DEP0052302DA - Mechanical mining of mighty lignite seams in civil engineering - Google Patents

Description

For the mechanical excavation of thick lignite seams in civil engineering, process proposals are already known, according to which sections on the hanging and lying walls are driven for the conveyance of the backfill material or for the removal of the excavated material. With this method, shaft-like spaces are created more or less closely spaced together in vertical movement and the excavated material is fed to the conveying means in the lower section through previously drilled roller holes. The shaft-like cavities are arranged in rows next to one another or offset from one another so that walls or columnar pillars remain in place, the strength of the pillars being measured according to the stability of the rock and the expected pressure effect. In order to meet this condition, correspondingly thick pillars or walls must remain between each of the shaft-like cavities, so that a relatively high loss of coal occurs. To avoid this disadvantage, it has already been proposed to give the shaft-like cavities produced a hexagonal cross-section and to fill the walls of the cavities with concrete and to fill them with backfill material after dismantling is complete.

The invention relates to such a mechanical excavation of thick seams in civil engineering, in which the hanging and lying stretches for the conveyance of the backfill material or for the removal of the excavated material are driven forward and consists in that on one of the upper route to the lower route Reaching offset shield a dismantling device in a vertical position

Plane is arranged movably, the range of which corresponds to the width of the offset shield, with the offset shield advanced to the extent of the cutting depth of the dismantling device after the completion of the dismantling of the roof, which is progressing in the direction of the routes, and the resulting cavity is filled with backfill material. A paddle wheel or a chain of buckets that can be pivoted in a horizontal plane is expediently used as the dismantling device.

It is assumed to be known to provide offset shields for mining in a broad view or in longwall mining with continuously progressing mining.

The advantage of the invention consists in the simple and continuous progressive excavation work when excavating thick seams in one operation.

The invention is shown in the drawing in an exemplary embodiment.

Fig. 1 shows a longitudinal section through the dismantling disk,

Fig. 2 shows the mining shaft in cross section and

Fig. 3 is a top view of the mining field.

On the hanging wall of the thick brown coal seam a to be mined, a section b has been driven, from which a vertical shaft c is sunk to the bottom of the seam a. A section d in which the conveyor belt e is arranged for conveying away the degraded material is also driven forward on the lying surface. On the rear wall of the shaft c, based on the progress of the mining, an offset plate f is placed on which a paddle wheel g pivotable in the horizontal plane by means of a carriage frame h and the rail guide i in the vertical plane is arranged to be movable. The offset shield f can be moved on the bottom of the lower section d on a mobile frame k and is supported above and below against the seam a in order to prevent the shield f from advancing unintentionally under the pressure of the old man. The shield f is supported against the seam a, for example, by means of a variable-length pressure stamp l. In the upper path b, the conveying device m is arranged for bringing in the material to be offset.

The extraction device g removes the roof according to its cutting depth by a certain amount with constant pivoting and lifting. If the extraction device has reached the bottom of the route b during this work, the variable-length punches l are exchanged and the offset plate f advances in the mining direction under the pressure of the old man, so that the work cycle can begin again. As can be seen from Fig. 3, the individual excavation spaces are arranged so far away from one another that a correspondingly strong safety wall n remains between the individual excavation spaces. It is advisable to initially select the spacing between the excavation spaces so large that another longwall can later be driven between the excavation spaces filled with offset, so that correspondingly thin residual coal walls n remain without the risk of these walls breaking , because the neighboring cavities are already filled with an offset. Several mining struts can also be driven at the same time with this large spacing.

Claims (2)

1.Mechanical mining of mighty lignite seams in civil engineering, in which the hanging and lying stretches for the conveyance of the backfill material or for the removal of the excavated material are driven, characterized in that on one of the upper route (b) to the lower route (d ) Reaching offset shield (f) a dismantling device (g) is movably arranged in a vertical plane, the range of which corresponds to the width of the offset shield (f); of the dismantling device (g), the displacement shield (f) is advanced and the cavity that is created is filled with displacement material. 2. Device for the mechanical mining of thick seams in civil engineering according to claim 1, characterized in that the extraction device (g) designed as a paddle wheel or bucket chain is mounted pivotably in the horizontal plane on a carriage frame (h) guided in sliding guides (i) of the offset plate (f) is.