DE974669C - Method and device for the extraction of coal and other minerals - Google Patents

Description

Method and device for the extraction of coal and other minerals It is known in the striking longwall mining of flat seams, the coal in floating Cut down or alternately dismantle in floating and falling cut and at the same time to introduce the offset in front of the head.

It is also known that on part of the length of the face adjacent to each other, Funding designed as conveyor chutes with the exchange of individual chutes to be extended according to the progress of mining and at the same time to the progress of the offset to be shortened accordingly. The slides end with the face and take over or hand over the conveyed goods to transfer points at the end of the strut. The low efficiency the slides as well as their cumbersome and time-consuming turning make a profitable one Mechanization of the mining is not to. The respective handover is also disadvantageous of the conveyed goods to the aspiring to another means of conveyance. To hand over the To avoid coal striving to another funding, it is known to be a Curved apron conveyor in circular conveying for continuous conveying in longwall and route to use. With this infinite band that runs all the way through However, it is not easily possible to convey coal and backfill at the same time, if the offset is to be introduced in front of the head. It is finally known for route funding independent conveyor elements that can be transported via a frame, in particular Belt sections to be used, which are driven by individual intermediate drives.

The present invention relates to an improved method for the extraction of coal or other minerals from a longwall with a floating or alternating floating and falling cutting with simultaneous introduction of the front head the offset and introduction of the expansion within the extraction layer, wherein the funds running side by side on part of the face length Replacement of individual links are continuously extended or shortened, at which the previous disadvantages are largely eliminated. Your basic idea is that to promote the minerals and the offset in the Line conveyor known independent forward and backward movable conveyor elements be used, which are moved over such frames, in which head turns are arranged one above the other in the face and back and forth, at least in the face, taking the minerals from the face to any point outside the same as the promotion of the offset to the longwall without transfer points on the striving goes on, and the length of the funding by entry or Removal of parts of the frame and any intermediate drives installed there is changed, while the actual conveying elements themselves are not expanded and be turned over. The conveyor elements should preferably be made of known, for independent sections of a space-moving one, moved by intermediate drives Conveyor belt consist either on a single contiguous or on two separate mobile scaffolds are moved, their number depending on the conveying path and the delivery rate.

As already stated, the use of the funding is according to the Invention possible with two dismantling variants, depending on the given circumstances. at low collapse of the longwall, where a falling cut with mechanical absorption it is still possible to transport the coal from the lying position and in a floating direction, the direction of prevention can alternate between floating and falling. That changes the direction of displacement also changes in each case. So with a hovering carving the coal conveyed away through the lower section, the offset through the upper section fed. With falling cut it is the other way round. Naturally, each time changes the conveying direction. The coal delivery point and the recovery point are in in this case, in a further embodiment of the invention, expediently directly next to one another. With stronger collapse of the strut, where a slap in the direction of fall on the described Way is not feasible and can only be spanked in suspense, remains the Direction of conveyance always the same.

The coal is then only transported through the lower section, the supply of the offset only through the upper section in front of you. Coal dump and the recovery point do not need to be next to each other in this case.

Since the performance of the conveyor system is adapted to all requirements can be, this is a profitable mechanization of the extraction process and to achieve a significant increase in performance. Such a mechanical extraction can preferably take place where the mining is with changing Cutting is being operated and it is not necessary to use the To bring extraction equipment in a cumbersome manner from the upper to the lower route. If, on the other hand, the slashing is only carried out in a floating manner, the coal is expediently made by shooting won in, whereby the boreholes are created by painting and the shot Coal comes in floating. In this degradation method, a Detachable dams made of iron plates are used, the rest of the Longwall area shields from shooting and at the same time for temporary bunkering Serves the falling coal. This shooting dam will be based on the progress of the excavation advanced and, after reaching the upper stretch, disassembled and placed on a conveyor element returned to the lower stretch, where it will be used again for the next extraction phase is put together.

Further training can be carried out for the removal of the coal that has been extracted According to the invention, the mobile scaffold for the conveying elements is a short conveyor be connected upstream, which picks up the coal from the lying and on the conveyor elements gives up in the coal field. The short funding, which with the progressive cutting advances, engages in a manner known per se with its rear part a certain amount beyond the strut-side head turn of the rolling tower. To this The cutting can progress until an extension of the scaffolding is necessary will. The short-term funding from the advancing extraction device or be pulled forward from the shooting dam.

