DE812063C - Schraemmaschine - Google Patents

Description

Cutting machine The invention relates to a device and a working process for the extraction of minerals, especially stone or Lignite in underground mining using cutting equipment.

There are Schrämvorrichtungen known which from cutting rollers or There are cutting chains or combinations of cutting rollers and cutting chains. Further cutting machines are also known which are combined with conveying devices, z. B. in such a way that the cutting device consists of a vertically arranged cutting chain and two horizontally arranged cutting rollers, the conveyor device of which in primitively consists of two rotating racks, which in most cases fail because the coal is so solid or falls so coarse that it does not attack can. Also with such machines, which consist of two parts, one at the end every ascent or descent one part moves before the other and back to this one Purposes are dismantled, which means very large losses of time and performance.

There are also separate extraction and extraction systems that have already been built in the manner of a plow Loading devices known with plow bodies, their cutting with the help of compressed air drive have a striking effect on the coal face, which, however, apart from the relatively small amount Performance of these machines, with hard coal an enormous consumption of materials or wear and tear. Also is the safety of miners on the coal front endangered by these machines, which work with very loud noise, because the miners do not have the warning signs of breaking wood before breaking down the roof and through the tremendous tremors which this machine moved to the rock, this breaks down much more easily and more often than with the calm and constantly working cutting machines.

The invention consists essentially in the fact that the drive unit the cutting device within the space worked out by the cutting device by a formwork, which by ploughshare-like shaping by the cutting device Dissolved material is conveyed away laterally, is arranged covered. The inventive In this way, the device acts simultaneously as a cutting machine and as a hoisting machine, which the loosened by the Schrämeinrichtung good, z. B. those from the coal pile cut coal, ejects to the side.

In that the drive unit is within the range of the cutting device is in the coal pile or the like. Elaborated space, the space is immediately adjacent the cutting device kept free. The device according to the invention enables therefore a particularly simplified working method in which, according to the invention the cutting machine is guided on its way to work next to a conveyor belt, and that Material ejected from the side of the cutting machine directly only through the Effect of the ploughshare-like formwork of the drive unit on the Conveyor belt is directed.

According to the invention, this ploughshare-like formwork closes, which expediently part of a housing of the drive unit consisting of the motor and the gearbox forms, on the ejection side facing the conveyor belt near the sole outside inclined guide surfaces having body, through which from the Space between the cutting device and the formwork, goods conveyed out onto the corresponding Level is raised to the conveyor belt.

According to the invention, the cutting machine is symmetrical with both of them Sides of the drive unit arranged cutting devices, which depending on the Feed direction can be brought into effect optionally, and with on both sides of the drive unit arranged ploughshare-like formwork. on in this way the machine can be advanced in both directions in the same way will. The cutting machine is here at the ends of its work path to their working width laterally, z. B. on a slide, moved in parallel and brought into effect again with the opposite feed. To be completely continuous To enable work without wasting time at the turning points can be made according to the measure the movement of the cutting machine a second conveyor belt on that of the cutting machine released path can be built up, which is the next following commute to the Cutting machine comes into effect.

Because the material is immediately ejected by the cutting machine even on the conveyor belt, which is guided close to the machine, and through the symmetrical, double-acting design of the machine enabled continuous operation, With no loss of time at the turning points, a delivery rate is achieved that meets the Power of the known cutting machines far exceeds. Due to the automatic way of working the cutting machine in direct cooperation with the conveyor belt is also allows a substantial reduction in the workforce, which is now just behind the machine carry out the pit removal to secure it and the new conveyor belt put the machine together and move the machine sideways at the turning points on the way to work have to postpone their new work situation. In this way the invention enables an increase in the tonnage that can be attributed to a miner many times over as well as an extensive rationalization of the dismantling. The invention also enables the complete elimination of dangerous shooting work on those it serves Dismantling fronts as well as the previous arduous drilling work, which, especially in firedamp pits, whose well-known catastrophic firedamp explosions are largely due to careless ones Gun work can be attributed to a very substantial increase in safety which means miners.

In the drawing, the invention is based on an exemplary embodiment explained schematically.

Fig. 1, 2 and 3 show the device according to the invention in plan, Front elevation and cross-sectional view, while Figure 4 illustrates the operation of the device; Fig. 5 shows another embodiment of the device according to the invention, while Fig. 6 is a view of Fig. 5 in the direction of arrow A.

