DE1646367C - Method of damaging and, if necessary, simultaneous loading of boreholes - Google Patents

Description

The invention relates to a method for damaging and optionally simultaneous loading of Boreholes of different sizes with the help of elastic, liquid-filled, closed, tubular Sleeves, with an opening at one end for the liquid supply line.

It is known that when performing blasting work to crush a rock or a mass of usable mineral resources in this boreholes of different sizes are drilled into which explosives are introduced which occupies the local part of the boreholes. As it is known from the implementation of tactical tests of drilling and blasting work, the part of the borehole not occupied by the cargo is filled with a damming material in order to increase the mining efficiency. The dam can consist of plastic, granular (granulated), dusty and liquid substances.

Damming plays a particularly important role in the mining of coal and rocks by blasting in shafts that are at risk from methane or coal dust content, since in this case the damming is intended to ensure the creation of a protective means through which contact between firedamp or coal dust from the surrounding area is created with the products of the explosives detonation is to be prevented.

Sand, gravel and other granular materials can be used in the RcjkcI to dam boreholes of different sizes in open-cast mining. Loam or loam-sand niches are widely used for internal dams in coal shafts. Due to their plasticity, these substances meet the requirements made in practice.

Under these conditions, however, it is practically impossible to test the goodness of damnation and its im The effective length of the borehole must be checked, which will help to ensure that the blasting work is carried out Increase dangers. It should be noted that the production and delivery of clay existing loading plug, especially for underground work is quite laborious.

Attempts have been made to overcome these difficulties and disadvantages by using water to be damned to eliminate there. as it has been proven in practice. Water is more suitable for this purpose Sioff is.

When water is used as a condemnation

known for a long time, but so far only occurred in downward-facing ones Boreholes, especially when bringing down Min mine shafts. With horizontal and upward-facing boreholes were, until recently, used to contain water as a result of the implementation of the same difficulties encountered is not used. Only with development polymer chemistry ν made it possible. Water dams to be used in horizontal and upward drilling holes.

The damming of boreholes using envelopes previously filled with water (water cartridges), the diameter of which is slightly smaller than that of the borehole, so that it can enter it unhindered can be used is known.

Such covers are M) up to 40 cm ins and closed at one end. The casings are filled with water before being inserted into the borehole, after which their open find is tied. Later, closed tubular casings with a built-in check valve were used.

The use of such casings has proven to be inexpedient due to frequent puncturing and tearing when the water-filled casings are being introduced into the borehole. It is also impossible to ensure a tight contact between the casings and the borehole walls due to the small diameter. The consequence of this is that it often happened that the water-filled casings were ejected from the borehole during the blast. It has also been proposed to provide the water-filled casings with plastic expansion devices in order to hold them in place in the borehole. Attempts have also been made to retain the water-filled casings in the borehole by giving them a shape curved in one or two planes. Practical experience has shown that this is useful, but that it makes it more difficult to insert the casings into the borehole. It has also been proposed to introduce chemical reactants into the casing which, when interacting with water, excrete gases which inflate the casing in the borehole. The gas bubble present in this case, however, interrupts compact water insulation.

There is also known a damnation in which ela-

Static, unilaterally closed hoses are used, which are inserted into the drilled cavities and filled with water. The other end of these hoses is closed after filling with water.

bound. The obvious advantage of this method is the proximity of the end at which the opening is located

is in the goal of a tight, located in its entirety for the liquid supply line, before the insertion

Longitudinal uninterrupted dam of mine with zen der Hü'le "in the borehole on the outer part of the same

Explosives filled borehole. since the hose is formed into a lall.

diameter larger than the Bohrlochdiirdinicsser sie- .i The process according to the requirements you can * can be preselected. In this procedure, _{cs jL} - partiufrt 'effect that ease of use. It is necessary, however, to measure the length of the drilling hole, which is not filled with a good operational safety, safety, and g-tofl, because a high level of performance is achieved in the execution of the umbrellas according to the required length. 'en. its one end abzuni: · .ίοη. In the drawing, several Ausfühnmgsbd-Bohrii'L are to be inserted. The connection piece is shown at the open game of the subject of the invention. To connect the hose end, the hose nm what / unites

«He 7V. fill and close the open end. infolec F i and I the overall view of the workload according to the invention, die-e and the er-ni. In the case of loading and damming of boreholes undernumbered in operations, the described method of different sizes and filling with liquid found no industrial use, see envelope,

1 s uurde also proposed, m an elastic F \ g. 2 the outside position of the empty hat and

HiiiL · located SprengMott / ti veiweviden. where the explosives *., according to e: m first embodiment

this cr; n an elastic tube with a tTÖHerem beNpi'el. at which the aerosol was previously added to the

Puu :: iicsser is used. I, nc such inserted 20 borehole introduced and the 1 HiHe only for FIiK-

La.i ■■ "■! Was used together with the S. hl.iiich ms Bohr siirkeitsverdämmung.

