DE1036139B - Heating mass to initiate the thermal decomposition of non-detonating safety explosive charges - Google Patents

Description

Heating mass to initiate the thermal decomposition of non-detonating Safety explosive charges The patent specification 953 506 relates to a heating mass for Initiation of thermal decomposition of non-detonating safety explosive charges, with an electrical ignition element and the heating mass enclosed in a container consisting of a fireproof cardboard cylinder that passes through at one end a wooden plug is closed, through which the two lead wires of the electrical Ignition head are passed and the other end is closed by a cork which is ejected when a slight overpressure occurs after ignition with the indicator that the heating mass consists of 45.0 to 66.0 percent by weight of guanidine nitrate, 27.0 to 45.0 percent by weight potassium persulfate, 6.0 to 10.0 percent by weight cuprous chloride and consists of 0 to 1 percent by weight petroleum jelly.

It has now been found that with such heating masses further advantageous improvements by changing their composition in the following `Travel can be achieved, which forms the subject of the present invention.

As in the main patent, these are also heating devices, which are particularly suitable for explosive devices of the type in which a pressure-resistant Container contains an explosive charge, which is in dusty or firedamp conditions Mines can be applied and which are a self sustaining gas generating Undergoes thermal decomposition without flame formation when heated locally. The container consists of a metal tube that is closed at one end or is provided with a gas-tight closure and at the other end with a blow-out head is provided, which is separated from the container by a yielding fragment is which bursts at a predetermined pressure. The container is still Equipped with electrical contacts through which a heating device is actuated can be.

In an explosive device of this type, the explosive effect is thereby caused that the gases occurring during the implementation through the openings of the Blow out head into the borehole when the pressure inside the container Has increased so much that the break disk or the like bursts and thus an open one Connection between the container and the blow head has been created. the Time required for the gases to escape from the container into the blow head and through the openings of the same into the borehole after the rupture disk has burst elapses is sufficient to produce a relatively gentle explosive effect, as desired for certain purposes, for example for the production of lump charcoal is. In the case of explosive devices of the type indicated, the charge usually consists of an essentially equimolecular mixture of sodium nitrite and ammonium chloride, which is stabilized with an alkali such as magnesium oxide or sodium carbonate which material is present in an amount up to about 3 percent by weight. If such a substance is heated locally, it decomposes without detonating and without flame formation, the decomposition being self-sustaining, namely with formation of sodium chloride, nitrogen and water vapor. If this mass once has been ignited by local heating of the heating device, so occur constantly increasing pressures in the explosive device, and the decomposition will this accelerates it considerably, and the gases occur immediately afterwards without developing a flame off, so that there is no danger of ignition during blasting work using such a charge occurs in firedamp or dusty coal mines.

In general, this charge is decomposed by applying a small to ignite electrically Black powder ignition pill initiated, which is used as a heating device. Such an application of a black powder ignition pill is possible because although a black powder igniter forms a flame, the length of time which in the decomposition of the stabilized mixture of sodium nitrite and ammonium chloride elapses to build up pressure sufficient to break the rupture disc to destroy is long enough so that the particles of the electrically ignited powder detonator burned off before the breakage disc bursts. Although this type of explosive device using an electrically ignited black powder ignition pill as a heating device Used extensively in firedamp and dusty mines, it is With the type of heating device used here, the explosive device is necessary to charge over days. This brings with it certain inconveniences, for example a considerable loss of time occurs when the tubular container is open for days must be brought to be reloaded after each shot. The usage an electrically ignited black powder fuse as a heating device for explosive devices of the kind mentioned also has certain other disadvantages.

It has been found that these disadvantages can be countered by that as a safety heater, an electrical ignition element and a heating mass is used, which consists of 0 to 35 percent by weight of ammonium, sodium or potassium nitrate, There is 20 to 70 percent by weight of guanidine nitrate, the total amount of nitrate compounds 55 to 70 percent by weight, and further 25 to 45 percent by weight ammonium persulfate and 0.5 to 10 percent by weight cuprous chloride and this mass in a container is included.

In accordance with the present invention is a safety heater to ignite the thermal decomposition of a non-detonating safety explosive charge, in which an electrical ignition element and a heating mass are enclosed in a container are, characterized in that the heating mass consists of 0 to 35 percent by weight of ammonium, Sodium or potassium nitrate, 20 to 70 percent by weight guanidine nitrate, with the Total amount of nitrate compounds is 55 to 70 percent by weight, 25 to 45 percent by weight Ammonium persulfate and 0.5 to 10 percent by weight cuprous chloride and where this container is suitable for the ignition of this heating mass Let off gas.

The electrical ignition element can be in the form of a wire, which is heated by an electric current, either alone or in connection with a small amount of a primer, for example in the form an electric ignition head is present. One using a low voltage The electric ignition head to be ignited is preferred because this makes it possible is to carry out the ignition by a manual ignition switchgear, as it is for coal pits are allowed, which is not the case if the ignition is by a heating wire done alone.

The invention also relates to the heating mass as such, which consists of 0 up to 35 percent by weight ammonium, sodium or potassium nitrate, 20 to 70 percent by weight Guanidine nitrate, the total amount of nitrate compounds from 55 to 70 percent by weight makes up 25 to 45 weight percent ammonium persulfate and 0.5 to 10 weight percent Cuprous chloride is made. If desired, the heating masses according to the invention also up to 3 percent by weight of an organic fuel other than guanidine nitrate and preferably up to about 1% by weight of the composition may contain an organic Material of a greasy character, such as castor oil, linseed oil. Vaseline and the like

These ignition masses according to the invention do not cause an ignition Methane-air mixture, which contains 9 percent by volume methane when decomposed such masses is introduced into such a mixture.

