DE469977C - Process for the operation of opencast mines, especially for lignite - Google Patents

Description

Process for the operation of opencast mines, especially for lignite The invention relates to a method for the operation of opencast mines, in particular for the extraction of lignite, and the resulting from this working process Arrangement of tools. For the mining of the overburden one has lately Already several times conveyor bridges have been used with extraction equipment (excavators) for the overburden was provided. There are already conveyor bridges known whose The support on the dump side runs on the planuni of the coal excavator and the coal excavator at that is built into the foot of the bridge. As a result, there is a certain dependency on the extraction equipment is dependent on one another, it has already been suggested, for the extraction of coal To use excavators that are moved independently of the conveyor bridge. Therefore the support of the conveyor bridge in the coal seam had to be a planuni, so it was you need a high excavator to create the planunis and a deep excavator for to use the lower part of the seam, between. which the prop drives. this but gives a comparatively broad plan for the three devices in coal.

This has the disadvantage for the mining industry that, for. B. in winter if the overburden operation is stopped when there is frost, coal can only be extracted until the high excavator has approached the slope of the overburden. The one under the Coal lying on the working surface of the devices cannot then be mined. Around To be able to extract the uncovered coal supply as much as possible, one has the Planuni always laid deep in the coal seam.

This has the following disadvantage. If the bottom of the pit is flooded one, then the deep subgrade comes under water, so that on this standing equipment is endangered and coal production is interrupted.

All these disadvantages are eliminated by the new working method, in which devices known per se are used in a peculiar way. The dismantling the coal is namely effected according to the invention by a swing excavator, which of a Planuni lying in the coal from working in high and low cut. On this one Swing excavator subgrade then runs the foot of the Fördenbrücke, within the Working area of the swing excavator.

The use of the swing excavator has the great advantage that the Free movement of the conveyor bridge is not impaired by this one working device because the swivel excavator only needs to move in its direction of travel with its bucket ladder to be set and is thereby brought out of the driving area of the conveyor bridge, so that the bridge can drive past the swing excavator. can.

The working process is carried out in such a way that in the coal seam first a Planuni through the swing excavator, which works in a known manner manufactured is, and on this subgrade then runs in addition to the swing excavator also a conveyor bridge not connected to it. Both devices are thus completely independent of each other in their way of working. Nevertheless it can The subgrade on which the devices run can be kept narrow, and it results from it a number of other advantages, which are explained below with reference to each The arrangements according to which this procedure is to be implemented are set out.

Fig. I shows a cross-section through the open pit mine with two coal seams, the masses of the intermediate agent being conveyed to the heap by a conveyor bridge will.

Fig. 2 and 3 show different designs of the bridge supports, Fig. 4 and 5 show the track system on the subgrade.

Fig. 6 shows the position of the portal-like bridge support when driving through of the excavator according to Fig. 3.

In Fig. I, the overburden 2 is assumed above the upper coal seam i and above the lower coal seam 3 the intermediate means. 4 .. The removal of the overburden 2 takes place in the usual way by excavators 5, the falling of the goods on the spoil dump by stacker 7. The intermediate agent is transferred to the stockpile through the conveyor bridge 8 g toppled and the coal of the lower seam 3 extracted by a swing excavator io. This swing excavator works .ein subgrade i i, which is as high as possible in the coal is arranged. The coal lying under the Planuz, can be used during the winter, if the overburden operation is still to be dismantled until that for the swing excavator only a narrow subgrade has come up to the spoil slope. The high planum has the advantage that the conveying operation can be continued even if about the bottom of the pit is drowned. In. in this case a coal rib can be left standing and continue working behind the coal rib in the usual way.

In the arrangement according to Fig. I, the support r2 of the conveyor bridge runs 8 directly in front of the swing excavator on the high excavator side.