Iodine inserted. Then the mentioned ~ F i e. 3 the opposite position of the one with liquid

Ski Ί filled with water and its open end closed- «..filled casing and the explosives in the borehole

eebi: .n näß lie 2 in filled with warmth and \ er

B iijsem process that simultaneously ··, I aden 25 insulated state.

with: · Borehole insulation w> r leht. it is for F 1 and 4 a different example of the case of the envelope

sch'.v, - (especially if the hole depth is significant). "Measured Fig. 1. in which the explosives before the

the: stischen tube together with tier l.adunii inserting the cover into the borehole with the cover

to .π-- to push in full tiete In addition, it is united in a unified whole, nic'n: ^! 'concluded that the hose he: m! leniein- 30 F i g. ^s the mutual position of the shell and the

sam .. Insertion with the Laduni: into the borehole of explosives in the Bohiloch after it has been filled with

Wan .: Origins is pierced by the liquid according to FIG. 4 designed unit.

I), - The aim of the present invention is this. F i g. 6 another embodiment of the with

the--; Fix cons. "The explosives connected to a unit and I) .- invention lies; verse the output / uurround under 35 with an elastic pressure ring on the inner part.

Referring to the described status - the hene shell.

Tec'iii.k a method of damnation and given- F i g. 7 the mutual position of the in F 1 g. 6 dargenenfails "Subdivided into the simultaneous loading of boreholes, merged into a unit with the explosives Size with the help of elastic, most fluid envelope after filling with fluid more filled. Resolved, tubular casings with 40 units placed in the * borehole, an opening at one end for the Fi g. 8 the individual parts of the elastic cover. To create liquid feed, with which it enables. 9 from FIG. 8 visible parts of the light, the damaging directly in the borehole is made of elastic casing as a finished product, lead, an introduction of the casing into the borehole without Fig. 10 the elastic casing as a finished product To enable damage to the same in such a way that 45 with the elastic ring on the sleeve inner part. the water dam dense and uninterrupted The present method of damnation and is; an eruption of detonation products if boreholes are loaded at the same time To make blasting impossible, a manufaturable different size is made with the help of an elastic right and relatively low manufacturing see, liquid fillable, tubular casing price to ensure the elastic sheaths and 50 performed (Fig. 1), which closed at one end There is a reduction in the workload at the verge and at the other end there is an opening 1 for the dams and optionally simultaneous charging to the processing of the liquid by means of an inserted therein achieve and as simple as possible removal of the double-walled inlet nozzle 2, whose To enable insulation if a load is located between the two outer walls says has to be eliminated. 55 space communicates with space 3 of the envelope. The object is achieved in that the end of the entry lock protruding into space 3 Part of the empty shell, starting with the nozzle 2, serves as a check valve, since this end the opposite end of the opening, in the other when the envelope is filled by the liquid together-part, is preferably pressed and closed to the middle of the entire amount of hull, so that no length of river pushed in, the inserted shell part 60 fluid can flow out of the shell, if necessary filled with explosives, the case in When using the case after a first in pushed the borehole and then fluid into the FIG. 2 and 3 illustrated embodiment, Envelope pumped until the inserted part of the envelope, according to which the explosive is initially in itself or is partially turned inside out again. It is advantageous to introduce the borehole and the casing only as if the liquid seal inserted and used by the explosive 65 is used, it is free Shell part in the vicinity of its open end closed part (FIG. 2) of the empty shell from that of the is contracted. Opening 1 opposite side into the other It is advantageous if on the circumference of the envelope in part S of this envelope, preferably up to the middle of the

The entire length of the envelope is inserted so that it forms an inserted envelope part 4. To the so collapsed envelope when inserted into the borehole in which the explosive 7 is located, its Ignition line 8 beginning at a detonator 9 is led out of the borehole, a certain amount To achieve rigidity, the sheath is rolled up about its axis.

A certain distance is maintained between the shell and the explosive, which is approximately equal to that Length of the inserted part 4 is.

When pressing in liquid, for example with the help of a hand pump (not shown) over the inlet nozzle 2 in the shell is the inserted part 4 by the liquid pressure up to Apply to the explosive 7 partially or completely - depending on the distance between the shell in the collapsed state and this explosive - turned inside out again. This way it becomes like this Fig. 3 can be seen, one over the entire length of the borehole extending, tight, uninterrupted, hydraulic dam of the explosive 7 created. The borehole mouth can be smeared with clay 10 will.

