DE1189902B - Gas pressure detonator cartridge with mechanically actuated ignition and compressed gas generating charge - Google Patents

Description

Gas pressure explosive cartridge with mechanically actuated ignition and pressure gas generator Charge It is known to blast with low gas pressures on grown coal seams perform in such a way that closed in a introduced into the borehole Chamber gases generating fuels are arranged, which ignited by heating burn slowly and exit the combustion chamber at gas pressures of around 1000 atmospheres and work breaking against the walls of the borehole.

It is not known to be involved in ore mining, road construction, and in quarries to make the resulting coarse blocks transportable by placing a lockable chamber with a fast-burning propellant, preferably galantinated Powder compact charges, by means of a cheap, insensitive small caliber cartridge ignites, whereby the resulting gas pressure is similar in a cartridge chamber of a Bolt setting tool developed to work at maximum gas pressures of a few thousand atü a damming of gas vent openings arranged laterally in the combustion chamber to break, so that the high gas pressures suddenly jolt against the walls of the Press the borehole and break the coarse block.

A pre-breaking of the coarse block carried out in this way shows some advantages over pre-breaking with drilling and shooting with explosives on. Because the gas pressure acts more pushing and in determinable and from the damming dependent limits is the loss of explosive material, which is normally limited to 10 up to 15% is estimated, vanishingly small. The cost of mechanical ignition, z. B. by means of a small caliber cartridge, are low, and the risk of accidents, 70% of which can be attributed to the use of the detonator has been eliminated. The slow breaking of the coarse block also means that smaller explosives Fly only a few meters and cordon off the area with the associated There can be no interruptions in extraction. The maximum gas pressure at known explosions is not determinable, can be regulated so that the combustion chamber is not destroyed or damaged, whereby the same can be used many times. In Fig. 1 shows an exemplary embodiment from which the temporal The processes involved in breaking should be explained; F i g. 2 shows another example with cartridged damming of the cargo.

The combustion chamber 2 with the powder compact 3 and the damming 4 arranged between the powder compact and the combustion chamber wall is inserted by means of a guide tube 5 into the borehole 1, which is drilled or the like in stone or natural ground. The combustion chamber is closed at the base 6. The powder compact is held down by a cartridge holder 7 which contains the ignition cartridge 8. The cartridge holder is held down by the guide tube 5, which is non-positively screwed to the combustion chamber by means of a thread 9 before it is inserted. The combustion chamber and guide tube unit can now be inserted into the borehole. The combustion chamber shows the blocked gas outlet openings 10. The cartridge base is covered by means of an ignition stopper 11, which has the shoulder 12 to absorb the recoil force. The ignition striker 11 is related to the striking rod 13 like an anvil to the hammer in such a way that the striking rod transmits the impact of the hammer 14 to the ignition striker, which ignites the cartridge in a known manner. The angular path 15 is available for ignition by means of a hammer blow, on which the hammer, which is articulated on the guide tube 5 by means of a joint 16, is accelerated by pulling on the tear-off cord 17. The ignited cartridge causes the powder compact or the charge to explode via the bore 18. The damming 4 is only destroyed at a certain, almost maximum gas pressure, and the gases which are released strike the walls of the pressed material in the direction of the arrow. A space is provided between the crushed material and the combustion chamber of a size that the gas losses through the borehole are delayed at the beginning of the crushing process. To reduce this gas loss, you can, for. B. attach additional threads on the combustion chamber and loosely loosen the springs 19 and 20 on the same. This type of arranged springs increases their diameter when the gases enter on the pressure side forming on the combustion chamber and lie against the material to be crushed.

While according to FIG. 1 the powder compact and the damming are introduced separately into the combustion chamber, is shown in FIG. 2 the damming is formed by the walls 21 of the cartridge case 22 . The loading process prior to the insertion of the combustion chamber into the borehole can be simplified in this way because the compact is completely cartridged in the cartridge case which contains the primer. The cartridge case can be made in a known manner from cardboard and brass rear part with primer cap or from brass or other metal or entirely from plastic.

The present invention is by no means restricted to the type of hammer ignition described; it can e.g. B. a spring force ignition can also be used. The composition of the propellant or powder is only linked to the condition that the damming and the resulting gas pressure do not shatter or damage the combustion chamber prior to the breakthrough of the damming, which would render it unusable, while on the other hand the resulting gas pressure quickly clears the space between the combustion chamber and must fill the borehole that gas losses are delayed by blowing out of the borehole, which additionally z. B. can be achieved by labyrinth-like devices on the combustion chamber. When using the invention in pits you can, for. B. galatinized chlorate powder, e.g. B. Cheddite, use, which have a positive oxygen balance and can be ignited cheaply in the manner disclosed, so that the explosion comes close to a propellant similar. Mix pressed items are ideally suited for surface breaks. B. from nitrocellulose-nitroglycerin, as they are used for rocket propulsion.

Claims (2)

Claims: 1. Gas pressure explosive cartridge with mechanically operated Ignition and compressed gas generating charge, especially for breaking large pieces of Coarse blocks in quarries, road construction and mining, and for making excavated material in grown soil, d u r c h e -k e n n n z e i c h n e t that as a pressure gas generator Charge a jacketed propellant that is pierced lengthways and has a high burning rate, preferably a coated pole powder compact, directly into the blow-out head of a Gas pressure explosive cartridge is housed, with the casing of the propellant charge after Kind of a bursting disc which closes the blow-out holes and this in itself is known Way only suddenly releases at a certain pressure, and that the blow-out head backwards through a mechanically actuatable cartridge receiving closure part is sealed gas-tight. 2. Gas pressure explosive cartridge according to claim 1, characterized in that that the casing of the propellant charge wholly or partially made of cardboard or plastic consists. Documents considered: German Auslegeschrift No. 1047 092; USA: Patent No. 3,008,411.