The expansion is immediately following the progressive cutting transferred from the offset field into the coal field or, in the case of wood construction, into the respective The charred field was reintroduced. You can use an offset centrifuge instead of an offset spinner blowing nozzles can also be connected to the mobile scaffolding in a manner known per se, that the mountains directly from the tape sections or indirectly after delivery in a pipe, or on a stage. The like. Be blown from there.

The figures give a schematic representation of the process and the device according to the invention in the various variants with independent Sections of a moving conveyor belt. The figures show in detail: Fig. Z shows the plan of a mining operation with alternating cutting and alternating Direction of conveyance with two separate mobile scaffolding, Fig. 2 the situation in the longwall the shifting change, Fig. 3 and q. two phases in loading the consecutive Belt sections in the longwall through the advancing short conveyor, Fig. 5 the situation at the coal tipping point and the mountain loading point with separate headframes, Fig. 6 the coal tipping point and mountain loading point if there is only one connected headframe, 7 shows the floor plan of a mining operation with the direction of prevention remaining the same. Of the Belt section arriving in the lower run of the rolling tower i and moved by intermediate drives 2 3 is pushed over the head turn 4 into the upper run and slowly continues there loaded with coal by the short conveyor 5. After loading has been completed, the Belt section with increased speed over the longwall curve 6 in the headframe i through the lower section U to the coal tipping point 7, where the coal is present from two separate conveyor frames (Fig. i and 5) overhead into a coal bunker 8 is tipped. The belt section 3, the speed of which during the Unloading not reduced, returns empty into the longwall in the lower run.

While this section of the belt is being loaded with coal in the longwall, it pushes Another band section 3a is located immediately behind the former and is attached to them then loaded with coal without interrupting the charging process (Fig. 3 and 4).

In the second, strut from the other through the upper route 0 leading, identically designed conveyor frame 9, in which currently (Fig. i) Offset is promoted, the one coming from the offset field in the longwall travels in the lower run empty tape section io over the head turn ix into the upper strand, where it comes out of the mountain bunker 12 is loaded with mountains via a swivel chute 13 (FIG. 5). After He drives the recovery task in the upper run of the scaffolding 9 back into the longwall, where he has the Mountains over a head turn 21 in an offset sling 14 emits to then drive back to the mountain loading point in the lower run.

On the ones lying close together in an accompanying stretch, not on the strut side Switches 15 are attached to the ends of the conveyor frames, over which belt sections are made one scaffold can be moved into the other scaffold. That way you can the constantly changing conveyor lengths in the coal and offset field are compensated.

If the conveyor system becomes longer, further conveyor sections can be added installed in any number with the corresponding additional intermediate drives will.

There is only one mobile scaffold, which is at the coal tipping point and the mountain loading point is not interrupted, the coal is at the dumping point not tilted overhead, but laterally into the coal bunker 8 a (Fig. 6). Comes the coal from the longwall through the lower section U, this is in the area of the tipping point The upper run of the headframe, which can be raised on one side as required, is raised at point 16, whereby the coal falls to the side, and immediately afterwards turns back to the horizontal, so that from the mountain bunker i2a over the swivel chute 13a at point 17 the mountains on those traveling on at undiminished speed in the same direction of travel Tape section can be abandoned.

This belt section now travels through the upper section 0 into the Strive where he gives up the mountains in the manner described. Then he leads in the lower run back through the other strut into the coal field, where it is again loaded with coal will. Changes the direction of displacement and thus also the direction of conveyance of the belt sections, so the coal now conveyed through the upper route is replaced by the corresponding Lifting of the rolling tower at point 18 tilted, the mountains abandoned at point i9. In this way, the coal tipping points as well as the mountain loading points for both conveying directions are so close together that the coal in a common Wendel od. The like. Tilted, the mountains are abandoned from a common bunker can.

