DE144206C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

With the previous method of loading the boreholes with explosives, it was not possible to to meet the following three essential conditions with certainty:

i. To achieve the greatest possible dynamic effect at the moment of the explosion, which can be achieved with the explosive at all,
2. avoid ignition failure;

The three most common types of ignition of the explosive charge are either Fuses with or without primers, or friction fuses with or without Primers, or electric detonators with or without primers, are used.

It is theoretically and practically accepted that the most suitable point of ignition is in the center of the charge. Complete ignition is achieved in the shortest possible time, so that the well-known law according to which the dynamic force of an explosive is inversely proportional to the duration of its complete ignition
is, is best met.

With the three types of ignition mentioned, the ignition is only activated when the fuse is used without primers, for explosives in powder form or for compressed explosives Explosives caused in the middle of the charge, in both cases under very unfavorable conditions. Never

Ignition times, however, this takes place with electrical ignition, with friction ignition with or without Primers and fuse with primer and never plastic or liquid Explosives.

In the majority of cases, therefore, the dynamic force of the mass is minimized Dimension is limited, since the ignition takes place only at the upper end of the explosive charge (Fig. 1). The duration of the perfect Ignition thus requires the greatest amount of time.

It has been said above that the ignition of powdered and compressed explosives is initiated under poor conditions using detonators without primers. As can be seen from Fig. 2, the explosives must be firmly tamped into the hole if you want to achieve the highest explosive effect while utilizing the cargo space. If, however, the fuse is attached to the center point C , there is a risk when the upper part of the charge AC is brought in to destroy the fuse when it is tamped down, which sometimes causes the ignition to fail.

When using compressed explosives there is a risk of destruction of the Detonating cord especially large (Fig. 3), because the one from the middle of the explosives central channel raised fuse must be at its exit from the top of the compressed explosives make a sharp bend. The one lying horizontally here Part of the fuse is the shocks of the loading

Directly exposed to the stick, often destroying it, especially when tamping down should take place properly.

The risk of breakage with electric and friction detonators (Fig. 4) is even greater and more dangerous, because not only the lead wires T, but the primer C itself are endangered by the impact of the ramrod. Through this manipulation even the life of the worker is endangered, since this causes the primer and thus the charge to the. premature ignition .can be brought. For fear of this, some workers do not stamp the load and the load on the load hard enough into the borehole.

That explosions with electric ignition, especially in mines with striking bettors, are used so seldom, is only because the success is often uncertain and there is always the risk of accidents occurring.

If so, and this is particularly important, the ignition of the charge fails and the worker wants to obey the prescriptions, the work of drilling the hole for the cargo is and the latter is also lost, because the worker is then forced to make a new hole. A day-wage worker will do this, but usually not a minded worker, since the same has to pay for the explosives as well as toughness and lightning and of course seeks to save the cost of the failed charge, - why he, the Failure to do so will remove the stocking of the mines, thereby losing his life at the highest endangered.

But also by creating and dismissing a new explosive shot near the If the mine fails, there is an eminent danger because the explosives of the failed mine are often used cannot be ignited by dismantling a secondary mine, but with the primer later, when clearing the material, could explode, even with coal under the Can get boiler firing. Since supervision to prevent this evil is impossible, so is the law powerless against this. This can only happen if the ignition failure is avoided Evil to be met.

The requirements that must be made of a good ignition are therefore the following:

1. The primer must always be secured against the impact of the ramrod.

2. The fuse or the lead wires must be attached to the wall of the borehole Walk along the mine to avoid being hit and destroyed by the ramrod.

3. The ignition must take place in the middle of the explosive.

The new charging process takes into account all of the above conditions. The essence of the invention is that the ignition cable through in the explosives provided, laterally arranged longitudinal grooves is performed. The latter can be used to accommodate the detonator Cavity and connected with transverse grooves arranged on the upper and lower surfaces be.

Such safety explosives are shown in the drawing for different types of ignition, namely shows:

5 shows a charge with an ordinary fuse,

6 shows one with a friction igniter and FIG. 7 shows one with electrical ignition.

8 to 19 represent different explosives body shapes in side and bottom view represent.

The safety explosives, which can have a cylindrical or prismatic shape, are provided with one or more grooves a for the detonating cord or ignition cable. Those explosive bodies, however, which are to receive the detonator or the cartridge, depending on the type of detonation, have a recess which makes contact with one or more grooves and into which the detonator is placed.

The safety explosive body shown in FIGS. 6, 12, 13, 18 and 19 is suitable for friction ignition. The bottom of the borehole or mine (Fig. 6) receiving the charge receives a charge b of explosives in a suitable form. The safety explosive body shown in FIGS. 12, 13 or 18, 19 is brought onto this, the cavity c of which receives the friction igniter d. This friction igniter d is followed by a tube e reaching up to the mouth, through which the thread / which ignites the friction igniter d passes. A layer of explosive g is then tamped onto the described explosive body, whereby, since the detonator d, the tube e and thread / are protected, it is not possible to close the detonator d or the tube e by ramming the trimming h with the ramrod i injure or cause the former to ignite. As you can see, it is possible to place the detonator in the middle of the explosive.

In the case of ignition by means of a detonating cord (FIG. 5), the explosive body shown in FIGS. 10 and 11 is expediently used, one end of which has a central bore which is connected to the one groove α . The tangled and igniting end of the fuse is placed in the hole. Other explosives are placed above and below this explosive device,

which can also have the shape of the body shown in FIGS. 8 and 9. The high part of the fuse lies in the channels α and on the wall of the borehole. If, as shown in Fig. 5, the explosive column consists of nothing but individual explosives, it can be completed before being introduced into the hole by wrapping a cord in the grooves to form a solid package and the detonating cord also by tapes or Ties wires k in the required position.

When using electric ignition

(Fig. 7), the explosive body placed in the middle of the column is given the shape shown in Figs. 14, 15 and 16, 17. This explosive body is provided at one end with a central bore I , which is connected by grooves ρ p with two diametrical grooves aa . These grooves α α are also connected by a groove m . The two ends of the twisted wire η ο leading into the cartridge are placed around the explosive body, lying in the grooves aam pp. The ends of the wires open into the spark wires of the cartridges q. Here, the lead wires can also be led up along the wall of the bore.

Claims (1)

Patent-An saying: Method for loading boreholes with explosives, characterized in that that the ignition line through provided in these bodies, laterally arranged, with one for receiving the Detonator serving cavity connected longitudinal grooves is performed, if necessary may be connected to transverse grooves arranged on the upper and lower surfaces for the purpose of destruction to prevent the ignition cable when crushing the charge or. not to impair the ignition effect. 1 sheet of drawings.