet ignition, this example gave the same results as example 1.

Example 3

The detonating fuse in this example was the '■> same as in Example 1 with the exception that the tube 2 with a trimethylsiloxy end block provided F'olymethylwasserstoffsiloxan impregnated with about 50 methylhydrogensiloxane units per molecule was. -O

The test for wet ignition gave the same results in this example as in example I.

Example 4

The detonating fuse of this example was the - ^ same as in the example with the exception that the conveyor belt is 15.9 mm wide and 0.013 mm thick Was 1100 denier polypropylene tape.

The test for wet ignition gave the same results as in Example I. v>

Example 5

In this example, the central yarn 3 was a single one 3 mm wide and 0.08 mm thick polypropylene sheet of 1000 denier with a twist of 80 turns each Meter that had been immersed in the silicone oil DP 42 described in Example 3.

The tube 2 was a 0.01-3 mm thick polypropylene film, as is described in Example 4. Otherwise was the detonating fuse of this example is the same as in example 1.

When tested for wet ignition, this example gave the same results as example 1.

For example I 6

The detonating fuse of this example was the same as that of example 5 except that the Central yarn 3 was a cotton yarn with a weight of 0.05 g / meter and the silicone oil was as in Example 2 consisted of trimethylsiloxy terminated polydimethylsiloxane.

When tested for wet ignition, this example gave the same results as example 1.

B e i s ρ i e I 7

The detonating fuse of this example was the same as that of example 5 except that the The central yarn was a polypropylene thread of 760 denier and the silicone oil was cyclotramethylhydrogensiloxane duration.

When tested for wet ignition, this example showed the same results as example 1.

Example 8

The detonating fuse of this example was the same as that of example 5 except that the Silicone oil was Cyklotctradimethylsiloxan.

When tested for wet ignition, this example gave the same results as example 1.

For this purpose I sheet drawings

Claims (8)

Patent claims: 1. Method of making a detonating fuse with a continuous core Pentaerythritol granitrate particles by continuously rolling up a thin conveyor belt forming a tube into which the pentaerythritol tetranitrate particles are continuously submerged Formation of a solidified core and reinforcement of the pipe by external ι ο Wrapping materials, characterized in that a conveyor belt on which Silicone oil has been applied, or a central thread treated with silicone oil is used. 2. The method according to claim 1, characterized in that that the conveyor belt on at least part of its the inner surface of the tube forming surface is coated with silicone. 3. The method according to claims 1 or 2, characterized in that a conveyor belt is used made of paper or a plastic material. 4. The method according to claim 3, characterized in that a conveyor belt is used, which is made of polypropylene. 5. The method according to claim I, characterized in that that a central yarn made of natural fiber or synthetic fiber is used. 6. The method according to claim 5, characterized in that a central yarn made of cotton or Polypropylene is used. 7. The method according to any one of claims 1 to 6, characterized in that the tape or Central yarn is treated by dipping it in silicone oil. VS 8. The method according to any one of claims 1 to 7, characterized in that a silicone oil Polysiloxane with units of the structure