Has the cutting progressed so far that the extraction device 2o has reached the reversal 4 with early short funding means 5 (Fig. 4), so the conveyance in the coal field and in the backfill field is stopped. The head turns 4 and 21 in both fields are each with the drive assigned to it, the head turn 21 in the offset field to do this with the spinner 22 after the tape sections from the Area of the turns have been driven back, separated from the rest of the rolling tower. Then a part corresponding to the cutting progress is made from the part in the offset field The scaffolding that had been laid was removed, brought to the coal field and, after that, there Sweep 4 and drive have been advanced by a corresponding amount in the direction of prevention is built into the resulting gap. At the same time, the one in the offset field will be Turn 21: along with drive and offset sling 22 reset and with the rest Scaffolding connected again. Moving forward or backward on the hairpin bends is expedient through the drives connected to these themselves by means of the expansion or rolling tower attached ropes. Intermediate drives 24 located in the frame on the offset side, for example are also removed in the course of the shortening of the scaffolding, between the punches made it through into the coal field and reinstalled there. The light scaffolding construction Just like the drives, it can be brought into and out of the coal field in a short time be installed again, so that the interruption of the promotion with each extension or shortening of the framework is only of short duration.

While the cut to the upper section 0 is in front of you, a stable 25 is set up there, the width of which corresponds to twice the progress of the dismantling. If the extraction device has reached this stable 25, it is pivoted by 180 ° with the turn 4 together with the drive 23 a and with the short conveyor and is introduced into the stable with the front facing upside down. At the same time, the reversal 21 of the previous offset stand with the offset centrifuge 22 is separated from the rest of the stand and also connected with the opposite front to the previous coal stand in place of the reversal 4. Finally, the curve 26 is separated from the scaffolding 9 in the upper section 0, advanced and connected to the turnaround 4 that is already in the stable. After installing a corresponding extension piece in the scaffolding of the upper section 0, the system is ready to continue dismantling. The displacement now proceeds in the opposite direction (Fig. 2). The coal is conveyed away through the upper section and the offset is fed in through the lower section. In FIGS. I and 2, an extraction device -2o working in front of the head is shown, which, by means of a parabolic disk, is preferred to a rope 27 which is anchored in the section lying in the direction of prevention. Instead, of course, a bz «-. Several mining devices of this type can be used, which are used in the stroking direction and let the coal break in in a floating or falling direction.

If an alternating displacement cannot be carried out, the system according to FIG. 7 can be set up. An accompanying route is unnecessary here, since there is no need to arrange the coal tipping point 28 and the mountain loading point 29 close together. The dam 30 is pulled forward by the required amount in the direction of prevention after filling the boreholes, not shown, for example by a reel located in the upper section by means of a rope 31 , whereby it prefers the short conveyor 5 b which opens into it like a labyrinth. Its bottom can be designed so that it rises obliquely towards the rear, whereby the coal extracted is also fed to the short conveyor. When the firing dam 30 has reached the upper section, it is dismantled and, like the short conveyor 5b, returned to the lower section on a belt section. A stable 32 has now been set up there. The curve 6 b is separated from the rest of the scaffolding and moved forward into the stable 32 with the installation of a corresponding extension piece. The head turn 4b that has been brought back from the upper route is now connected to the end of the curve in the stable 32 and the firing dam 3o is also brought into the stable 32 with the short conveyor 5b. At the same time, the curve 26 b in the upper section is separated from the scaffold gb located there, advanced by the amount of the mining progress and connected to the part of the scaffold previously used for coal extraction and laid in the longwall, while installing a corresponding extension piece in the track scaffold gb.

After the sling 22a with the head turn 2i a on a tape section to the lower route and to the end there of the part of the scaffolding laid in the longwall has been connected, dismantling can be continued.

In this arrangement, it is useful in the upper and in the lower Route one connected to the rest of the framework i b by switches 33 and 33 a Alternative scaffolding 34 and 34a, each with a reserve strap section (not shown) to attach. These reserve belt sections can be adjusted according to the changing conveyor length used or withdrawn from operation «> earth.

For claims 2 to 12 patent protection is only given in context desired with the procedure according to the main claim.