The cutting machine has a housing i which encloses the drive unit. Cutter frames are hinged to the housing so as to be pivotable about axes 2 and 3 and carry cutter chains 4, 5, 6 and 7. The projecting ends of the upper and lower cutting frames are connected by shafts 8 and 9 or io and ii, of which the shafts 8 and io are designed as cutting rollers. The cutting chains and cutting rollers are driven by the shafts 2 and 3, which form the articulation axes, from a motor 12. From the motor 12 the drive goes via a chain 13 to a countershaft 14 and from here via a chain 15 to the shaft 2. In the drive of the cutting chain 6 and the cutting roller io, an intermediate gear 16 acting as a reversing gear is switched on, which via a chain 17 is driven and is in engagement with a gear 18 arranged on the shaft 3. A handwheel i9 is used to control the drive, depending on the feed direction, the right cutting device 4, 5, 8 or the left cutting device 6, 7, 1 0 with the. Drive connected or switched off from the drive. The traction cables 21 and 22, which are used to move the cutting machine, are attached to the housing i by means of springs 2o. The pull ropes 21 and 22 run over guide rollers 21 'and 22' arranged on the shafts 9 and ii, so that the machine is pressed against the coal face by the pressure of these pull ropes and in this way the dead straight guidance of the machine along the mining front is achieved.

The housing i enclosing the drive unit has a ploughshare shape shaped surfaces 23 and 24. The shape of these surfaces is chosen so that through this the material loosened by the cutting devices or from the coal face cut coal is shoveled or shoveled in the direction of a conveyor belt 25. is ejected. The area 26 of this ploughshare-shaped surface is almost arranged vertically so that the coal from the remaining wall of the coal face is pushed away. In the outer area 27 (in Fig. I below) the surface bulges 23 or 24 ploughshare-like in such a way that it can be used by the cutting device scooped up loosened material. In this area are on the surfaces 23 and 24 bodies connected with inclined surfaces 28 and 29, which the good in the shoveling effect raise the surfaces 23 and 24 to a certain level. On these inclined surfaces 28 or 29 are connected again ploughshare-like bodies 3o and 31, which the Shovel the material loosened by the cutting device to the surfaces 23 and 24, respectively. Therefore, as the cutting machine moves in the working direction, the material shoveled directly onto the conveyor belt 25.

The mode of operation of the device is now as follows: In the representation the drawing assumes the machine is moving to the right. Cut here the cutting chains 4 and 5 arranged on the right and the cutting roller 8 in the coal face 32, cutting out a block. The feed takes place here through a pull of a rope 21. Depending on the nature of the coal face the block becomes disintegrate by themselves or shattered by the ploughshare surface23 made of steel will. In the space 33 between the cutting device and the ploughshare surface 23 Therefore, the goods loosened by the cutting device are stowed and during the rest of the process Advance of the machine by the paddling effect of the surface 23 over the inclined surface 28 lifted and shoveled onto the conveyor belt 25. The ploughshare-like body 3o grasps the goods that have emerged from the side.

In this way, the cutting roller creates the effect of the cutting 8 a coal wall 34, on which the rear wall 35 of the housing i rests and slides. The roof of the tunnel is here by conventional pit punches 36 and Carrier 37 supported.

As Fig. 4 shows, the conveyor belt 25 is over the entire length of the work path the cutting machine performed immediately next to this, so that the cutting machine on can shovel the material onto the conveyor belt all their way to work. The drive of the conveyor belt is carried out by a drive unit 38. Empties at the left end the conveyor belt 25 transfers the goods to another conveyor belt 39. In accordance with the advance of the cutting machine on its way to work, the hanging wall is replaced by new pit punches 36 'supported. This is done in room 4o, which has just been worked out by the machine was constructed, a second conveyor belt 25 from individual parts. When the machine is your Ascent in the direction of arrow 41 has ended, the seam is on the through dashed line 42 indicated width reduced. Arrived at the end of her commute the machine in the upper mining section 43 on a slide 44 on which it is shifted by their working width. So far for the advance of the machine Required winch 45, which has drawn in the pull rope 21, is now ineffective, and the winch 47 provided in the left transverse tunnel 46 is switched on. Under the train of the left rope 22 now makes the machine its next work in the area between the dashed lines 42 and 48 of the arrow 49, which the downward slide suggests. At this point in time is the second built up in space 4o Conveyor belt 25 already completed, so that the machine is now again immediately runs next to this second conveyor belt and now from the left cutting device 6, 7, io loosened material through the ploughshare-like housing surface 24 over the inclined surface 29 is shoveled onto the belt 25.

