NL8400276A - Underground chamber roof cavity filling system - inserts empty sack and fills with hardening material - Google Patents

Abstract

The system supports and fills up roof cavities in underground chambers so as to arrest falling rock. An empty sack is inserted in the cavity, and then filled with hardening material. The sack can be brought into the hole above a shield from below, and two-ingredient plastic can be injected into it. It can comprise sheets glued together of low-pressure polyethylene and stretched in different directions. A filler opening and vent holes can be included in it.

Description

5 Ν.0. 32,270 1

Method and device for supporting and filling holes in the ceiling of underground spaces, such as in the underground mine.

The invention relates to a method for obtaining supports and / or fillings of ceiling holes of an underground space in addition to the normal support and to combat falling rock by at least partial filling and closing of the hole.

In underground mining and tunnel construction, it is known to seal holes in the ceiling caused by the outbreak of rock to prevent further rocks from falling from the hole or its immediate surroundings and endangering personnel on site. bring. These situations mainly occur in the pillar of the underground mining industry, just in front of the bald front, in particular in the space between the coal front and the closest support. This situation can also arise when making mine tunnels in rock or when making tunnels in the mountains, when disturbances occur in the rock layers to be towered.

It is known to close such holes by placing wooden parts therein (1m.r Emptying!) And it is not uncommon in this case that holes have to be drilled in order to fix those parts in the walls of the hole. must then be carried out by personnel who are under the hole and are thus constantly exposed to the awareness of rocks that break loose Recent data from German mining indicate that a negligible proportion of accidents caused by falling rocks This is caused by rocks falling from capping holes. Moreover, these activities are difficult and costly and mean an unpleasantly long interruption of production in coal mining.

The object of the invention is now to provide a simple and inexpensive solution to these problems, which removes the hazards for the personnel and considerably reduces the interruption of production.

This object is achieved according to the invention in that an empty bag is introduced into the hole and this bag is filled with a hardening material. This bag inflates into a mold that clamps into the hole while filling with the hardening material. The bag should of course be sufficiently sturdy and the material with which the bag is filled should harden quickly and be light.

8400276

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If plates or shields are used for the support of the ceiling, as is customary today with mechanical extraction with walking pillar support and coal planer, it is preferable to insert a shield from the space below 5. place in the hole partially above the shield. The worker is then fully protected against falling rocks, while placing the light bag above the shield in the hole is effortless. The shield can be lowered slightly to make the hole more accessible. Preferably, a two to ten core plastic is then injected into the bag and immediately inflates the bag.

It is very surprising that such a light foam plastic-filled bag is able to completely suppress the danger of falling rocks.

The bag to be used in the method according to the invention must of course be tear-resistant, impact-resistant and stab-resistant and preferably consists of plastic. A very suitable material for the plastic bag is a film of two layers of low pressure polyethylene bonded together, one layer of which is stretched in a different direction than the other. This material has long been known as packaging material for bags 20 and is marketed by the applicant under the trade name "Valeron".

The bag should have a filling opening and vent holes when two-component foam is used *

Devices for making the two-component foam are of course known. They are also used in the mining industry to fill the spaces between the minidoors made of round wooden rods, which bars are supported on arc profiles. The core components are present in pressurized containers and are applied by means of a mixing gun. One container contains the isocyanate and the other the polyol. Furthermore, a compressed air installation is required to process the components. This known device is too bulky for use in the pillar. After all, the pillar has a height which is mainly determined by the thickness of the coal layer to be mined and this height can be less than 1 m. Compressed air is usually not present in the pipe.

According to the invention, for use of the two-piece foam in the method according to the invention, the mixing gun is now provided with a loosely lost mixing nozzle, which is connected to the gun by means of high-pressure hoses, so that mixing of the components 40 only takes place in the mixing nozzle takes place and is added to each of the components 8400276 3 isocyanate or polyol fluorocarbon filter dust.

Operation is therefore possible in a safe place under the shield. In addition, an air pressure installation is unnecessary.

Preferably, the pressurized containers are placed together in a portable package. This makes the device easy to move.

After the filling of the bag has been completed, the mixing nozzle, possibly with the hoses between the gun and nozzle, is loosened from the gun and remains in the filling opening of the bag as closure 10. So there are no problems with cleaning the gun. In the mixture, an exothermic reaction takes place between the two components, which activates the fluorocarbon contained therein. As a result, foam emerges from the mixing nozzle, similar to shaving foam. The filling of a bag can in this way take place in 15 to 20 seconds and the bag has immediately reached its load-bearing strength.

In this way it is possible to close a hole in the ceiling extremely quickly, whereby it is of no great importance, especially in the pillar of the underground coal mining, whether the bag remains in place when the support rages away. The pillar support, after all, either moves manually or mechanically following the mining of the coal front, and the ceiling is collapsed behind the support, usually after the vacated space has been cleared of temporary struts and filled with rock.