In the illustration according to Fig. I, the swing excavator works as a high-rise excavator, by creating the subgrade at the same time. His work area then takes effect into the driving area of the support of the conveyor bridge. A rotation of 9o ° becomes easily brought the excavator out of the driving area of the bridge. the Conveyor bridge runs in the case shown on 'one or more rails that are arranged immediately next to the excavator rails and therefore with them on the same Thresholds can lie. One will use the advantage in the present case make the conveyor bridge run on the tracks of the excavator. You save in this way an extraordinary amount of track material, and you only need one or several places, depending on the length of the front of the excavator, to install a turnout, over which the support of the conveyor bridge travels in order to avoid the excavator .. The The conveyor bridge must of course be longitudinally displaceable on the upper chassis 8b be stored.

The arrangement with the turnout is shown in Fig. 2 and q .. Here, a particularly favorable solution lying within the scope of the invention is shown, in which the support 12 of the conveyor bridge is arranged on the side of the track system with the excavator embankment. The shortest overall length that is possible is thus obtained for the boom 8d. This makes the bridge light and cheap. The support 12 runs on the slope-side rail of the excavator track 13 (Fig. Q.). This track has a turnout 14 on which the chassis run along the conveyor bridge when the excavator is to pass under the conveyor bridge. The coal is transported away in the usual way by conveyor trains 15. A disruption of the conveyor operation occurs. - by moving the bridge or the excavator.

However, the support 16 of the conveyor bridge can also be designed like a portal (Fig. 3) and it can either run on rails next to the excavator track or on the rails of the excavator track. In this case, too, it is possible for the excavator to pass through the portal ornamental bridge, in the following way: The portal is provided with a pendulum support 17 on one side. The turnout is formed evenly on both sides (Fig. 5) and thus has two rails 18 and i9. The portal 16 runs along the rail 18, while the pendulum support is pulled outward by the rail 19 and then has to adjust itself at a corresponding angle, as FIG. 6 shows. The feet of the portal diverge while the excavator remains on the track and then drives through the portal.

This process described above for dismantling with The help of a swing excavator and a short conveyor bridge is now particularly suitable for deep seams. As can be seen from Fig. I, the overburden operation can be seen Carry out in such a way that the deeply excavated masses of the overburden or Intermediate means through the conveyor bridge directly on the dump side while the higher layers are transferred, as already indicated, by excavators dismantled and then brought to the stacker by conveyor trains.

This way of working has the great advantage that it also eliminates the problem is made more stable. You can, for example, the spoil 9 in the form of dams -fill by holding the bridge with a swiveling or sliding belt or an adjustable chute. This row of one behind the other Permanently collapsed dams then form a very good abutment for those from the upper one Dump pile heaped spoil, so that. this reduces the risk of outbreaks and the eruptions cannot reach the bottom of the opencast mine.

Claims (1)

PATENT CLAIMS: i. Procedure for the operation of opencast mines. In particular lignite, characterized in that a subgrade is produced in the coal seam in a known manner by a swing excavator on which the support of a conveyor bridge independent of the swing excavator runs in the working area of the excavator, through which the overburden masses are passed over the seam in a manner known per se be, the conveyor bridge and swing excavator drive past each other in such a way that the swing excavator is set with its bucket ladder in its direction of travel. a. Arrangement of the tracks for carrying out the method according to claim i, characterized in that the track or the running rail for the support of the conveyor bridge is arranged directly next to the rails of the swivel excavator on the same sleepers or on their own sleepers. 3. Arrangement of the tracks for carrying out the method according to claim i, characterized in that the conveyor bridge runs on the tracks of the excavator, which are provided at one or more points with diversions for the support of the conveyor bridge. 4. Conveyor bridge according to the arrangement according to claim 2 and 3, characterized in that the support of the conveyor bridge and the rails or the switch are arranged on the side of the excavator towards the embankment. 5. Conveyor bridge according to the arrangement according to claim 3, characterized in that the support of the conveyor bridge is designed like a portal with a movable leg, the evasion. are arranged on both sides of the excavator track so that the diverging legs of the portal support allow the excavator to pass through.