During the descent, the first conveyor belt 25 is now removed and newly built behind the machine so that when the machine finishes its descent and has been moved into its new working position by the carriage 5o, the the next ascent can be carried out again in an analogous manner. Repeat this until the coal face is broken down.

The height of the cutting machine depends on the height of the coal face. If necessary, the cutting device can be designed to be adjustable in its height extent be.

The embodiment according to Figs. 5 and 6 differs from the embodiment according to Fig. i to 3 in that in place of the cutting chains 4 and 5 and the cutting rod 8 or the cutting chains 6 and 7 and the cutting rod io a single square circumferential inclined chain 50 is provided. In Fig. 5 and 6 there is only the right half of the cutting machine, while the left half, which is designed analogously, is not is drawn. The following description therefore only refers to this half.

In the embodiment according to Figs. 5 and 6 there is the cutting frame from a triangular upper cheek 51 and a lower cheek 52, both cheeks are fully trained and z. B. consist of sheet metal. The cheeks 51 and 52 are through Connecting pieces 53 and 54 connected to one another. In U-shaped grooves 55 and 56 of the top Cheek 51 and lower cheek 52 and in the channel-shaped formed connecting parts 53 and 54, the inclined chain 5o is guided.

The drive of the inclined chain takes place via chain wheels 58, which at the upper cheek 51 and on the lower cheek 52 are provided. The sprockets 58 are driven by the motor 12 via the transmission 14, a chain 15 and a chain 59.

This embodiment has the advantage that the rigid cutting rods 8 and io are omitted, which can give rise to deadlocks.

The invention enables a substantial increase in the performance of the Miners per man and shift, who are estimated to have an average of 100 to 300% amounts to. At the same time, physical work is greatly facilitated by eliminating the drilling work, the wedge-hewing work, the pointed hammer work and before especially the filling work, the most strenuous of all underground work. This results in a very substantial reduction in the cost of coal production, which depending on the local conditions to 50 to 75% of the previous generation costs of the pits concerned can be estimated. There is also a far-reaching one Increasing the safety of the miners at those mining fronts of the coal mines, which are equipped with such machines, by completely eliminating the dangerous Shooting work, especially in the firedamp pits.

Claims (2)

PATENT CLAIMS: Gates arranged cutting devices, which depending on the direction of advance can be brought into action, and is formed with ploughshare-like formwork arranged on both sides of the drive unit. 3. Apparatus according to claim i or 2, characterized in that the ploughshare-like walls form parts of a closed housing of the drive unit. 4. Apparatus according to claim 1, 2 or 3, characterized in that on the ejection side of the ploughshare-like formwork near the sole an outwardly sloping guide surfaces having body is connected through which the conveyed out of the formwork from the space between the cutting device and formwork Well raised to the appropriate level. 5. Device according to one of claims i to 4, characterized in that at the end facing away from the formwork of the body having the inclined guide surfaces, a ploughshare-like body ap connects this, which grasps the material emerging laterally from the space between the cutting device and formwork. 6. A method for extracting minerals using a device according to any one of claims i to 5, characterized in that the cutting machine is guided on its work path next to a conveyor belt, and the material ejected laterally from the cutting machine is passed directly onto the conveyor belt. 7. The method according to claim 6, characterized in that the cutting machine at the ends of its work path to its working width laterally, for. B. is parallel on a slide, moved and brought back into effect with the opposite feed. B. The method according to claim 6 or 7, characterized in that according to the movement of the cutting machine a second conveyor belt is built on the path released by the cutting machine, which comes into effect on the next working path of the cutting machine. i. Device for the extraction of minerals, in particular hard coal or lignite, in underground construction by means of cutting devices, characterized in that the drive unit of the cutting device within the space worked out by the cutting device by means of formwork which, by shaping ploughshare-like, conveys the material loosened by the cutting device to the side, is arranged covered. 2. Device according to claim i, characterized in that the device is symmetrical to a transverse to the feed direction lying level with on both sides of the drive unit