The invention will now be further elucidated with reference to the drawings.

Fig. 1 schematically shows a pillar in underground mining in cross section.

Fig. 2 shows a bag in perspective.

FIG. 3 in section along the line III-III of fig. 2 the bag of fig. 2.

Fig. 4 schematically shows the device for applying the foam.

Fig. 1 shows a pillar 1 in which the coal front is indicated at 2. 35 The ceiling 3 and the floor 4 of the pillar consist of rock, which ceiling can be supported by struts 4 and by shields 5, which, using a hydraulic cylinder 6 from the support jaw 7 can be pressed high against the ceiling 3. This support jaw 7 is movable in the direction of the front 2 and the shields can be moved high and cm-40 low, ie against the ceiling and away from it. The support jaw 8400276 * 4 further carries a hydraulic cylinder 8, which engages the frame 9 of a scraper belt conveyor 10, which frame carries guide tracks 11 and 12 for guiding a coal cutter 13 along the front 2.

Fig. 1 now shows how just before the coal front and at the location of the shield 5 rock has fallen, whereby a hole 14 has been created. Of course, more rocks can fall from this hole.

According to the invention, this hole has now been filled with a plastic bag into which two-component foam is injected, which bag in the filled state is indicated by 15. During the filling with the foam, the bag 10 settles on the uneven edges of the hole 14 and thereby presses any loose stones from a formation formed for instance by slate, while at the bottom, if necessary, the shield 5 is present.

The bag itself is shown in Figs. 2 and 3 and consists of cross-stretched low pressure polyethylene film laminates with a filling opening 16 and vent holes 17 in the corners.

Fig. 4 shows the device for applying the two-core foam / consisting of a nitrogen-pressurized container 18 containing isocyanate to which is added fluorocarbon and a nitrogen-pressurized container 19, which contains polyol which is also fluorocarbon added. Both holders have valves 20 and 21, respectively, and are connected to high-pressure hoses 22 and 23, respectively, to a gun 24. A mixing nozzle 25 is connected to this gun by means of high-pressure hoses 26 and 27. In this mixing nozzle, the gun components can only be matched and there are intensively mixed in that the mixing nozzle is internally provided with guide tracks such as helical ribs, so that foam emerges from the outlet opening of the mixing nozzle. This mixing nozzle can be a simple object made of plastic, the costs of which are negligible. Containers 18 and 19 were collectively placed in a portable package 28.

Fig. 1 makes it clear that to fill the hole 14 the miner under the shield 5 is seated or standing protected from rock and can easily place the empty bag in the hole 14 from there. If he then inserts the mixing nozzle 25 into the opening 16 and actuates the gun after the valves 20 and 21 have previously been opened, the bag will be filled in a very short time and the hole will be closed.

Method and device according to the invention enable a very rapid filling of a hole with a portable device, starting from. can be operated in a safe place, requires no maintenance and does not bring the work-40 man into contact with chemicals.

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The bags can be of any suitable size, for example 1.20 x 1.00 x 0.60 m. Larger or smaller dimensions or elongated bags are also possible. The pocket toe can also be attached side by side in a hole when it is larger than a pocket.

* 8400276

Claims (8)

Method for obtaining supports and / or fillings of ceiling holes of an underground space in addition to the normal support and to combat falling rock by at least partial filling and closing of the hole, characterized in that a hole is provided in the hole. empty bag is brought and this bag is filled with a hardening material. 2. Method as claimed in claim 1, wherein for the support of the ceiling use is made of plates or shields, characterized in that the empty bag is placed from the space under a shield in the hole partly above the shield. Method according to claim 1 or 2, characterized in that a two-component plastic is injected into the bag. 15 4. Bag for use in the method according to claim 1, 2 or 3, characterized in that this bag consists of a tear, impact and stab resistant plastic. Bag according to claim 4, characterized in that the plastic material of the bag consists of at least two bonded layers of low-pressure polyethylene, one of which is stretched in a different direction than the other, Bag according to claim 4 or 5, characterized in that the bag has a filling opening and vent holes. 7. Apparatus for making two-component foams, which device consists of two pressurized containers, one of which contains the isocyanate and the other of the polyol, and which are connected via pressure hoses to a mixing gun, characterized in that for use in the method according to claims 1 to 3, respectively in the bag according to claims 4 to 6, the mixing gun is provided with a loosely lost mixing nozzle, which is connected to the gun by means of high-pressure hoses, so that mixing of the karponents only takes place in the mixing nozzle and that isocyanate or polyol fluorocarbon has been added to each of the karponenten. 8. Device according to claim 7, characterized in that the pressurized containers are placed together in a portable package. 84 _ ***** 8400276