Since the inlet nozzle 2 is double-walled, and the space between the walls is also out of the Sheath coming liquid fills, can on hand of the protruding from the borehole 6 part of the Inlet port 2 (which is puffed up by the liquid) on the integrity of the dam be closed in the borehole. If liquid flows out of the casing into the borehole 6, this can can easily be determined by feeling the part of the inlet nozzle 2 protruding from the borehole. This enables a visual inspection to monitor the integrity of the dam.

It should be noted that in FIG. 1 the case is shown only to a limited extent and only as an example Clarification of the description of the method serves as it is practically very difficult without using it of aids to push part of the cover into the other. The following is the elastic Cover, which is collapsed in the aforementioned way and as a finished product for the implementation of the Procedure is used, is described.

For the simultaneous damming and loading of boreholes 6 according to another in FIG. 4 and 5 The illustrated embodiment is inserted into the inserted part 4 of the explosive 11. After that the shell, which forms a unit together with the explosive 11, is shared with the site lying detonator 12 pushed into the borehole 6 in such a way that the ignition line 13 from the Borehole protrudes.

Then liquid is pumped into the shell, which serves as a dam and surrounds the explosive II, creating an increased risk for the Blasting work is achieved and it is also made possible, not coal dust and firedamp proof To use explosives in an explosive atmosphere. The final location of the liquid-filled The shell and the explosive charge 11 can be seen from FIG.

ίο It is expedient to use the outer part of the cover before inserting the same into the borehole 6, a fold 14 (FIG. 4) is formed to the length of the casing of the To be able to adjust the length of the borehole part not filled with explosives.

According to a further, shown in FIGS. 6 and 7 illustrated embodiment can fill the environment of the explosive 11 can be ensured with liquid that on the inserted inner Part 4 of the envelope near its open end

ao of which an elastic ring IS (Fig. 6) is put on, which allows the explosive to be used in the envelope and which prevents the explosive from being used Eversion of the part 4 pushed out under the pressure of the liquid pumped into the envelope becomes, as di ^ s from F i g. 7 can be seen.

The elastic, tubular sheath which is used to carry out the methods described above is made as follows. In the elastic, tubular part 16 of the sheath (Fig.8) with the Eiiiiiiüsiutzen 2 described above Another elastic sleeve part 17 with a closed end 18 used, which approximately to the middle of the first part of the shell is enough. The open ends 19 and 20 of the outer part 16 and the inserted Shell part 17 are connected to one another airtight, so that the in F i g. 9 shown, finished, elastic, double-walled sheath 21 is obtained. Polyethylene and polyvinyl chloride are expedient used for the manufacture of the sleeves. Here, the parts 16 and 17 of the shell from one or from two blanks, the edges of which are welded together by heating. on in a similar manner the ends 19 and 20 of the parts 16 and 17 of the casing are connected to one another.

When manufacturing the elastic shown in FIG Cover 22 is on the inserted part 17 'of the cover with closed end 18' in the * "ähc the elastic ring 15 placed on its open end. Thereafter, the inserted part 17 'is the

Sheath similar to that already described, in the outeru Part 16 'of the shell inserted and the open ends 19' and 20 'of the inserted part 16' and the outer Part 17 'of the envelope are connected to one another in an airtight manner.

1 sheet of drawings

Claims (2)

Patent claims: 1. Method of damaging and, if necessary, simultaneous. "I Loading of boreholes of different types C -'- '^ lie with the help of elastic, liquid "- chaste. torn, tubular shells, with an opening at one end for the liquid feed. as a result, that the closed part (18) of the empty envelope, starting with that opposite to the opening Find in the other part (16 or 16). preferably WN to the mine of the Uesanites Sleeve length pushed in, the inserted sleeve part (4) possibly with explosives (11) filled, the casing pushed into the borehole and then liquid · pumped into the casing until the inserted Huileii part (17. 17) tan / or part wcMNe is turned inside out again 2 The method according to claim 1, characterized in that that the inserted and explosive (11) free shell part (17, 17 ') in the Near its open end (20) by means of a sliding down of the explosive (11) out of the envelope preventing elastic ring (15) is contracted ?. The method according to claim 1 and 2, characterized in that:! / On the circumference of the casing in the Near that end, rm we! hem is the opening for the liquid supply line inserting the cover into the ', ear hole on Outer part (5) of the same a fold (14) is formed