The electrical ignition element of the safety heating device according to the invention can for example consist of a safety igniter as described in British patent specification 430750.

The container is preferably made of a non-burning and non-smoldering material such as sheet metal or fireproof cardboard but can also consist of combustible materials, provided that the combustion the same cannot be ignited by the heating mass. This container should have a loosely fitting closure, which by a slight increase in pressure can be opened in the container, but this pressure is not yet sufficient, to destroy the break disk or the like. In a preferred embodiment According to the invention, the containers for the heating elements consist of a fireproof cardboard cylinder, which is closed at one end by a wooden stopper. through the the two lead wires are passed through, which lead to an electric ignition head lead that is ignited by a low voltage. The other end of the container is closed by a cork which, after ignition, occurs when a minor Excess pressure is blown out.

The safety heating elements according to the invention can be used for explosive devices of the kind mentioned are used where the main charge is of some mass which, when heated locally, occurs without flame development Find out exothermic gas-generating conversion, as they are generally used. In However, such elements can be particularly advantageously in connection with Use main charges, which assume a pressure above atmospheric, in order to to be able to set the implementation in motion. Suitable main charges consist of ammonium chloride-sodium nitrite mixtures, Ammonium nitrate masses and those masses based on ammonium nitrate and magnesium nitrate hexahydrate or aluminum nitrate nonahydrate.

The amount of masses according to the invention contained in the safety heating elements used in explosive devices of the type mentioned can be from 1 g upwards and this mass is preferably present in an amount of 5 to 120 g. The delay time between ignition and breakage of the cutting wheel naturally depends on the amount applied. For example, if a Breaking disc made of steel of 2.8 mm thickness is provided and the main charge is made 380 g of an equimolecular mixture of ammonium chloride and sodium nitrite consists, which contains 1.5 percent by weight of magnesium oxide and a heating charge is used, which consists of 35 percent by weight ammonium persulfate, 61.5 percent by weight guanidine nitrate, 2.5 percent by weight cuprous chloride, 0.5 percent by weight castor oil and 0.5 percent by weight kaolin the disc breaks after 35, 30, 15, 9, 3 and 2 seconds ignition takes place when the weight of the heating charge is 1, 5, 10, 20, 40 and 120 g.

The safety heating elements according to the invention can also for not detonating charges of the kind used «-erden. which are suitable for a to experience self sustaining flameless gas generating thermal decomposition and those for blasting in boreholes in conjunction with other devices than those described can be used.

The invention is illustrated in the following examples in example 1 in conjunction with FIG. 1 of the drawing and in example 2 in conjunction with Figure 2 of the drawing; the devices themselves are schematic in the drawings shown.

Example 1 A pressure-resistant steel container 1 with a cavity of 680 cc and an inner diameter of 31.7 mm, which has a breaking strength of 1890 kg / cin2, is at one end with a firing head 3 and at the other Provide the end with a blow-out head 4. The powder charge 5 consists of 170 g of a Mixture of 49.2 g of magnesium nitrate hexahydrate, 38.81 / o ammonium nitrate and 12.011 / o Wood flour. This charge is in a waxed paper envelope 6 with a Weight of 20g, which has an outer diameter of 22.2 mm. The charge density inside the tube is 0.25. The electrically operated heating device, which is embedded in the mass 5 consists of a paper container weighing 2 g 7, which contains a low voltage actuated electric ignition head 8, and 20 g of a load 9 of a mixture of 35% ammonium sulfate, 61.511 / o guanidine nitrate, 2.5% cuprous chloride, 0.511 / o kaolin and 0.5 0/11 castor oil.

The time interval between the ignition of the heater and the The bursting of the disk 2 takes about 6 seconds.

Example 2 The pressure-resistant steel container 1 of FIG. 2 contains 320 g of a loose load 10 which consists of an equimolecular mixture of nitrite and ammonium chloride, which has been stabilized by adding 3% magnesium oxide.

The electrically operated heating device consists of a fireproof cardboard cylinder il with a weight of 4 g, which is closed at one end by a wooden plug 12 through which lead wires are passed, which lead to an electric ignition head 8 to be ignited with low voltage and which is at the the other end is closed by a cork 13, which is blown out when a slight overpressure is generated after the ignition of the charge 9, which is present in an amount of 20 g, has taken place and a low pressure has developed.

The composition of cargo 9 consists of 30.5 0/11 ammonium nitrate, Potassium nitrate or sodium nitrate. 40.0% ammonium persulfate, 27.011 / o guanidine nitrate and 2.5% cuprous chloride, being the time interval between ignition of the heater and your breakage of disk 2 is about 5 seconds.

Claims (1)

Claim: heating material for initiating the thermal decomposition of non-detonating safety explosive charges, with an electrical ignition element and the heating material being enclosed in a container which consists of a fireproof cardboard cylinder which is closed at one end by a wooden plug through which the two electrical wires Ignition head are passed and which is closed at the other end by a cork, which is ejected when a slight overpressure occurs after ignition, according to Patent 953 506, characterized in that guanidine nitrate is present in an amount of 20 to 70 percent by weight, the potassium persulfate is replaced by aminonium persulfate in an amount of 25 to 45 percent by weight and the cuprous chloride is present in an amount of 0.5 to 10 percent by weight, with ammonium, sodium or potassium nitrate also being present in an amount of 0 to 35 percent by weight and the total amount of ? VTitr aten is 55 to 70 percent by weight.