Claims (12)

PATENT CLAIMS: i. Method of mining coal or other Minerals from a strut with floating or alternating floating and falling Preventing with simultaneous introduction of the offset and the introduction of the extension within the extraction layer, being adjacent to one another on part of the length of the face ongoing funding is continuously extended with the exchange of individual links or shortened «earth, characterized in that for the promotion of the mineral as well as nthe task of shifting the minerals independently dense, too rcontinuously approachable, Via frame racks with head turns in the longwall and at least in the longwall superimposed Forward and backward moving conveyor elements in the Used to extract the minerals from the face up to one way any point outside the longwall or the promotion of the offset to the longwall without handover points on the struts and the length of the funding by installing or removing parts of the frame and any intermediate drives, however, the actual conveying elements are not changed. 2. Apparatus for performing the method according to claim i, characterized in that the conveyor elements consist of independent sections (3, 3a, io) of a spatially movable conveyor belt which are moved by intermediate drives (2, 23, 24). 3. Device according to Claim 2, characterized in that the frame racks for the band sections (3, 3a, io) to a single, contiguous, double-fragmented rolling tower (i, g) are connected. 4. Apparatus according to claim 2, characterized in that the frame racks for the band sections (3, 3a, io) are designed as two separate, double-column mobile scaffolds (i b, g b) , the non-strut ends of which are connected to one another by switches (i5) could be. 5. Device according to One of claims to 4, characterized in that the mobile scaffold for the mineral extraction one that extends far beyond his head turn (4) and advances in proportion to the progress of the cut short intermediate conveyor (5), preferably a scraper conveyor, connected upstream is that the minerals with the help of baffles od. The like. Absorb from the lying and continuously on the from the lower run over the head turn (4) in the longwall with slower travel speed in the upper run, adjoining each other Can give up tape sections (3). 6. Device according to one of claims 2 to 5, characterized in that the two closely spaced, not strut-side Head sweeping (ii) of the two rolling towers (i, g) or the drop-off which is not in the longwall and loading point of the single rolling tower over a single tipping point (7) for the minerals and arranged under a common bunker (i2) for the mountains are. 7. Apparatus according to claim 5, characterized in that the intermediate conveying means (5) is preferable from an extraction device (ao). B. contraption according to claim 5 in connection with a firing dam movable in the direction of prevention, characterized in that the short conveyor means (5 b) in a labyrinth-like arrangement protrudes into the firing dam (30) and can be pulled forward from this when advancing. G. Device according to one of Claims 2 to 8, characterized in that the Drives of the mobile scaffolding arranged in the longwall in the area of the reversals are designed in this way are that they themselves together with the reversal, in the offset field if necessary also together with an offset centrifuge (22, 22a) used there, by means of a pull rope or the like. Can move forward or backward by the required amount. lo. contraption according to one of claims 2 to 9, characterized in that in the offset field lying reverse of the scaffold is connected with air nozzles in such a way that the mountains directly from the tape sections or after delivery into a tube or on a special Stage can be blown in from there. 11. Method of operating the device according to one of claims 2 to io with alternating floating and falling movement, characterized in that with the displacement direction alternating with the displacement on the two rolling towers or parts of the common rolling tower in the longwall alternately minerals and mountains are promoted, with the direction of travel each of the band sections reverses. 12. The method according to claim 11, characterized in that in each case, after the displacement has reached the upper or lower route, the extraction device together with the reversals separated from the rest of the mobile scaffolding in the mineral field together with the drive arranged in the area of the reversals and with the short conveyor by 18o ° is pivoted, brought into a prepared stable with the front facing upside down and connected to the curve part of the previous offset frame that has been moved forward in the route with the installation of a corresponding extension piece, while the reverse of the previous offset frame and drive as well as the offset spinner or the blow nozzles are also pivoted by 180 ° and can be connected to the previous mineral headframe with the front facing upside down. Considered publications: German Patent Nos. 225217, 733 963, 741475, 495 709, 495 422, 205 755, 356161; French Patent Nos. 1009 963, 100965 ; . USA. Patent No. 2,305,009; "Glückauf", 1941, p. 589; 1948, p. 342; 1950 p. 776, 1951, p. 241 ff. Older patents considered: German Patent No. 905 724.