DE845465C - Firing method, especially for driving in the mine - Google Patents

Description

Firing method, especially for driving in mining operations When it comes to the firing methods used to propel routes, experts in the field take the view that the drilling work and the use of the not insignificant Amount of explosives is only economically viable if at the same time the mountains can be obtained over a large length within the planned cross-section of the route can. At first it was believed to enable the acquisition of large tees having to shoot a core, the so-called break-in, out of the upcoming mountains, so that the wreath shots to be dismissed later would not remain ineffective. Already shooting out a perfect break-in is usually very difficult. They also tried to win the entire big discount without a previous slump on the whole. The boreholes were set up in parallel in the most appropriate distribution and the strong explosive charges brought into the boreholes were disposed of at the same time. This process was also unsatisfactory because of the high expenditure of time and material, especially since the desired success did not usually materialize. Time-graded shooting was also used. Here, however, there is the serious disadvantage that a shot is the specification of a can tear away the following shot later, so that the explosive cartridge is exposed and in the event of detonation, any firedamp that may be present can ignite. In addition, here the impact cartridge of a neighboring shot are torn away so that the Explosive charge does not detonate. The mutual influence of the individual Shots with timed ignition not only bring safety, but also economical Disadvantages with itself.

The invention has set itself the task of the shooting method Simplify and make it more economical and safer to carry out. According to the invention, a significant advance is achieved in that the Drilling over the entire length of the tee to be extracted in one operation are produced, and that then this total length of the cut in several, smaller, one behind the other partial tees is shot like a disk. Every time a partial tee is won in, the holes that are already there are just reload and fill, and the next partial discount can be shot down will. The strength of the partial cut varies depending on the type of mountain chosen, but in such a way that the partial discount can be achieved with the least amount of explosives comes in over the entire cross-section of the route. Tests carried out in practice have shown that, viewed as a whole, with regard to working hours and operational of material and, at the same time, the saving of explosives significantly improves results can be achieved than with the usual known methods.

A particularly advantageous development of the method according to Invention is that in each borehole several at a distance of the partial cuts Explosive cartridges dammed against each other are inserted, from which the cartridges for the lower discount compared to the cartridges of the preceding discount are provided with a delay rate, and that all cartridges of all partial reductions be ignited at the same time. Here, the total length of the tee is dense in time successive intervals. By igniting all of them at the same time Explosive charges will be prevented as a result of the shooting of the previous one Partial damage to the ignition cable that has occurred, individual shots fail. Due to the planned delay in the detonation of the lower positioned cartridges, and specifically with regard to the ignition, the shooting out of the lower-lying one Partial discount not hindered.

To increase the security for the successive occurrence of the individual partial reductions, it is also proposed to store the cartridges within the borehole in a closed or in a slotted sleeve, the ends of the slotted sleeve either abutting or loosely overlapping. At the same time, the damming is created by means of a material that prevents the initial ignition of an explosive charge on the one behind it. Granulated agents or glass or steel wool are particularly suitable for this, since these agents break the dynamic waves. By fitting the insulation material in the slotted sleeve this widened and firmly against the borehole wall pressed Nverden. This also results the advantage that the charging station is already finished can be done and in an easy way with large time savings pushed into the borehole will. The sleeve can be made of cardboard, thin sheet metal or also made of pressed material (z. B. Bakelite) be: A comparison of the method according to the invention with the widely used time fuse shooting shows that in the latter process for a total a length of z @ lei meters ten time steps were necessary while lle # i your new procedure the total length in z \ lei disk-like parts a4- beats of one mctcr length each were recovered and is dismissed with only one time step, wol, ei dei: first disc-like -feilabschlag jcll, cils , Moment detonator receives. 1: s results in a Saving of nine time steps. In the drawing the procedure is on one Example execution example. Fig. I is a longitudinal section through the to be produced Route; Fig.2 shows in the (.) Tiei-section the arrangement of the Drilling. For the production of the drill holes are not shown in the drawing device uses, with which all or at least several of the required holes can be produced in one operation. The drill holes t are made parallel to one another planned on an ongoing basis. The depth of the holes is speaking of the total length x of the measure the discount. According to the proposal of the invention this Total length x now in partial sections on # 2 .- divides, with three parts in the embodiment. Sections of lengths t # i, y = and y3 are preceded by cn are. In each of the drill holes t are corresponding the number of sections three explosive charges 2, 2a and 2b arranged so that they are about ain The reason for each partial discount. Of the Space between the explosive charges with dilution material made of glass or steel want to be filled in, as well as the space between the Borehole mouth 3 and the jc @ leils first explosive charge 2. The explosive charges = 11 and 21 'are loaded associated with delay sentences, in such a way that LJ is equal to early ignition of all explosive charges Shoot out the next following partial discount slightly compared to the previous one done later. The ignition device for the Cartridges are not shown as they are actually is known. After the total discount is won and the loose rock by means of a known one Machine or by hand, it can if necessary, post-processing of the route turns take place, @ lähi-ciid at the same time the Drill for the hci-placesiiig cler holes for dcii next total discount must be applied. In the embodiment of the drawing are the partial discounts are counted equally. I #: s is but it is also conceivable to provide a differently strong dimensioning.

Claims (3)

PATENT CLAIMS: i. Shooting method, in particular for driving the road in mining operations, characterized in that the bores (i) are made over the total length (x) of the cut to be won and that this total length of the cut is then made in several smaller, successive partial cuts (y1, y '=, y : i ) is shot down like a disk. 2. Shooting procedure after Claim i, characterized in that in each borehole (i) several at a distance of the subsections mutually dammed explosive cartridges (2, 2a, 2b) are stored of which the cartridges for the deeper discounts compared to the Cartridges of the upstream tees are provided with delay rates, and that all explosive charges of all partial strikes are detonated at the same time. 3. Shooting procedure according to claim 1 or 2, characterized in that the cartridges are inserted into one in the borehole introduced closed or slotted sleeve are inserted and that with slotted Sleeves widened the sleeve by pressing in the damming material and against it the borehole wall is pressed. -..1. Shooting method according to claim 2 or, 3, characterized in that da13 acts as a damming material between the one behind the other arranged cartridges granulated means, but preferably glass or steel wool be used.